Embryonic Stem Cell Lines Obtained From C3h/hen And Dba/1j Mouse Strains

*US5985659A*  
(12)United States Utility Patent(10)Patent No: US 5,985,659 A
  Kusakabe et al.(45)Date of Patent:Nov. 16, 1999

(54) Embryonic stem cell lines obtained from C3H/HeN and DBA/1J mouse strains  
(75)Inventors: Moriaki Kusakabe, Ibaragi ( JP ); and Toshio Kamon, Tokyo ( JP )
(73) Assignee: The Institute of Physical and Chemical Research, Saitama (Japan) 
Type: FOREIGN
( * )Notice: Subject to any disclaimer, the term of this patent is extended or adjusted under 35 U.S.C. 154(b) by 0 days. 
(21)Appl. No.: 08/859,290 
(22)Filed: May 20, 1997 
(30) Foreign Application Priority Data
 May 21, 1996(JP)8-125533
(51)Int. Cl.6C12N 5/00; C12N 5/06 
(52)U.S. Cl.435/354; 435/325 
(58)Field of Search 435/325; 435/354; 424/582 

        
(56)References Cited
 
 U.S. PATENT DOCUMENTS
 
 OTHER PUBLICATIONS
Kawase et al., Int. J. Dev. Biol. 38:385-390, 1994.
Ledermann et al., Exp. Cell Res., 197:254-258, 1991.
Lee et al. Cancer Research, 51:3257-3260.
H. Suemori et al., "Establishment of the Embryo-derived Stem (ES) Cell Lines from Mouse Blastocysts: Effects of the Feeder Cell Layer", Develop. Growth and Differ., vol. 29, No. 2, pp. 133-139 (1987).
M. Roach et al., "A New Embryonic Stem Cell Line from DBA/1 lacJ Mice Allows Genetic Modification in a Murine Model of Human Inflammation", Experimental Cell Research, vol. 221, pp. 520-525 (1995).
E. Kawase et al., "Strain Difference in Establishment of Mouse Embryonic Stem (ES) Cell Lines", Int. J. Dev. Biol., vol. 38, pp. 385-390 (1994).
N. Noben-Trauth et al., "Efficient Targeting of The IL-4 Gene in a BALB/c Embryonic Strem Cell Line", Transgenic Research, vol. 5, pp. 487-491 (1996).
H. Kitani et al., "Isolation of a Germline-Transmissible Embryonic Stem (ES) Cell Line from C3H/He Mice", Zoological Science, vol. 13, pp. 865-871 (1996).
 
(74)Primary Examiner — Brian R. Stanton
 Assistant Examiner — Janet M. Kerr
 Attorney, Agent, or Firm — Wenderoth, Lind & Ponack, L.L.P.
 Exemplary claim number — 1
 Art Unit — 163

(57)

Abstract

[00001]  Embryonic stem cells derived from an inbred mouse strain selected from the group consisting of C3H/HeN, C57BL/6N, DBA/1J, and BALB/c strains, for example, C-2 cell having the accession number FERM BP-5933 and C-6 cell having the accession number FERM BP-5934 are disclosed. The embryonic stem cells of the present invention are derived from genetically complete inbred strains, and therefore, they are extremely useful for close genetic research.
3 Claims, Drawing Sheets, and Figures

BACKGROUND OF THE INVENTION

   [00002]  1. Field of the Invention
   [00003]  The present invention relates to novel embryonic stem cells derived from mice.
   [00004]  2. Related Art
   [00005]  Embryonic stem cells, sometimes referred to as ES cells, are derived from inner cell mass (ICM) of fertilized eggs in blastocyst phase, and can be cultured and maintained in vitro while being kept in undifferentiated state. Embryonic stem cells are extremely useful biological materials for preparing transgenic animals. For example, a gene knockout mouse in which a specific gene is inactivated can be produced by replacing an active gene in an embryonic stem cell chromosome with an inactivated gene by means of a homologous recombination system.
   [00006]  Embryonic stem cells derived from mice, hamsters, and pigs were previously reported. However, processes for establishing embryonic stem cells have not been sufficiently developed, and the sorts of embryonic stem cells are undesirably limited compared to the numbers of mouse strains that have been developed for wide variety of numerous purposes. Currently, researchers most widely use the cells derived from mouse strain 129/Sv as embryonic stem cells. However, the mice of 129/Sv are not always sufficiently bred, and accordingly, if a gene knockout mouse is established, the mouse must be disadvantageously made into a hybrid by crossbreeding with other strains. There is also a problem that the origin of embryonic stem cells established from the strain 129/Sv cannot be completely specified from a genetic viewpoint, since various kinds of substrains are involved in the strain.
   [00007]  Function of a certain gene is generally influenced by other genetic backgrounds in a whole-body level. Accordingly, for close comparative researches by means of gene knockout mice, it is indeed ideal to establish embryonic stem cells from an inbred mouse strain, whose basic data has sufficiently been accumulated, and compare the influence of the knockout of a gene of interest with results obtained from original strain. For these reasons, it has been desired to establish novel embryonic stem cells from inbred mouse strains. However, this class of embryonic stem cells has not been reported yet. As embryonic stem cells derived from mouse strains, embryonic undifferentiated cells disclosed in Japanese Patent Unexamined Publication (KOKAI) No. (Hei) 5-328878/1993 and the like are known. However, these cells are characterized as embryonic stem cells derived from F1 hybrid, and are not those established from inbred strains.
   [00008]  Accordingly, an object of the present invention is to provide novel embryonic stem cells. More specifically, the object of the present invention is to provide embryonic stem cell established from inbred mouse strains.

