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The level of expression of these genes in breast tumoral tissue is a useful marker for evaluating the risk of metastasic relapse in breast cancer patients.","lang":"en","source":"EPO_FULLTEXT","data_format":"ORIGINAL"}]},"abstract_lang":["en"],"has_abstract":true,"claim":{"en":[{"text":"A method for evaluating the risk of metastatic relapse in a breast cancer patient, wherein said method comprises measuring the level of expression of each of the following genes: BTG2, UBE2C, VEGFA, SLC25A5, FABP5, ENO1, PSMB7, TUBB6, TACC3, SURF4, RHOC, CHCHD2, SFRS5, TNFSF13, DDT, C1orf64, RAB10, XIST, TUBA4A, PPA1, C4B, TUBB2C, C3orf37, GATA3, PGK1, PPP1CA, BCL2A1, IL6ST, PSMB3, RPNI, ETFB, CYC1, POR, TUBB3, TMED9, TOE1, C17orf37, PSMA, in a sample of breast tumoral tissue obtained from said patient.","lang":"en","source":"EPO_FULLTEXT","data_format":"ORIGINAL"},{"text":"The method of claim 1, wherein the level of expression of said genes is measured by determination of their level of transcription, using a DNA array.","lang":"en","source":"EPO_FULLTEXT","data_format":"ORIGINAL"},{"text":"The method of claim 1, wherein the level of expression of said genes is measured by determination of their level of transcription, using quantitative RT-PCR.","lang":"en","source":"EPO_FULLTEXT","data_format":"ORIGINAL"},{"text":"The method of any of claims 1 to 3, wherein a risk score (Pi) for a given patient is calculated according to the following equation: \nwherein Gi represents overexpressed gene standardized expression value and Gj represents underexpressed gene standardized expression value, and wherein overexpressed genes are UBE2C, VEGFA, SLC25A5, FABP5, ENO1, PSMB7, TUBB6, TACC3, SURF4, RHOC, CHCHD2, DDT, PAB10, TUBA4A, PPA1, TUBB2C, C3orf37, PGK1, PPP1CA, BCL2A1, PSMB3, RPN1, ETFB, CYC1, POR, TUBB3, TMED9, TOE1, C17orf37, PSMA5, and underexpressed genes are BTG2, SFRS5, TNFSF13, C1orf64, XIST, C4B, GATA3, IL6ST.","lang":"en","source":"EPO_FULLTEXT","data_format":"ORIGINAL"},{"text":"A kit for evaluating the probability of metastatic relapse in a breast cancer patient, characterized in that it comprises a combination of reagents for measuring the level of expression of each of the 38 genes listed in claim 1.","lang":"en","source":"EPO_FULLTEXT","data_format":"ORIGINAL"},{"text":"A kit of claim 5, characterized in that it contains a DNA array comprising for each of the 38 genes listed in claim 1, at least one nucleic acid probe specific of said gene.","lang":"en","source":"EPO_FULLTEXT","data_format":"ORIGINAL"},{"text":"A kit of claim 5, characterized in that it is a PCR kit, containing, for each of the 38 genes listed in claim 1, at least one pair of PCR primers specific of said gene.","lang":"en","source":"EPO_FULLTEXT","data_format":"ORIGINAL"}]},"claim_lang":["en"],"has_claim":true,"description":{"en":{"text":"The invention relates to tools and methods for predicting evolution in breast cancer. Primary therapy for early stage breast cancer generally involves local treatment by surgery and/or radiation therapy. However, micrometastases that are clinically undetectable may escape the treatment, leading to reappearance of the disease. The use of adjuvant systemic therapy, i.e. systemic anticancer therapy given in addition to the primary treatment, aims at eliminating these micrometastases in order to prevent or delay relapses and increase the chance of long-term survival. Adjuvant chemotherapy involves the use of anticancer drugs, generally in combination. The most frequently used include anthracyclines such as doxorubicin or epirubicin, 5-fluorouracil, methotrexate, cyclophosphamide, and taxoids such as paclitaxel or docetaxel. Adjuvant hormone therapy uses estrogen analogues such as tamoxifen, that reduce the growth of cancer cells by blocking the estrogen receptor (ER). Adjuvant therapy is often associated with various adverse effects such as alopecia, nausea and vomiting. Although having fewer side effects than chemotherapy, tamoxifen has been reported to cause venous thromboembolism or endometrial cancer. Not all patients will derive benefit from adjuvant therapy. For instance, in patients having a good prognosis after primary therapy the disease is less likely to recur and thus these patients are less likely to obtain an additional benefit from adjuvant systemic therapy. Further, among the patients who are eligible for adjuvant therapy, the response to a given type of therapy may vary from an individual to another. It is thus important to identify factors associated with prognosis, which reflect the aggressiveness of a tumor, and are useful to estimate the outcome of the disease independently of the treatment administered, and also factors allowing to predict the sensitivity or resistance of a tumor to a given therapeutic agent. This prognostic and predictive factors are respectively useful to evaluate whether a patient is likely to benefit from adjuvant therapy and which kind of therapy is most likely to work for this patient. Several factors correlated with prognosis, some of which have also a predictive value, have been identified. They include in particular tumor size, lymph node status, histological grade, proliferative capacity of the tumor, expression of ER, and expression of the oncogene HER-2/neu (erbB-2). Various combinations of these factors have been integrated into multivariate models allowing to estimate risks for recurrence and mortality and to estimate the potential benefits of adjuvant therapy. Among the more widely used models one can cite the Nottingham Prognostic Index ( GALEA et al. Breast Cancer Res Treat, 22, 207-219, 1992 ), which is based on tumor size, lymph node stage and histological grade, and the Adjuvant! Computer program ( RAVDIN et al., J Clin Oncol, 19, 980-991, 2001 ), which provides prognostic estimates from patient information (age, menopausal status, comorbidity) and tumor factors (tumor size, lymph node status, ER status). More recently, it has been proposed to use gene expression profiling first for identifying gene-expression signatures (GES) distinguishing breast tumors into subclasses with clinical implications, and second to predict evolution of node-negative breast cancer patients ( PEROU et al., Nature, 406, 747-52, 2000 ; SORLIE et al. Proc Natl Acad Sci USA, 98, 10869-74, 2001 ; VAN'T VEER et al., Nature, 415, 530-35, 2002 ; VAN DE VIJVER et al., N Engl J Med, 347, 1999-2009, 2002 ; WANG et al., The Lancet, 365, 671-79, 2005 ) The initial focus on node-negative breast cancer subtyping resulted from the crucial decision of not treating low-risk patients who might have a favorable evolution without systemic adjuvant chemotherapy. Currently, three commercially available prognostic breast cancer tests resulting from gene expression studies are available: Oncotype Dx(Genomic Health, Redwood City, CA, USA), MammaPrint(Agendia BV, Amsterdam, the Netherlands) and H/I (AvariaDX, Carlsbad, CA, USA) ( PAIK et al., N Engl J Med, 351, 2817-26, 2004 ; MA et al., Cancer Cell, 5, 607- 16, 2004 ) All these tests are designed to be used in the management of node-negative breast cancer. Today, no robust GES able to predict node-positive breast cancer evolution after systemic adjuvant chemotherapy exists. Being able to type those node-positive patients would lead to orientate and include high-risk patients in new clinical trials testing novel targeted therapies. The goal of the inventors was thus to identify and validate a GES for the purpose of predicting metastatic relapse (MR) in node-positive patients treated by adjuvant chemotherapy, and so, to enlarge the panel of prediction of breast cancer GESs. They have designed a molecular classifier based on a set of 38 genes, which were highly predictive of MR when used together. These 38 genes are listed in Table I below.