WO2003054170A1 - Compositions for the in vitro derivation and culture of embryonic stem (es) cell lines with germline transmission capability and for the culture of adult stem cells - Google Patents
Compositions for the in vitro derivation and culture of embryonic stem (es) cell lines with germline transmission capability and for the culture of adult stem cells Download PDFInfo
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- WO2003054170A1 WO2003054170A1 PCT/BE2002/000196 BE0200196W WO03054170A1 WO 2003054170 A1 WO2003054170 A1 WO 2003054170A1 BE 0200196 W BE0200196 W BE 0200196W WO 03054170 A1 WO03054170 A1 WO 03054170A1
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- A01K67/0275—Genetically modified vertebrates, e.g. transgenic
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- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/435—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
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- C07K14/5415—Leukaemia inhibitory factor [LIF]
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- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
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Definitions
- the present invention relates to novel compositions and their use for the derivation, maintenance and growth of pluripotent and germline competent embryonic stem (ES) cells.
- the invention also relates to the ES cells produced 0 using the composition and to use of these ES cell lines for germline transmission and for the generation of genetically modified non-human animals.
- the present invention further relates to novel compositions and their use for the derivation, maintenance and growth of adult stem cells (ASC).
- ASC adult stem cells
- ES cell lines are cell lines isolated from the inner cell mass (ICM) of blastocyst-stage embryos, which under specific conditions can be maintained in culture for many passages, i.e. replating of cells onto new cell culture dishes at regular time intervals, without loss of their pluripotency. They maintain a normal karyotype and when reintroduced into a host blastocyst they can colonize the germline.
- Such cell lines may provide an abundance of pluripotent cells that can be transformed in vitro with DNA (see below), and selected for recombination (homologous or non-homologous) of exogenous DNA into chromosomal DNA, allowing stable incorporation of the desired gene.
- germline transmission i.e. the transmission of the ES genome to the next generation, has however only been achieved with ES cells of certain mouse strains.
- Murine embryonic stem cells were first isolated in 1981. Since then, several ES cell lines have been established and they are now widely and successfully used for the introduction of targeted mutations or other genetic alterations into the mouse genome. Most of the germline-competent mouse ES cell lines that are in current use have been obtained in the 129 strain, and the remainder in a few other inbred strains (C57BL/6 and crosses with C57BL/6). Furthermore, ES cell lines are at best obtained in 30% of explanted blastocysts, even in the 129 strain, and success rates of around 10% appear to be closer to the norm.
- ES cells are 'sandwiched' between early stage embryos devoid of their zona pellucida, cultured overnight and implanted into a foster mother. This technique can be performed under conditions yielding either chimeric or totally ES cell-derived offspring.
- Presumptive pluripotential ES cells have been isolated from a number of other species than mice, including hamster, pig, sheep, cattle, mink, rat, primate, human, chicken, marmoset, medakafish and man. In only a few instances (pig, chicken, medakafish), have these cell lines given rise to chimeras when reintroduced into blastocysts, but thus far none have given rise to germline transmission.
- ES cells are maintained in an undifferentiated state by the presence of feeder layers producing various factor(s) that prevent the cells from differentiating. It has been shown that several cytokines are responsible for this effect: DIA/LIF (differentiation inhibitory activity/leukaemia inhibiting factor), interleukin-6 in combination with soluble interleukin-6 receptor, interleukin-11 , oncostatin M, ciliary neurotrophic factor and cardiotrophin. It is now possible to establish and maintain ES cells in culture in the absence of feeder cells but in the presence of such factors, at least for several passages. In species other than the mouse, ES cell technology is still under development and there are no published data reporting germ line transmission in any species other than mouse.
- DIA/LIF differentiation inhibitory activity/leukaemia inhibiting factor
- Recombinant Leukemia Inhibitory Factor is presently routinely added to the culture medium used for the isolation of embryonic stem (ES) cells from mammalian embryos in vitro.
- This method is claimed in US 5,166,065, EP 0380646 and WO9001541 , based on a priority document AU1988 PI09644 dated August 4, 1988 (51-53).
- Recombinant murine or human LIF protein was purified and cDNA cloned on the basis of its ability to induce differentiation of the murine monocytic cell line M1 in mature macrophages with consequent reduced clonogenicity.