SUMMARY OF THE INVENTION

   [00009]  The inventors of the present invention conducted various researches to achieve the foregoing object, and as a result, they succeeded in establishing novel embryonic stem cells from inbred mouse strains such as C3H/HeN.
   [00010]  The present invention thus provide embryonic stem cells derived from mouse strains (C3H/HeN, C57BL6N, DBA/1J, and BALB/c.

DETAILED EXPLANATION OF THE INVENTION

   [00011]  Explanation of the Preferred Embodiments
   [00012]  The embryonic stem cell of the present invention were established from mouse inbred strains of C3H/HeN, C57BL/6N, DBA/1J, and BALB/c. Among these inbred strains. C3H/HeN, C57BL/6N, and DBA/1J are genetically complete inbred strains. As for BALB/c strain, some substrains, e.g., BALB/cA and BALB/cCr, are known, however, the substrains are genetically very close to each other. These mouse strains are widely and conventionally used and can easily be obtained.
   [00013]  For example, the embryonic stem cells of the present invention can be established as follows: Male and female mice of the above strains are allowed to natural mating, and on the next day, the female mice having a vaginal plug are assigned as day zero (0) of pregnancy. Blastocysts are removed from uteri of the female mice of day three (3) of pregnancy and then cultured. After hatching, the cells are transferred on feeder cells and cultivation is continued for 2 or 3 days. The feeder cells can be prepared, for example, by treating fibroblasts of 14th-day embryos of mouse BALB/cA strain with Mitomycin C. Trophectoderm adhered onto the surface of culture dish and spread. An inner cell mass (ICM) became rising on the sheet of trophectoderm. This rising cell mass is mechanically exfoliated by fine scalpel and dissociated into a single cell in approximately 0.25% trypsin droplets. The small cell masses are transferred on the feeder cells in a 24-well plate as the primary culture. The successive treatments include the following steps: The culture medium is changed every day from the next day, and individual colonies are separately picked up after 2 to 5 days and made into single cell masses with trypsin treatments. These dissociated cells are then placed again on the feeder cells. This procedure is repeated up to tenth subculture to allow the establishment of embryonic stem cells.