\n TABLE-tabl0001 Table I Gene symbol Gene title Genbank # BTG2 BTG family, member 2 NM_006763 UBE2C Ubiquitin-conjugating enzyme E2C BC032677 VEGFA Vascular endothelial growth factor A NM_001025366 SLC25A5 Solute carrier family 25, member 5 R56229 FABP5 Fatty acid binding protein 5 BG282526 ENO1 Enolase 1, (alpha) AL833741 PSMB7 Proteasome (prosome, macropain) subunit, beta type, 7 R54562 TUBB6 Tubulin, beta 6 NM_032525 TACC3 Transforming, acidic coiled-coil containing protein 3 BC106071 SURF4 Surfeit 4 NM_033161 RHOC Ras homolog gene family, member C AK094474 CHCHD2 Coiled-coil-helix-coiled-coil-helix domain containing 2 NM-016139 SFRS5 Splicing factor, arginine/serine-rich 5 R28509 TNFSFI3 Tumor necrosis factor (ligand) superfamily, member 13 NM_003808 DDT D-dopachrome tautomerase AI936198 C1orf64 Chromosome 1 open reading frame 64 AI732325 RAB10 RAB 10, member RAS oncogene family AA074077 XIST X (inactive)-specific transcript H78857 TUBA4A Tubulin, alpha 4a AK054731 PPA1 Pyrophosphatase (inorganic) 1 BF694769 C4B Complement component 4 B NM_001002029 TUBB2C Tubulin, beta 2C BX648521 C3orf37 Chromosome 3 open reading frame 37 T65434 GATA3 GATA binding protein 3 R16918 PGK1 Phosphoglycerate kinase 1 H17787 PPP1CA Protein phosphatase 1, catalytic subunit, alpha isoform NM_001008709 BCL2A1 BCL2-related protein A1 N28416 IL6ST Interleukin 6 signal transducer (gp130, oncostatin M receptor) H04779 PSMB3 Proteasome (prosome, macropain) subunit, beta type, 3 R00911 RPN1 Ribophorin I NM_002950 ETFB Electron-transfer-flavoprotein, beta polypeptide R55473 CYC1 Cytochrome c-1 BF569085 POR P450 (cytochrome) oxidoreductase CD014011 TUBB3 Tubulin, beta 3 T57691 TMED9 Transmembrane emp24 protein transport containing 9 NM_017510 TOE1 Target of EGR1, member 1 (nuclear) H29584 C17orf37 Chromosome 17 open reading frame 37 T84927 PSMA5 Proteasome (prosome, macropain) subunit, alpha type, 5 H48425 These 38 genes will be designated hereinafter by the gene symbols indicated in Table I, which are those approved by the HUGO Gene Nomenclature Committee (HGNC). The invention thus relates to a method for evaluating the risk of MR in a breast cancer patient, wherein said method comprises measuring the level of expression of each of the following genes: BTG2, UBE2C, VEGFA, SLC25A5, FABP5, ENO1, PSMB7, TUBB6, TACC3, SURF4, RHOC, CHCHD2, SFRS5, TNFSF13, DDT, C1orf64, RAB10, XIST, TUBA4A, PPA1, C4B, TUBB2C, C3orf37, GATA3, PGK1, PPP1CA, BCL2A1, IL6ST, PSMB3, RPN1, ETFB, CYC1, POR, TUBB3, TMED9, TOE1, C17orf37, PSMA, in a sample of breast tumoral tissue obtained from said patient. According to an embodiment of the invention, the level of expression of each of said genes is compared with the mean level of expression of the same gene measured in samples of breast tumoral tissue from a reference group of patients with breast cancer. Preferably, said reference group consists of patients which have unilateral breast cancer, are node-positive, show no evidence of metastasis at diagnosis, are younger than 65 years of age, and have not yet received adjuvant systemic chemotherapy. An example of such a reference group is the training cohort which is described in the examples below. An overexpression of UBE2C, VEGFA, SLC25A5, FABP5, ENO1, PSMB7, TUBB6, TACC3, SURF4, RHOC, CHCHD2, DDT, RAB10, TUBA4A, PPA1, TUBB2C, C3orf37, PGK1, PPP1CA, BCL2A1, PSMB3, RPN1, ETFB, CYC1, POR, TUBB3, TMED9, TOE1, C17orf37, PSMA5, and an underexpression of BTG2, SFRS5, TNFSF13, Clorf64, XIST, C4B, GATA3, IL6ST, are correlated with a higher probability of MR. Methods for measuring the level of expression of a given gene are familiar to one of skill in the art. They typically include methods based on the determination of the level of transcription (i.e. the amount of mRNA produced) of said gene, and methods based on the quantification of the protein encoded by the gene. Preferably, for carrying out the present invention, the level of expression of the 38 genes listed above is based on the measurement of the level of transcription. This measurement can be performed by various methods which are known in themselves, including in particular quantitative methods involving reverse transcriptase PCR (RT-PCR), such as real-time quantitative RT-PCR (qRT-PCR), and methods involving the use of DNA arrays (macroarrays or microarrays). Classically, methods involving quantitative RT-PCR comprise a first step wherein cDNA copies of the mRNAs obtained from the biological sample to be tested are produced using reverse transcriptase, and a second step wherein the cDNA copy of the target mRNA is selectively amplified using gene-specific primers. The quantity of PCR amplification product is measured before the PCR reaction reaches its plateau. In these conditions it is proportional to the quantity of the cDNA template (and thus to the quantity of the corresponding mRNA expressed in the sample). In qRT-PCR the quantity of PCR amplification product is monitored in real time during the PCR reaction, allowing an improved quantification (for review on RT-PCR and qRT-PCR, cf. for instance: FREEMAN et al., Biotechniques, 26, 112-22, 24-5, 1999 ; BUSTIN & MUELLER, Clin Sci (Lond), 109, 365-79, 2005 ). Parallel PCR amplification of several target sequences can be conducted simultaneously by multiplex PCR. A \"DNA array\" is a solid surface (such as a nylon membrane, glass slide, or silicon or ceramic wafer) with an ordered array of spots wherein DNA fragments (which are herein designated as \"probes\") are attached to it; each spot corresponds to a target gene. DNA arrays can take a variety of forms, differing by the size of the solid surface bearing the spots, the size and the spacing of the spots, and by the nature of the DNA probes. Macroarrays have generally a surface of more than 10 cm 2 with spots of 1mm or more; typically they contain at most a few thousand spots. In cDNA arrays, the probes are generally PCR amplicons obtained from cDNA clones inserts (such as those used to sequence ESTs), or generated from the target gene using gene-specific primers. In oligonucleotide arrays, the probes are oligonucleotides derived from the sequences of their respective targets. Oligonucleotide length may vary from about 20 to about 80 bp. Each gene can be represented by a single oligonucleotide, or by a collection of oligonucleotides, called a probe set. Regardless of their type, DNA arrays are used essentially in the same manner for measuring the level of transcription of target genes. mRNAs isolated from the biological sample to be tested are converted into their cDNA counterparts, which are labeled (generally