- the (recombinant) protein and cDNA's are claimed in a.o. US 5,187,077 (and several continuations in part to up to US 6,261 ,548 issued 17 July 2001) and EP 285448, based on a priority document of AU1987 PI1209 dated April 2, 1987.
- the Factor D cDNA was subsequently shown to be identical to that of LIF (Lowe DG, Nunes W, Bombara M, McCabe S, Ranges GE, Henzel W, Tomida M, Yamamoto-Yamaguchi Y, Hozumi M, Goeddel DV. Genomic cloning and heterologous expression of human differentiation-stimulating factor. DNA 1989; 8: 351-9).
- LIF Lowe DG, Nunes W, Bombara M, McCabe S, Ranges GE, Henzel W, Tomida M, Yamamoto-Yamaguchi Y, Hozumi M, Goeddel DV. Genomic cloning and heterologous expression of human differentiation-stimulating factor. DNA 1989; 8: 351-9).
- LIF Lowe DG, Nunes W, Bombara M, McCabe S, Ranges GE, Henzel W, Tomida M, Yamamoto-Yamaguchi Y, Hozumi M, Goedde
- DIA differentiation inhibiting activity
- Transgenic animals can be generated either by injection of DNA into the pronucleus of zygotes, by introduction of (genetically manipulated) pluripotent embryonic stem (ES) cells into host "embryos", and more recently by nuclear transfer with stably transfected somatic donor cells into enucleated oocytes.
- ES pluripotent embryonic stem
- the difficulties in maintaining the undifferentiated phenotype of cultivated stem cells is not limited to embryonic stem cells. Also adult stem cells of different lineages tend to loose their capacity to differentiate in different cell types. The maintenance of the stem cell phenotype is especially challenging for hematopoietic stem cells.
- a hematopoietic stem cell (abbreviated as HSC) is a cell isolated from peripheral blood, umbilical cord blood or bone marrow that can renew itself, can differentiate to a variety of specialized cells.
- the bone marrow HSC can mobilize out of the bone marrow.
- HSC can undergo programmed cell death, called apoptosis - a process by which cells that are detrimental or unneeded self-destruct.
- About 1 in every 10,000 to 15,000 bone marrow cells is thought to be a stem cell. In the blood stream the proportion falls to 1 in 100,000 blood cells.
- transplantation of hematopoietic progenitor/stem cells from bone marrow and mobilized peripheral blood is a procedure of unquestioned clinical utility and a standard of care in a number of malignancies, benign and dysplastic hematologic disorders and inherited diseases (Dupont B. (1997) in Immunology Reviews, Vol. 157, 5-12.)
- Hematopoietic transplants are especially successful in treatments involving high dose chemotherapy or radiation aiming to destroy existing diseased blood cells or tumors, thereby limiting the blood, stroma and immune patients' ability to regenerate cells of the blood and immune system.
- the donated stem cells are infused into a patient's vein and if the transplant is successful, the donated hematopoietic stem cells will grow in number and restore the recipient's marrow and its blood-forming function.
- placenta blood also known as umbilical cord blood (UCB) contains high numbers of HSC, a comparable frequency of myeloid and erythroid progenitors to adult bone marrow, a higher proportion of immature colony-forming cells, a dec7reased risk of transmission of infection and higher percentage of telomerase, promises to circumvent many of the problems (Mayani H, Lansdorp P. in (1998) Stem Cells. 16, 153-165).
- the success of the first transplant performed in 1988 in a Fanconi's anemia patient (Gluckman E. et al (1989) in N. Engl. J. Med., 321 : 1174-8) has proven that human UCB is a feasible alternative source of HSCs and prompted the development of large worldwide Cord Blood banking programs (Sirchia G. and Rebulla P. (1999) in
- HSCs stem cells can be stimulated to expand without losing their stem cell properties, thus increasing the dose of transplantable cells derived from a single donor to a transplant patient.
- Expansion of HSCs has proven problematic and scientists face major roadblocks in expanding their use beyond the replacement of blood and immune system.
- HSCs are unable to proliferate (replicate themselves) and differentiate (become specialized to other cell types) in vitro (Lagasse E., Weissman IL., (2001) in Immunity, 14, 425-436.).