EXAMPLES

   [00014]  The present invention will be explained more specifically by referring to the examples. However, the scope of the present invention is not limited to these examples.
   [00015]  (1) Collection of Ovum
   [00016]  Male and female mice of respective C3H/HeN, C57BL/6N, or DBA/1J strains were allowed to natural breed, and uteri of the mice on the 3rd pregnant day were removed and washed with M2 buffer. As for BALB/c, F1 embryos between substrains that were formed by crossbreeding of BALB/cA and BALB3/cCr strains were used. Embryos were washed out from the uteri with M2 buffer using a syringe equipped with a perfusion needle (30 gage). The blastocysts with zona pellucida were washed twice with M2, and then cultured in ESM medium in an incubator under 5% CO.sub.2 at 37° C. for 30 hours until the embryos hatched [a droplet of the ESM medium having a diameter of 5 mm was formed and overlaid with mineral oil (Sigma), and then preliminarily incubated in an incubator under 5% CO.sub.2 at 37° C.]. The hatched blastocysts were transferred on feeder cells, which had been obtained from 14th-day embryos of BALB/cA mouse and treated with Mitomycin C (10 μg/ml in DMEM), and then cultured in ESM medium. Risings of ICM were observed in the hatched embryos after two or three days.
   [00017]  (2) Isolation and Unbinding of ICM
   [00018]  The rising ICMs were picked up by suction using a 50 μl micropipette containing a small volume of phosphate buffered saline not containing Ca.sup.2+ and Mg.sup.2+ ions or "PBS (-)" sucked beforehand and twice washed with PBS(-), and then transferred into a droplet of a 0.25% trypsin solution and incubated at room temperature for 1 to 1.5 minutes. Before the cell mass was unbound, a small volume of ESM was added into the trypsin droplet using a micropippete to inactivate trypsin. The cell mass was divided into appropriately small pieces in separate EMS droplets, and each of the masses was transferred on feeder cells treated with Mitomycin C (10 μg/ml in DMEM). The resulted mass was assigned to the primary culture, and the culture medium was changed every day from the next day. For the second and later subcultures, cell masses were completely unbound to obtain individual cells in ESM after the treatment of trypsin for 40 to 60 seconds, and the cells were transferred on the feeder cells in a similar manner.
   [00019]  (a) ESM culture medium: 400 ml of DMEM (0.012 g of potassium penicillin G; 0.02 g of streptomycin sulfate; 0.6 g of sodium bicarbonate; and 4 g of DMEM were dissolved in water in a final volume of 400 ml); 2 ml of NEAA (non-essential amino acid, ×100); 4 ml of nucleoside stock solution (3 mM adenosine; 3 mM guanosine; 3 mM uridine; 3 mM cytidine; and 1 mM thymidine); 0.4 ml of 2-mercaptoethanol stock solution (5 ml of DMEM and 35 μl of 2-mercaptoethanol); 50 μl of LIF (leukemia inhibiting factor); 1.85 g of glucose; and 100 ml of FCS were mixed.
   [00020]  (b) 0.25% trypsin solution: trypsin (0.25 g); EDTA.2Na (0.037 g); and 1× phosphate buffered saline (-) (100 ml).
   [00021]  (c) M2 buffer: 15.0 ml of stock solution A (11.068 g of NaCl; 0.712 g of KCl; 0.324 g of KH.sub.2 PO.sub.4 ; 0.586 g of MgSO.sub.4.7H.sub.2 O; 8.698 ml of sodium lactate (60% syrup); 2.000 g of glucose; 0.120 g of potassium penicillin G; and 0.100 g of streptomycin sulfate in 200 ml); 2.4 ml of stock solution B (1.051 g of NaHCO.sub.3 and 0.005 g of phenol red in 50 ml); 1.5 ml of stock solution C (0.036 g of sodium pyruvate in 10 ml); 1.5 ml of stock solution D (1.260 g of CaCl.sub.2.2H.sub.2 O in 50 ml); 12.6 ml of stock solution E (5.958 g of HEPES and 0.010 g of phenol red in 100 ml; adjusted to pH 7.4 with NaOH): and 600 mg of BSA were mixed and adjusted to 150 ml with distilled water.
   [00022]  (3) Selection of Embryonic Stem Cells
   [00023]  After 2 to 5-day cultivation, cell populations of various shapes were observed. Among them, flat colonies formed by morphologically uniform small cells were picked up as embryonic stem cell populations, and the colonies were treated with trypsin for 40 to 60 seconds and then subcultured on feeder cells freshly prepared as described in the above section (2). Subcultures were repeated up to tenth subculture to establish embryonic stem cells of the present invention. The cells were deposited on May 17, 1996 at the National Institute of Bioscience and Human-Technology Agency of Industrial Science and Technology (1-3, Higasi-1-chome, Tsukuba-shi, Ibaraki-ken 305 Japan) and the original depositions were transferred to the International Depositary Authority under Budapest treaty identified above on May 1, 1997 . TABLE 1 ______________________________________ Embryonic stem cell Mouse strain Accession number ______________________________________ C-6 C3H/HeN FERM BP-5934 C-2 C3H/HeN FERM BP-5933 Cr/A-3 BALB/c FERM BP-5932 DB1 DBA/1J FERM BP-5931 B6-26 C57BL/6N FERM BP-5935 ______________________________________