with fluorochromes or with radioactivity). The labeled cDNAs are then incubated with the DNA array, in conditions allowing selective hybridization between the cDNA targets and the corresponding probes affixed to the array. After the incubation, non-hybridized cDNAs are removed by washing, and the signal produced by the labeled cDNA targets hybridized at their corresponding probe locations is measured. The intensity of this signal is proportional to the quantity of labeled cDNA hybridized to the probe, and thus to the quantity of the corresponding mRNA expressed in the sample (for review on DNA arrays, cf. for instance: BERTUCCI et al., Hum. Mol. Genet., 8, 1715-22, 1999 ; CHURCHILL, Nat Genet, 32 Suppl, 490-5, 2002 ; HELLER, Annu Rev Biomed Eng, 4, 129-53, 2002 ; RAMASWAMY & GOLUB, J Clin Oncol, 20, 1932-41, 2002 ; AFFARA, Brief Funct Genomic Proteomic, 2, 7-20, 2003 ; COPLAND et al., Recent Prog Horm Res, 58, 25-53, 2003 )). The breast tumoral tissue to be analyzed is classically obtained after surgical excision of the tumor followed by a macrodissection step for removing the surrounding healthy tissue. Preferably, it is be rapidly snap-frozen in liquid nitrogen and kept frozen until RNA extraction. Storage reagents, such as RNAlater® (Ambion, Applied Biosystems) can also be used. Various methods for extracting total RNA from the tumor cells are known in themselves. By way of non-limitative examples, one can cite guanidinium thiocyanate-phenol-chloroform extraction using for instance TRIZOL® reagents (INVITROGEN), or selective binding to silicagel membranes, using for instance the RNeasy® or the AllPrep® kit (QIAGEN). The integrity of RNA for each sample is assessed for instance with the 2100 Bioanalyzer (Agilent Technologies), using the 'RNA Integrity Number' (RIN) algorithm ( SCHROEDER et al., BMC Molecular Biology, 7, 3, 2006 ) for calculating the RNA integrity. A RIN number higher than 8 is recommended for optimal results, in particular in the case of DNA arrays. The quality and the concentration of the RNA are assessed by spectrophotometry, using for instance a Nanodrop® spectrophotometer. A 260/280 ratio > 1.8, a 260/230 ratio > 1.9 and a total RNA quantity > 1 µg are recommended for optimal results. According to a preferred embodiment of the invention, the level of transcription of the 38 genes listed above is measured, and a risk score (Pi) for a given patient is calculated according to the following equation: \nwherein Gi represents overexpressed gene standardized expression value and Gj represents underexpressed gene standardized expression value. Overexpressed genes are UBE2C, VEGFA, SLC25A5, FABP5, ENO1, PSMB7, TUBB6, TACC3, SURF4, RHOC, CHCHD2, DDT, RAB10, TUBA4A, PPA1, TUBB2C, C3orf37, PGK1, PPP1CA, BCL2A1, PSMB3, RPN1, ETFB, CYC1, POR, TUBB3, TMED9, TOE1, C17orf37, PSMA5, and underexpressed genes are BTG2, SFRS5, TNFSF13, C1orf64, XIST, C4B, GATA3, IL6ST. Standardized expression value is calculated for each gene according to the following equation : \nwherein E is the expression value of the patient's gene; M is the mean expression value of the gene in the reference group and STD its standard deviation. When a DNA array is used, the expression value E for a gene is the log2 transformed intensity of the signal produced by said gene, obtained from the DNA array. When qRT-PCR is used, the expression value E for a gene is the quantity of PCR amplification product, normalized to a reference gene, [such as ACTB (actin beta) or ACTG1 (actin gamma1)] found by the inventors to have an invariant level of expression (assessed by the coefficient of variation, which was measured prior to the data standardization). The inventors have calculated the mean and the standard deviation of the expression values of the 38 genes listed above, obtained with a DNA array, from a reference group of 252 patients with breast cancer. They have established the following equation for calculating a risk score for a given patient: wherein \"GENE SYMBOL\" represents the expression value of the corresponding gene in said patient. It is believed that the estimators (mean and standard deviation) indicated in this equation are broadly usable for calculating the risk score in prospective patients, when the gene-expression values are established using a DNA array. The 38-gene molecular classifier of the invention allows to evaluate the risk of MR in node-positive breast cancer patients. However, as shown in the examples below, it is also suitable as a prognostic tool for node-negative breast cancer patients. It is more particularly suitable for calculating the risk score in subjects which have not yet begun a chemotherapy. A risk score lower or equal to -0.65 is indicative of a probability of MR at 5 years of about 97 %; a risk score higher than -0.65 and lower or equal to +0.65 is indicative of a probability of MR at 5 years of about 85 %. A risk score higher than +0.65 is indicative of a probability of MR at 5 years of about 55 %. The 38-gene molecular classifier of the invention can also be used in conjunction with other prognostic tools for breast cancer patients. In particular, it can be advantageously combined with clinicopathological prognostic indexes such as Nottingham prognostic index (NPI) and Adjuvant! (http://www.adjuvantonline.com). The present invention also provides kits for using the 38-gene molecular classifier of the invention. A kit of the invention comprises a combination of reagents allowing to measure the level of expression of each of the 38 genes of said molecular classifier. Preferably, said kit is designed to measure the level of mRNA of each of these genes. Accordingly, it comprises, for each of the 38 genes, at least one probe or primer that selectively hybridizes with the transcript of said gene, or with the complement thereof. According to a preferred embodiment of the invention said kit comprises a DNA array. In this case said DNA array will comprise at least 38 different probes, i.e. at least one probe for each of the 38 genes of the molecular classifier. Said probes can be cDNA probes, or oligonucleotide probes or probe sets. One of skill in the art can easily find suitable probes, on the basis of the sequence information available for these genes. For instance, other suitable cDNA probes can be found by querying the EST databases with the sequences identified in Table I by their GenBank reference. They can also be obtained by amplification from human cDNA libraries using primers specific of the desired cDNA. Suitable oligonucleotide probes can be easily designed using available software tools (For review, cf. for instance: LI & STORMO, Bioinformatics, 17, 1067-76, 2001 ; EMRICH et al., Nucleic Acids Res, 31, 3746-50, 2003 ; ROUILLARD et al., Nucl. Acids Res., 31, 3057-62, 2003 ) According to another preferred embodiment of the invention, said kit is a PCR kit, which comprises a combination of reagents, allowing specific PCR amplification of the cDNA of each of the 38 genes of the molecular classifier of the invention; these reagents include in particular at least 38 different pairs of primers i.e. at least one specific pair of primers for each of the 38 genes of the molecular classifier. In the same way as