   [00024]  All of these embryonic stem cells were positive in alkaline phosphatase activity staining. In addition, among these embryonic stem cells, C-6, C-2, Cr/A-3, and DB1 were evaluated as for the ability of differentiation into germ cells by producing chimera mice according to the injection method or the aggregation method. The results are shown below. TABLE 2 __________________________________________________________________________ Recipient Originate Originate from Ratio of ES cell- Chimera embryo Mating Number % from stem recipient Total ES origin line.sup.1) mouse strain strain litter cell.sup.2) embryo.sup.2) number.sup.2) (%) __________________________________________________________________________ C-6.sup.3) C-6-1 BALB/cA BALB/cA 3 27 0 27 100 C-6.sup.3) C-6-2 BALB/cA BALB/cA 7 16 37 53 30 C-6.sup.3) C-6-3 BALB/cA BALB/cA 9 16 44 60 27 C-6.sup.3) C-6-4 BALB/cA BALB/cA 6 6 36 42 14 C-6.sup.3) C-6-6 BALB/cA BALB/cA 6 48 0 48 100 C-6.sup.3) CY-1 BALB/cA BALB/cA 4 30 0 30 100 C-2.sup.4) B1 C57BL/6N C57BL/6N 2 14 0 14 100 C-2.sup.4) B12 C57BL/6N C57BL/6N 2 11 6 17 65 C-2.sup.4) B13 C57BL/6N C57BL/6N 1 2 2 4 50 Cr-A-3.sup.3) CY-2 C3H/HeN BALB/cA 5 4 41 45 9 Cr-A-3.sup.3) CY-3 C3H/HeN BALB/cA 2 0 15 15 0 DB1.sup.3) DB1-1 C57BL/6J DBA/1J 2 11.sup.5) 0 11 100 __________________________________________________________________________ .sup.1) Embryonic stem cells of the present invention: C6 and C2 were derived from C3H/HeN, CrA/3 was derived from BALB/c DB1 was derived from DBA/1J .sup.2) Number of mice .sup.3) Aggregation method .sup.4) Injection method .sup.5) Identified by PCR for CSA genotyping TABLE 2 __________________________________________________________________________ Recipient Originate Originate from Ratio of ES cell- Chimera embryo Mating Number % from stem Recipient Total ES origin line.sup.1) mouse strain strain litter cells.sup.2) embryo.sup.2) number.sup.2) (%) __________________________________________________________________________ C-6.sup.3) C-6-1 BALB/cA BALB/cA 3 27 0 27 100 C-6.sup.3) C-6-2 BALB/cA BALB/cA 7 16 37 53 30 C-6.sup.3) C-6-3 BALB/cA BALB/cA 9 16 44 60 27 C-6.sup.3) C-6-4 BALB/cA BALB/cA 6 6 36 42 14 C-6.sup.3) C-6-6 BALB/cA BALB/cA 6 48 0 48 100 C-6.sup.3) CY-1 BALB/cA BALB/cA 4 30 0 30 100 C-2.sup.4) B1 C57BL/6N C57BL/6N 2 14 0 14 100 C-2.sup.4) B12 C57BL/6N C57BL/6N 2 11 6 17 65 C-2.sup.4) B13 C57BL/6N C57BL/6N 1 2 2 4 50 Cr-A-3.sup.3) CY-2 C3H/HeN BALB/cA 5 4 41 45 9 Cr-A-3.sup.3) CY-3 C3H/HeN BALB/cA 2 0 15 15 0 DB1.sup.3) DB1-1 C57BL/6J DBA/1J 2 11.sup.5) 0 11 100 __________________________________________________________________________ .sup.1) Embryonic stem cells of the present invention: C6 and C2 were derived from C3H/HeN, CrA/3 was derived from BALB/c DB1 was derived from DBA/1J .sup.2) Number of mice .sup.3) Aggregation method .sup.4) Injection method .sup.5) Identified by PCR for CSA genotyping
   [00025]  The embryonic stem cells of the present invention are derived from genetically pure inbred strains, and therefore, extremely useful for close genetic research. For example, they are useful for the production of knockout mice and analyses of cell genealogical tree, as well as research on the mechanism of embryonic stem cell establishment. In particular, as for the embryonic stem cells derived from DBA/1J and C3H strains and the like, a chimera mouse can be prepared using a non-treated embryonic stem cell, e.g., not introduced with a gene marker, and the behavior of the cells in the tissue of the chimera mouse, that are derived from the embryonic stem cells, can be analyzed at tissue level using the monoclonal antibodies described in the U.S. Pat. No. 5,552,287.
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What is claimed is:

1. A mouse embryonic stem cell line, designated C-2, having all of the identifying characteristics of Accession Number FERM BP-5933.
2. A mouse embryonic stem cell line, designated C-6, having all of the identifying characteristics of Accession Number FERM BP-5934.
3. A mouse embryonic stem cell line, designated DB1, having all of the identifying characteristics of Accession Number FERM BP-5931.
*****

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