oligonucleotide probes, suitable primers can easily be designed by one of skill in the art, and a broad variety of software tools is available for this purpose (For review, cf. for instance: BINAS, Biotechniques, 29, 988-90, 2000 ; ROZEN & SKALETSKY, Methods Mol Biol, 132, 365-86, 2000 ; GORELENKOV et al., Biotechniques, 31, 1326-30, 2001 ; LEE et al., Appl Bioinformatics, 5, 99-109, 2006 ; YAMADA et al., Nucleic Acids Res, 34, W665-9, 2006 ). Optionally, said primers can be labeled with fluorescent dyes, for use in multiplex PCR assays. The DNA arrays as well as the PCR kits of the invention may also comprise additional components, for instance, in the case of PCR kits, pairs of primers allowing the specific amplification of the reference gene(s). The invention will be further illustrated by the following additional description, which exemplifies the use of the molecular classifier of the invention for predicting survival of patients with breast cancer. It should be understood however that this example is given only by way of illustration of the invention and does not constitute in any way a limitation thereof. MATERIALS AND METHODS Selection and grouping of Patients Training cohort (TC) The training cohort (TC) was composed of 252 women who had unilateral breast cancer, were node-positive, showed no evidence of metastasis at diagnosis, and were younger than 65 years of age. The majority of the studied patients (90.5%) was primarily included in a multicentric phase III clinical trial (PACS01) conducted by investigators from the French Federation of Cancer Centers (FNCLCC) ( ROCHÉ et al., J Clin Oncol, 24, 5664-71, 2006 ). One hundred and twenty eight patients were also part of a previous study; in the present work, follow-up data were actualized ( CAMPONE et al., Breast Cancer Res Treat, 109, 491-501, 2007 ). Twenty four patients (9.5%) followed in the René Gauducheau Cancer Centre (RGCC) were included based on the same inclusion criteria as those used for PACS01 trial. After surgery, patients received intravenous adjuvant treatment with 5-fluorouracil 500 mg/m 2 , epirubicin 100 mg/m 2 and cyclophosphamide 500 mg/m 2 (FEC100) every 21 days for six cycles (PACS01-FEC arm A and RGCC), or three cycles (PACS01-FEC+Docetaxel arm B). Patients were followed up for metastatic free survival (MFS). No bioclinical heterogeneity between the 3 subpopulations was found. The median follow-up was 7.7 years (range 1.22 - 10.02). During the period, 65 patients showed evidence of distant metastatic relapse (MR) and 47 died. This substudy of PACS01 trial was reviewed and approved by the ethics committee/institutional (CCPPRB) review board (number 1-97-13). All patients signed informed consent for research purpose. Clinical and pathological features of the 252 included patients are summarized in Table II below.\n TABLE-tabl0002 Table II Variable All patients \n(n=252) PACS01 arm A a \n(n=128) PACS01 arm B b \n(n=100) RGCC \n(n=24) p Age (years) ≤35 14 4 9 1 >35 238 124 91 23 0.143 ER - 58 22 30 6 + 181 96 67 18 md 13 10 3 0 0.091 Scarff-Bloom-Richardson (SBR) grade I 44 23 17 4 II 137 69 59 9 III 71 36 24 11 0.306 Tumor size (mm) ≤20 94 42 43 9 >20 158 86 57 15 0.288 N° positive nodes 1-3 156 78 62 16 4-9 79 40 31 8 >9 17 10 7 0 0.821 Hormonotherapy no 93 52 35 6 yes 159 76 65 18 0.311 NPI score 1 13 6 7 0 2 136 70 54 12 3 103 52 39 12 0.723 10 year-OS Adjuvant! score (%) 55.9 55 58 54 [11.2-89.6] [11-89] [14-90] [32-79] 0.857 10 year-OS Adjuvant! score (%) ≥80 23 13 10 0 60-79 90 43 37 10 <60 139 72 53 14 0.561 5-year MFS % 80 82 82 67 (95% CI) (75-85) (74-88) (73-88) (44-82) 0.150 5-year OS % 89 87 91 87 (95% CI) (84-92) (80-92) (83-95) (65-96) 0.680 a: FEC; b: FEC-Docetaxel; Continuous variables: median [range]; md: missing data Validation cohort (VC) External validation was based on independent external genomic data sets. The selection of these breast cancer cohorts was based on the following inclusion criteria: available genomic profiles, node-positive and MR well defined in order to use the same outcome definition as the one used in the training set. Hence, we extracted three node-positive subcohorts (VC1 to VC3) from three published cohorts ( VAN DE VIJVER et al., N Engl J Med, 347, 1999-2009,2002 ; SOTIRIOU et al., Proc Natl Acad Sci USA, 100, 10393-98, 2003 ; SOTIRIOU et al., J Natl Cancer Inst, 98,262-72, 2006 ). These gene-expression data sets were generated from three different microarray platforms (Agilent®, Affymetrix®, cDNA custom array). In Van de Vijver's subcohort (VC1), 62.5% of patients had received adjuvant systemic chemotherapy. Sixty percents of Sotiriou's subcohort published in 2003 (VC2) had received a systemic treatment consisting in 6 cycles of cyclophosphamide, methotrexate, and 5-fluorouracil (CMF). All patients included in Sotiriou study published in 2006 (VC3) had received hormonal therapy alone (Tamoxifen) [SOTIRIOU 2006, cited above]. No statistical heterogeneity was found between TC and VC1+VC2+VC3 for available data (ER (estrogen receptor) and 5- year MFS). Exploratory cohorts (EC) To explore performance capacities of 38-GES, a complementary study was conducted on breast cancer patients who did not fulfill 38-GES establishment inclusion criteria. Three subcohorts (EC1 to EC3) and three cohorts of breast cancer patients (EC4 to EC6) were used (VAN DE VIJVER et al. , 2002; SOTIRIOU et al., 2003; SOTIRIOU et al., 2006, cited above; WANG et al., The Lancet, 365, 671-79, 2005 ; PAWITAN et al., Breast Cancer Res; 7: R953-R964, 2005 ; IVSHINA et al. Cancer Res, 66: 10292-301, 2006 ). We used MR as endpoint in the four node-negative groups (EC1 to EC4) and unspecified event (UE) (local relapse, MR, cancer death) in the two node-mixed cohorts (EC5 and EC6). No heterogeneity was found for available data between TC and EC1+EC2+EC3+EC4 or between TC and EC5+EC6. The methodological distribution and status of the studied cohorts are summarized in Table III below\n TABLE-tabl0003 Table III code Data sets Nodal status Clinical outcome N+ N- mixed MR ue TRAINING COHORT TC our study 252 65 Total 252 65 VALIDATION COHORT VC1 Van de Vijver et al 144 47 VC2 Sotiriou et al, 2003 53 23 VC3 Sotiriou et al, 2006 27 7 Total 224 77 EXPLORATORY COHORTS EC1 Van de Vijver et al 151 54 EC2 Sotiriou et al, 2003 46 7 EC3 Sotiriou et al, 2006 149 33 EC4 Wang et al 286 107 Subtotal 632 201 EC5 Pawitan et al 159 40 EC6 Ivshina et al 249 89 Subtotal 408 129 MR: metastatic relapse; ue: unspecified event: local relapse, MR or cancer death Tumor tissue samples and RNA extraction Tumor tissue samples were surgically collected, macrodissected and immediately snapfrozen in liquid nitrogen and stored until RNA extraction. Total RNA was prepared by the CsCl-cushion, as described by CHIRGWIN et al. (Biochemistry; 18, 5294- 99, 1979 ) from the tumor tissue samples obtained after surgery. The quality and the quantity of RNA samples were evaluated by Agilent 2100 Bioanalyser RNA LabChip kit (Agilent Technologies, Palo Alto, CA, USA). Nylon microarray technology In the present study, we used nylon microarrays manufactured in our lab, which contained 8,032 unique sequenced-verified cDNA clones, representing 5,776 distinct genes, chosen using the expressed sequence tag (EST) database from the NCBI. The same microarray tools were used and described in previous works ( MAGRANGEAS et al., Blood, 101, 4998-5006, 2003 ; CAMPONE et al., 2007, cited above; DECAUX et al., J Clin Oncol, 26, 2008 ). Five µg of RNA were labeled by reverse transcription and incorporation of [ -33P]dCTP. Then nylon microarrays were hybridized with the labeled cDNAs probes as previously described (MAGRANGEAS et al., 2003, cited above). DNA microarrays were scanned at 25-µm resolution using a Fuji BAS 5000 image plate system (Raytest, Paris, France). The hybridization signals were quantified using ArrayGauge software v.1.3 (Fuji Ltd, Tokyo, Japan). For each membrane, the raw data were background noise subtracted (median value of negative controls ± 6 standard deviation (std)), then normalized by global intensity of hybridization. Patient data were adjusted by the amount of PCR product spotted onto the membrane, log 2 -transformed and finally standardized (mean=0; std=1). Only genes well measured for 70% of patients were retained. Establishment of the predictive gene expression signature Data analysis Genes selection Genes were selected by means of resampling and univariate Cox permutations techniques in order to minimize overfitting and to maximize stability of gene list for MFS prediction. We created 100 different random samples composed of the 2/3 of TC. For each of these 100 subsamples i (i=1 to 100), we determined an unbiased predictor (pi) with internal robust cross-validation (leave-one-out cross-validation method). One-hundred pi (i=1 to 100) were thus determined. In order to increase stability of final gene list (n), only genes present in at least 50% of the unbiased resampled gene predictors pi were retained to build the n-GES. GES determination The 38-GES score was defined as the difference between the average expression of the up-regulated genes and the average expression of the down-regulated genes in the TC. No weight was assigned to genes in order to limit overfitting. Standardization of gene distributions permitted extrapolation of fully determined 38-GES (including cutoff) onto other cohorts. Optimal cutoff between 38-GES low-risk and high-risk groups was determined as the value with minimal Akaike Information Criterion (AIC). GES validation As the 38-GES genes were not always present in the different validation cohorts (VCs) and exploratory cohorts (ECs) (n = 25 to 38), it was necessary to evaluate if the different 38-GES subscores were significantly correlated with 38-GES complete score in the training cohort (TC). All the n-GES subscores (n = 25 [pooled VCs: 1 to 3; pooled ECs: 1 to 4], 26 [VC2 and EC2], 31 [VC1 and EC1], 34 [VC3, EC3 and EC4]) were highly correlated with 38-GES score (Spearman's rho ≥ 0.973), as shown in Figure 1 . Subscores were then used for risk group determination in each individual test cohort. They were calculated as indicated in the following panel.\n TABLE-tabl0004 Panel: Calculation of 38-GES subscore \n with n = 25, 26, 31, 34 Gi and Gj represent overexpressed and underexpressed gene-expression standardized values, respectively. No weight was assigned to genes in order to limit overfitting. For n = 25, 26, 31 and 34, p was 19, 20, 25, 27 and q was 6, 6, 6, 7, respectively. For n = 25, 26, 31 and 34, n-GES optimal cutoff in TC: was -0.264, -0.245, 0.065, 0.065, respectively. Each subscore optimal cutoff was defined as the value with minimal AIC in training cohort. Survival analysis and endpoints Time from surgery to MR (primary endpoint) was retained for GES establishment. Overall survival (OS), defined as time from surgery to death from any cause, was used to reinforce MFS analysis in TC. Survival curves were plotted according to Kaplan-Meier method and compared by means of log-rank test (or Wilcoxon log-rank test if number of events was small, in order to give greater weight to earlier events). For each univariate survival analysis, 10,000 permutation survival analyses were performed to ensure p-values were not optimized by overfitting. Only parameters with permutation p<0.05 were entered into the forward Cox proportional hazards model. Proportional hazards assumption was verified for the final models by means of Schoenfeld residuals study and -ln(-ln(survival)) curves. Because time to distant metastasis was not specified for EC5 and EC6, time to the first cancer event (local relapse, MR or death) was used. Sensitivity, specificity Receiver operating characteristic (ROC) analysis with MR within 5 years as a defining point was computed. Patients who did not have 5-year follow-up were excluded from ROC analysis. The area under the curve (AUC) was used as a measure of the signature performance in the test set. Time-dependent ROC curves were calculated for 38-GES , Nottingham prognostic index (NPI) and Adjuvant! ( HEAGERTY et al., Biometrics, 56, 337-44, 2000 ). Clinical Risk Classification The aim of this new validation study was to examine whether the 38-GES had prognostic value independent of the best clinical risk classifications (NPI and Adjuvant!) and could improve classification of subset of patients which remains at intermediate risk with this two clinical scores. Final study was thus focused onto these particular patients. In the first part of the study, it was decided to use for each of the compared parameters its optimal cut-off in order to not advantage 38-GES in multivariate analyses. Moreover, to avoid 38-GES adjusted hazard ratio (HR) to be significant by chance with an arbitrary cutoff, 38-GES HR was calculated adjusted on NPI and Adjuvant! over all their range. Once 38-GES prognostic value proved, in the second part of the study, it was decided to use pragmatic cutoffs. Nottingham prognostic values and classification NPI scores were calculated as follows: [0.2 x tumor size (cm)] + SBR grade (1, 2, or 3) + lymph node stage (1, 2, or 3). Tumor size was defined as the longest diameter of the tumor. Lymph node stage was 1 if lymph node negative, 2 if 1 to 3 nodes involved, and 3 if >3 nodes involved. NPI scores : <3.4 (good prognostic group: 80% 15-yr OS); scores of 3.4 to 5.4 (moderate prognostic group: 42% 15-year OS); scores >5.4 (poor prognostic group: 13% 15-year OS). Adjuvant! Online prognostic values and classification The Adjuvant! software (http://www.adjuvantonline.com) calculates 10-year survival probability based on the patient's age, tumor size and grade, ER and nodal status. Although it is possible to use the outcomes produced by Adjuvant! software as a continuous variable, clinical decision making assumes a dichotomization into a low- and a high-risk group. Clinicogenomic model establishment and classification Firstly, multivariate Cox regression analysis was used to determine if n-GES added independent prognostic information to NPI and Adjuvant!. To rule out the possibility that our results were dependent on the choice of clinical cutoff, we carried out a sensitivity analysis in which we varied the NPI raw score that defined low-risk, as predicted by NPI, from 3.5 (in which case most patients were classified in the high-risk group) to 7 (in which case most patients were classified in the low-risk group). For Adjuvant!, the same analysis as described above was done from 20% (in which case most patients were classified in the low-clinical risk group) to 80% (in which case most patients were classified in the high-clinical risk group). Secondly, we focused on patients with NPI and Adjuvant! intermediate-risk: score 2 and 10-year OS probabilities between 50% and 80%, respectively. For those patients, the therapeutic decision could be facilitated by an appropriate refining, for example to orientate 38-GES high-risk patients toward new clinical trials. Statistical analysis All analyses were performed with SAS 9.1 (SAS Institute Ins., Cary, NC), Stata 10.0 SE (Stata Corp., College Station, TX), R software (version 2.5.1) and BRB ArrayTools developed by Dr. R. Simon and A. Peng (Bethesda, MD; 2003) (http://linus.nci.nih.govBRB-ArrayTools.html). Statistical significance of each of the n-GES genes was assessed in each of the studied cohorts and subcohorts by univariate Cox model. RESULTS EXAMPLE 1: CONSTRUCTION OF A 38-GENE CLASSIFIER Establishment of the predictive gene expression signature Thirty eight genes were kept. These genes are listed in Table IV below. Control of false discovery rate (FDR) among the differentially expressed genes ( DUPUY and SIMON, J Natl Cancer Inst, 99, 147-157, 2007 ) was assessed in BRB-ArrayTools by 10,000 permutations: p were <0.008 and FDR was <18% for all genes but one (p=0.014, FDR=24%).\n TABLE-tabl0005 Table IV % model n=100 P-permutation n=10,000 Gene symbol MR sense Genbank # 99 <1.10-7 BTG2 - NM_006763 96 <1.10-7 UBE2C + BC032677 96 0.0001 VEGFA + NM_001025366 94 0.0041 SLC25A5 + R56229 93 0.0010 FABP5 + BG282526 89 0.0004 ENO1 + AL833741 86 0.0004 PSMB7 + R54562 81 0.0003 TUBB6 + NM_032525 81 0.0016 TACC3 + BC106071 80 0.0001 SURF4 + NM_033161 77 0.0007 RHOC + AK094474 76 0.0004 CHCHD2 + NM_016139 71 0.0011 SFRS5 - R28509 70 0.0004 TNFSF13 - NM_003808 70 0.0024 DDT + AI936198 67 0.0003 C1orf64 - AI732325 67 0.0040 RAB10 + AA074077 66 0.0011 XIST - H78857 65 0.0017 TUBA4A + AK054731 63 0.0041 PPA1 + BF694769 62 0.0011 C4B - NM_001002029 62 0.0018 TUBB2C + BX648521 62 0.0071 C3orf37 + T65434 60 0.0017 GATA3 - R16918 60 0.0039 PGK1 + H17787 59 0.0014 PPP1CA + NM_001008709 59 0.0022 BCL2A1 + N28416 58 0.0005 IL6ST - H04779 58 0.0017 PSMB3 + R00911 58 0.0020 RPN1 + NM_002950 57 0.0033 ETFB + R55473 56 0.0006 CYC1 + BF569085 56 0.0144 POR + CD014011 55 0.0016 TUBB3 + T57691 53 0.0060 TMED9 + NM_017510 52 0.0036 TOE1 + H29584 52 0.0045 C17orf37 + T84927 51 0.0073 PSMA5 + H48425 As shown in Table IV, 30 upregulated genes ( UBE2C, VEGFA, SLC25A5, FABP5, ENO1, PSMB7, TUBB6, TACC3, SURF4, RHOC, CHCHD2, DDT, RAB10, TUBA4A, PPA1, TUBB2C, C3orf37, PGK1, PPP1CA, BCL2A1, PSMB3, RPN1, ETFB, CYC1, POR, TUBB3, TMED9, TOE1, C17orf37, PSMA5 ) and 8 down-regulated genes ( BTG2, SFRS5, TNFSF13, C1orf64, XIST, C4B, GATA3, IL6ST) were identified. Molecular biology of the markers Several biological processes were identified by using Gene Ontology database (http://www.geneontology.org/). These processes are listed in Table V below.\n TABLE-tabl0006 Table V Gene symbol Biological process (Gene Ontology) BTG2 DNA repair, transcription, regulation of transcription DNA-dependent, negative regulation of cell proliferation UBE2C Ubiquitin proteasome system, cell cycle VEGFA Angiogenesis, regulation of progression, signal transduction SLC25A5 Transport, mitochondrial transport FABP5 Lipid metabolic process, transport ENO1 Glycolysis, transcription PSMB7 Ubiquitin proteasome system, cell cycle TUBB6 Microtubule-based process, microtubule-based movement, protein polymerization TACC3 Progression, response to stress, hemopoiesis SURF4 Unknown RHOC Glycolysis, signal transduction, regulation NF-kappaB cascade CHCHD2 Unknown SFRS5 mRNA splice site selection, mRNA processing, RNA splicing TNFSF13 Angiogenesis, cell proliferation, apoptosis, immune response DDT Melanin biosynthetic process from tyrosin C1orf64 Unknown RAB10 Regulation of transcription DNA-dependent, intracellular protein transport, nucleocytoplasmic transport, signal transduction, small GTPase mediated signal transduction XIST Unknown TUBA4A Microtubule-based process, microtubule-based movement, protein polymerization PPA1 Phosphate metabolic process C4B Inflammatory response, complement activation, innate immune response TUBB2C Cell motility, microtubule-based process, microtubule-based movement, natural killer cell mediated cytotoxicity, protein polymerization C3orf37 Unknown GATA3 Cell fate determination, transcription, regulation of transcription DNA-dependent, transcription from RNA polymerase II promoter, defense response PGK1 Glycolysis, phosphorylation PPP1CA Carbohydrate metabolic process, protein amino-acid dephosphorylation, cell cycle BCL2A1 Anti-apoptosis, regulation of apoptosis IL6ST Glycogen metabolic process, immune response, signal transduction, cell surface receptor linked signal transduction, positive regulation of cell proliferation PSMB3 Ubiquitin-dependent protein catabolic process RPN1 Protein amino-acid glycosylation ETFB Electron transport, transport CYC1 Electron transport, transport POR Electron transport TUBB3 Microtubule-based process, microtubule-based movement, mitosis, signal transduction, G-protein coupled receptor protein signaling pathway TMED9 Transport TOE1 Negative regulation of transcription from RNA polymerase II promoter C17orf37 Cell redox homeostasis, protein homooligomerization PSMA5 Ubiquitin-dependent protein catabolic process In order of representation, these were: transcription (6 genes), transport (6), ubiquitin-proteasome system (4), microtubule-based process (4), signal transduction (4), proliferation (3), cell cycle (3), glycolysis (3), immune response (3), electron transport (3), apoptosis (2), angiogenesis (2) and progression (2). Literature mining showed that the majority of these genes are biologically relevant since they represent functional categories that are reported to influence breast cancer evolution and sensitivity to chemotherapy. EXAMPLE 2: COMPARISON OF NOTTINGHAM PROGNOSTIC INDEX, ADJUVANT! ONLINE AND 38-GES CLASSIFICATION The 38-GES relapse score is calculated as defined below: Gi and Gj represent overexpressed and underexpressed gene-expression standardized values, respectively. Optimal cutoff determination for the raw value of 38-GES (A), NPI (B) and Adjuvant! (C) scores were defined as the value with minimal AIC in training cohort). The results are shown in Figure 2 . For 38-GES, optimal cutoff was 0.005. For NPI, 5.4 was found which is the \"official\" value defining high-risk group; this was not totally unexpected in a node-positive population. For Adjuvant!, 46% 10-year overall survival was found. The MFS, ROC curves and characteristics for 38-GES (A, B, C), Nottingham prognostic index (D, E, F) and Adjuvant! (G, H, I) scores in training cohort are shown in Figure 3 . Optimal MFS univariate HR (high-risk vs low-risk) for 38- GES, NPI and Adjuvant! were 4.86 (95% CI: 2.76-8.56; p<0.0001), 4.48 (95% CI: 2.62-7.66; p<0.0001), 4.16 (95% CI: 2.54-6.80; p<0.0001), respectively. ROC analysis for MR within 5 years, as a defining point, showed that 38-GES global predictive performance (AUC=0.779) was higher than NPI's one (AUC=0.757) and Adjuvant!'s one (AUC=0.751) with higher sensitivity. Time-dependent ROC curves confirmed that the global predictive performance of the 38-GES was better than that of NPI and Adjuvant!. AIC of the 3 classification schemes showed that the classification power of 38-GES (AIC=641.44) was better than the NPI's one (AIC=649.58), which itself was better than Adjuvant!'s one (AIC=653.79) to explain the MFS. The Univariate (original data set and permutation test: n=10,000) and multivariate (original data set) MFS analysis for 38-GES, NPI and Adjuvant! are shown in Table VI. MFS multivariate Cox regression analysis proved that 38-GES added very significant and independent prognostic information to NPI (adjusted HR=3.30, p<0.0001) and Adjuvant! (adjusted HR=3.40, p<0.0001).\n TABLE-tabl0007 Table VI Variable HR 95% Cl \nHR Univariate \np Univariate permutation \np \nN=10,000 Adjusted \nHR 95% Cl adjusted \nHR Multivariate \np Age (years) ≤ 35 vs > 35 1.35 0.54-3.35 0.5222 0.4601 Tumor size \n(> 20mm vs ≤ 20mm ) 1.87 1.07-3.25 0.0271 0.0143 N° positive nodes 4-9 vs 1-3 2.58 1.53-4.35 0.0004 >9 vs 1-3 3.86 1.74-8.54 0.0009 0.0001 SBR grade II vs I 5.93 1.42-24.70 0.0147 III vs I 12.63 3.02-52.88 0.0005 0.0001 ER (+ vs -) 0.39 0.24-0.66 0.0004 0.0007 Docetaxel ( yes vs no ) 0.85 0.51-1.41 0.5353 0.5327 Hormonotherapy ( yes vs no ) 0.47 0.29-0.77 0.0025 0.0004 NPI score ( 3 vs 1+2 ) 4.48 2.62-7.66 <0.0001 <0.0001 2.95 1.68-5.21 <0.0001 NPI 1, 2, 3 4.30 2.56-7.23 <0.0001 <0.0001 10-year OS Adjuvant! score 0.96 0.94-0.97 <0.0001 <0.0001 10-year OS Adjuvant! score \n( <46% vs ≥46% ) 4.16 2.55-6.80 <0.0001 <0.0001 2.61 1.54-4.41 <0.0001 10-year OS Adjuvant! score \n (< 60% vs 60-79% vs ≥ 80%) 2.67 1.62-4.42 0.0001 <0.0001 38-GES 2.45 1.90-3.16 <0.0001 <0.0001 38-GES (high-risk vs low-risk) 4.86 2.76-8.56 <0.0001 <0.0001 3.30 a 1.81-5.99 <0.0001 3.40 b 1.85-6.24 <0.0001 HR: hazard ratio; a: model with NPI; b: model with Adjuvant! Figure 4 shows the hazard ratios (and 95% CI) for 38-GES high-risk vs low-risk, adjusted for clinical risk groups based on NPI raw score with cutoff varying from 3.5 to 7 (A) and 10-year overall survival Adjuvant! score with cutoff varying from 20% to 80% (B). X-axis indicates the cutoff points which define high clinical risk for adjustment. 38-GES hazard ratio adjusted for NPI (A) and Adjuvant! (B) remained highly significant whatever the cutoff chosen. Squares, HR; vertical lines, 95%CI; shaded bars, proportion of patients in NPI low-risk or Adjuvant! high-risk group as defined by each cutoff. These results show that the 38-GES kept its independent prognostic value whatever the definition of NPI and Adjuvant! high-risk group was. Figure 5 shows the MFS according to 38-GES vs NPI (A) and Adjuvant! (B) classifications. These results show that 38-GES substratifies NPI and Adjuvant! intermediate-risk patients. The same successful stratification was obtained for NPI and Adjuvant! high-risk patients, as shown in Table VII below.\n TABLE-tabl0008 Table VII N 5-year MFS % (95% CI) Logrank p NPI=1 100 (-) 38-GES low-risk 13 38-GES high-risk 0 NPI=2 90.4 (84.1-94.3) 38-GES low-risk 93 96.7 (90.2-98.9) 38-GES high-risk 43 76.7 (61.1-86.8) <0.0001 NPI=3 64.9 (54.8-73.2) 38-GES low-risk 32 80.9 (62.4-90.9) 38-GES high-risk 71 57.7 (45.3-68.2) 0.021 10-year OS Adjuvant!≥80% 100 (-) 38-GES low-risk 21 38-GES high-risk 2 10-year OS Adjuvant! 60-79% 88.9 (80.3-93.9) 38-GES low-risk 64 93.7 (84.1-97.6) 38-GES high-risk 26 76.9 (55.7-88.9) 0.003 10-year OS Adjuvant! <60% 71.8 (63.5-78.5) 38-GES low-risk 53 90.3 (78.3-95.9) 38-GES high-risk 86 60.4 (49.3-69.8) 0.001 NPI 2 patients with 5- year MFS=90.4% could be separated in 2/3 with 5-year MFS=96.7% close to NPI 1 and 1/3 5-year MFS=76.7% close to NPI 3 (HR=6.97, p<0.0001). Similarly, Adjuvant! 60-79% 10-year OS patients with 5-year MFS=88.9% could be separated in 2/3 with 5-year MFS=93.7% close to Adjuvant! 3 80% 10-year OS group and 1/3 5-year MFS=76.9% close to Adjuvant! <60% 10-year OS group (HR=4.34, p<0.0001). EXAMPLE 3: EXTERNAL VALIDATION OF THE 38-GES As the 38 genes were not always present in the different test cohorts (n=25 to 38), it was necessary to make sure that the different 38-GES subscores were correlated enough and significantly with 38-GES complete score in the training cohort. All the n-GES subscores (n=25, 26, 31, 34) were highly correlated with 38-GES score, with Rho coefficients ranging from 0.973 to 0.989 with all p-values<0.00001. Subscores were then used for risk group determination in each individual test cohort. Each sub-score optimal cutoff was defined as the value with minimal AIC in training cohort. They were calculated as follows: with n=25, 26, 31, or 34 G i and G j represent overexpressed and underexpressed gene-expression standardized values, respectively. No weight was assigned to genes in order to limit overfitting. For n=25, 26, 31 and 34, p was 19, 20, 25, 27 and q was 6, 6, 6, 7 respectively. For n=25, 26, 31 and 34, n-GES optimal cutoff in TC was -0.264, -0.245, 0.065, 0.065, respectively. Figure 6 represents the MFS, ROC curves and characteristics in pooled (A,B,C) and separate node-positive VCs: VC1 (D,E,F), VC2 (G,H,I) and VC3 (J,K,L). These results show that 38-GES significantly predicted MFS in pooled node-positive VC (HR=2.95, 95% CI: 1.74-5.01, p<0.0001) with good sensitivity (0.84) and good global predictive performance (AUC=0.73). Figure 7 represents the Forest-plot diagram of 38-GES MFS hazard ratios (HR) and 95% confidence intervals in high-risk vs low-risk groups for VCs and ECs: unadjusted HR (A,B,C) and ER adjusted HR (D,E,F). In F, as ER status was unknown in EC5, global EC5+EC6 adjusted HR (2.77) was estimated as the mean of extreme hypothesis for ER status in EC5 (all patients ER- / all patients).Even when ER adjusted, 38-GES kept strong predictive value in pooled VC (HR=2.63, 95% CI: 1.50-4.62, p<0.0001) and separate VCs. Figure 8 represents MFS, ROC curves and characteristics in pooled node-negative ECs (EC1 to EC4) (A,B,C) and pooled node mixed ECs (EC5, EC6) (D,E,F). These results show that 38-GES significantly predicted time to distant metastasis in pooled node-negative exploratory cohort (ER adjusted HR=2.11, 95% CI: 1.53-2.92, p<0.0001) and time to disease event (local relapse, metastasis and death) in mixed node cohorts (ER adjusted HR=2.77, 95% CI: 1.93-3.97, p<0.0001). Table VIII below shows the classification of the 38-GES genes based on number of significant Cox univariate analysis p values in the different studied breast cancer cohorts.\n TABLE-tabl0009 Table VIII n° of cohorts with significant expression gene TC VC1 VC2 VC3 EC1 EC2 EC3 EC4 EC5 EC6 7 UBE2C 0.00005 0.00113 ns ns1 0.00024 ns 0.01962 0.00066 0.00051 0.00025 6 TACC3 0.00127 0.02032 ns ns 0.00033 ns ns2 0.03920 0.00100 0.00018 5 IL6ST 0.00034 0.01533 ns ns2 0.03427 ns ns 0.00812 0.00076 ns 5 TUBB2C 0.00096 ns1 md ns 0.00929 md 0.04814 ns 0.00003 0.00101 5 TUBB3 0.00146 ns md ns ns md 0.04956 0.03492 < 0.00001 0.00083 5 PGK1 0.00322 0.00048 md ns 0.00006 md ns ns 0.00005 0.02565 5 PPP1CA 0.00109 0.00349 ns ns 0.01239 ns ns ns 0.00471 0.00024 5 SLC25A5 0.00191 ns1 0.01349 ns 0.02281 ns1 ns ns 0.00039 0.00382 4 BTG2 0.00001 0.00543 ns1 ns1, 2 0.00020 ns1 ns1 0.01687 ns ns 4 C4B 0.00061 ns1 ns 0.01467 ns1 ns ns ns 0.00401 0.02725 4 VEGFA 0.00020 ns1, 2 0.01384 ns 0.00294 ns1 ns ns ns2 0.04090 4 SFRS5 0.00077 ns1 ns ns2 0.01678 ns ns 0.03148 0.02179 ns 4 ENO1 0.00008 0.01194 md ns 0.01341 md ns ns 0.02788 ns 4 GATA3 0.00060 ns1 0.02185 ns 0.02143 ns1 ns ns 0.01549 ns 4 TMED9 0.00415 0.00025 ns ns ns1 ns ns 0.00002 ns 0.00192 4 POR 0.01509 ns1 ns ns 0.00959 ns ns ns 0.00001 0.03871 3 PSMB3 0.00177 ns1, 2 ns ns ns1 ns ns ns 0.03941 0.00096 3 CYC1 0.00091 0.00148 ns ns ns1, 2 ns2 ns2 ns 0.00105 ns2 3 XIST 0.00027 md md ns2 md md ns ns 0.00913 0.00941 3 C17orf37 0.00272 md md md md md md md 0.03881 0.00073 2 FABP5 0.00058 ns ns1, 2 ns ns ns1 ns 0.01527 ns2 ns 2 PSMB7 0.00059 ns1, 2 ns ns ns1 ns 0.04657 ns ns ns 2 TUBA4A 0.00153 ns ns1, 2 ns ns ns1 ns ns 0.01089 ns 2 DDT 0.00124 0.04183 ns ns ns1 ns ns ns ns2 ns2 2 CHCHD2 0.00035 md md ns md md ns ns 0.00016 ns2 2 RAB10 0.00218 ns2 ns md ns ns md md 0.00065 ns 2 RPN1 0.00161 ns md ns ns md ns ns ns2 0.00856 2 ETFB 0.00175 ns 0.01651 ns ns ns1 ns ns ns ns2 2 SURF4 0.00018 md md md md md md md 0.00051 ns 2 TNFSF13 0.00013 ns ns ns ns ns ns 0.00979 ns ns 2 PPA1 0.00204 ns ns ns ns ns ns ns ns 0.00778 2 BCL2A1 0.00215 ns ns ns ns ns ns ns 0.01237 ns 2 PSMA5 0.00673 ns ns ns ns ns ns ns ns 0.00589 1 C1orf64 0.00087 md md md md md md md ns ns2 1 TUBB6 0.00028 md md ns md md ns ns ns2 ns 1 C3orf37 0.00291 ns ns ns ns ns ns ns ns2 ns 1 TOE1 0.00296 md md ns md md ns ns ns ns 1 RHOC 0.00047 ns ns ns ns ns ns ns ns ns N° of genes with: P < 0.05 38 10 4 1 13 0 4 9 22 17 P < 0.10 38 14 6 5 14 1 6 9 28 22 TC: training cohort; VC: validation cohort 1 to 3; EC: exploratory cohort 1 to 6; ns: non significant (P > 0.05); md: missing data; 1: P < 0.05 in VCi∪ECi: i = 1, 2 or 3; 2: 0.05 < P < 0.10 A large majority (86%) of the 38 genes showed a significant p-value in at least one external subcohort or cohort (table VIII). Genes reaching or exceeding 50% of significance in the 10 groups are: UBE2C, TACC3, IL6ST, TUBB2C, TUBB3, PGK1, PPP1CA and SLC25A5. These results confirmed that the vast majority of the genes retained in our 38-GES are biologically relevant and linked to breast cancer. CONCLUSION: The above study shows that the 38-GES:\n 1) had predictive value in node-positive patients treated by chemotherapy independently of known prognostic parameters such as age, SBR grade, tumoral size, ER or number of positive nodes (alone or combined into NPI and Adjuvant!); 2) could improve classification of NPI and Adjuvant!, especially for intermediate-risk patients; 3) confirmed its performance in node-positive independent cohort; 4) had also prognostic value in node-negative patients. Without being bound by theory, it is proposed that the information contained in our 38-GES relates to a common molecular background, in node-positive and node-negative patients, linked to bad outcome prediction, and that this 38-GES is dominated by bad prognosis-associated genes which are also predictive of general chemotherapy sensitivity.","lang":"en","source":"EPO_FULLTEXT","data_format":"ORIGINAL"}},"description_lang":["en"],"has_description":true,"has_docdb":true,"has_inpadoc":true,"has_full_text":true,"biblio_lang":"en"},"jurisdiction":"EP","collections":[],"usersTags":[],"lensId":"018-480-559-490-143","publicationKey":"EP_2163649_A1","displayKey":"EP 2163649 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PATENT OFFICE","inventorModel":{"inventors":[{"name":{"value":"JEZEQUEL PASCAL","valueNormalised":"Jezequel Pascal"},"inventorship":null},{"name":{"value":"CAMPION LOIC","valueNormalised":"Campion Loic"},"inventorship":null},{"name":{"value":"MINVIELLE STEPHANE","valueNormalised":"Minvielle Stephane"},"inventorship":null}],"inventorships":[],"unmatchedInventorships":[],"activeUserHasInventorship":false},"simpleFamilyId":213950968,"citesPatentCount":0,"countrySpec":{"countryName":"EUROPEAN PATENT OFFICE","description":"APPLICATION PUBLISHED WITH Search Report","rule":"","docType":"PATENT_APPLICATION"},"pageTitle":"EP 2163649 A1 - Molecular classifier for evaluating the risk of metastasic relapse in breast cancer","documentTitle":"Molecular classifier for evaluating the risk of metastasic relapse in breast cancer"},"claims":{"source":"xml_claims","claims":[{"lines":["A method for evaluating the risk of metastatic relapse in a breast cancer patient, wherein said method comprises measuring the level of expression of each of the following genes: BTG2, UBE2C, VEGFA, SLC25A5, FABP5, ENO1, PSMB7, TUBB6, TACC3, SURF4, RHOC, CHCHD2, SFRS5, TNFSF13, DDT, C1orf64, RAB10, XIST, TUBA4A, PPA1, C4B, TUBB2C, C3orf37, GATA3, PGK1, PPP1CA, BCL2A1, IL6ST, PSMB3, RPNI, ETFB, CYC1, POR, TUBB3, TMED9, TOE1, C17orf37, PSMA, in a sample of breast tumoral tissue obtained from said patient."],"number":1,"annotation":false,"claim":true,"title":false},{"lines":["The method of claim 1, wherein the level of expression of said genes is measured by determination of their level of transcription, using a DNA array."],"number":2,"annotation":false,"claim":true,"title":false},{"lines":["The method of claim 1, wherein the level of expression of said genes is measured by determination of their level of transcription, using quantitative RT-PCR."],"number":3,"annotation":false,"claim":true,"title":false},{"lines":["The method of any of claims 1 to 3, wherein a risk score (Pi) for a given patient is calculated according to the following equation: Pi = 1 30 Σ i = 1 30 Gi - 1 8 Σ j = 1 8 Gj wherein Gi represents overexpressed gene standardized expression value and Gj represents underexpressed gene standardized expression value, and wherein overexpressed genes are UBE2C, VEGFA, SLC25A5, FABP5, ENO1, PSMB7, TUBB6, TACC3, SURF4, RHOC, CHCHD2, DDT, PAB10, TUBA4A, PPA1, TUBB2C, C3orf37, PGK1, PPP1CA, BCL2A1, PSMB3, RPN1, ETFB, CYC1, POR, TUBB3, TMED9, TOE1, C17orf37, PSMA5, and underexpressed genes are BTG2, SFRS5, TNFSF13, C1orf64, XIST, C4B, GATA3, IL6ST."],"number":4,"annotation":false,"claim":true,"title":false},{"lines":["A kit for evaluating the probability of metastatic relapse in a breast cancer patient, characterized in that it comprises a combination of reagents for measuring the level of expression of each of the 38 genes listed in claim 1."],"number":5,"annotation":false,"claim":true,"title":false},{"lines":["A kit of claim 5, characterized in that it contains a DNA array comprising for each of the 38 genes listed in claim 1, at least one nucleic acid probe specific of said gene."],"number":6,"annotation":false,"claim":true,"title":false},{"lines":["A kit of claim 5, characterized in that it is a PCR kit, containing, for each of the 38 genes listed in claim 1, at least one pair of PCR primers specific of said gene."],"number":7,"annotation":false,"claim":true,"title":false}]}},"filters":{"npl":[],"notNpl":[],"applicant":[],"notApplicant":[],"inventor":[],"notInventor":[],"owner":[],"notOwner":[],"tags":[],"dates":[],"types":[],"notTypes":[],"j":[],"notJ":[],"fj":[],"notFj":[],"classIpcr":[],"notClassIpcr":[],"classNat":[],"notClassNat":[],"classCpc":[],"notClassCpc":[],"so":[],"notSo":[],"sat":[]},"sequenceFilters":{"s":"SEQIDNO","d":"ASCENDING","p":0,"n":10,"sp":[],"si":[],"len":[],"t":[],"loc":[]}}