- Secondly scientists do not have yet an accurate idea of the identity of a true stem cell.
- the present invention is directed to novel and superior compositions for deriving, maintaining and growing pluripotent and germline competent mammalian embryonic stem cells and the use of these compositions.
- the composition for deriving, maintaining and growing pluripotent and germline competent human or non-human mammalian embryonic stem cells comprising a conditioned medium from certain cells and wherein the composition contains less than 2 ng/ml of leukemia inhibitory factor (LIF) as assayed by an immunoassay, e.g. an ELISA using antibodies which cross-react with rabbit and human LIF such as the mouse monoclonal antibody clone 9824.11 raised against human LIF.
- LIF leukemia inhibitory factor
- the concentration of LIF is less than 1 ng/ml, more preferably less than 0,5 ng/ml, still more preferably less than 0,2 ng/ml, still more preferably less than 0,1 ng/ml, still more preferably less than 0,05 ng/ml and most preferably the concentration of LIF is less than 0,02 ng/ml LIF as determined with said assay.
- the composition can include a basic cell culture medium such as, but not limited to, a medium comprising high glucose DMEM with further optional addition of one or more of the compounds selected from non-essential amino acids, glutamine, a reducing agent and fetal, newborn or adult serum such as fetal bovine serum.
- the cells used for conditioning the medium are cells such as immortal fibroblast cell line such as the rabbit fibroblast cell line Rab9 (ATTC CRL-1414).
- the composition for deriving, maintaining and growing pluripotent and germline competent human or non- human mammalian embryonic stem cells is a composition comprising a conditioned medium from certain cells transfected with a nucleotide sequence encoding LIF.
- Said nucleotide sequence encodes for mammalian LIF and preferably encodes for rabbit LIF.
- Said nucleotide sequence can be a cDNA sequence but is preferably a genomic sequence of the mammalian LIF.
- the transfected cell line is preferably stably transfected with the LIF encoding nucleotide sequence.
- the cells used for transfecting a nucleotide sequence encoding for LIF can be any mammalian cell but is preferably a fibroblast cell, more preferably a rabbit fibroblast cell line and most preferably the rabbit Rab9 (ATCC CRL 1414).
- the transfected cells used in this invention are rabbit Rab9 fibroblast cells which are stably transfected with a genomic sequence encoding for rabbit LIF.
- Such a cell line has been deposited with the Belgian Coordinated Collection of Microorganisms, Belgium under accession number LMBP 5479CB.
- the composition can include a basic cell culture medium such as, but not limited to, a medium comprising high glucose DMEM with further optional addition of one or more of the compounds selected from non-essential amino acids, glutamine, a reducing agent and newborn or adult serum and a fetal serum other than bovine fetal serum such fetal horse serum, fetal goat serum, fetal sheep serum.
- a basic cell culture medium such as, but not limited to, a medium comprising high glucose DMEM with further optional addition of one or more of the compounds selected from non-essential amino acids, glutamine, a reducing agent and newborn or adult serum and a fetal serum other than bovine fetal serum such fetal horse serum, fetal goat serum, fetal sheep serum.
- the composition for deriving, maintaining and growing pluripotent and germ-line competent human or non- human mammalian embryonic stem cells is a composition comprising a conditioned medium from certain cells and wherein the composition is supplemented with rabbit LIF, a protein with at least 95% similarity to rabbit LIF or a functional derivative thereof.
- Said protein may be expressed in a yeast suitable for protein expression such as the methylotrophic yeast Pichia pastoris and wherein the nucleotide sequence encoding for said protein is optionally adapted in order to obtain an optimized sequence for use in the yeast expression system.
- the rabbit LIF disclosed in this invention is produced by the
- Pichia pastoris strain which has been deposited at the Belgian Coordinated Collection of Microorganism, Belgium under accession number MUCL-49925.
- the composition can include a basic cell culture medium such as, but not limited to, a medium comprising high glucose DMEM with further optional addition of one of the compounds selected from non-essential amino acids, glutamine, a reducing agent and fetal, newborn or adult serum such as fetal bovine serum.
- a basic cell culture medium such as, but not limited to, a medium comprising high glucose DMEM with further optional addition of one of the compounds selected from non-essential amino acids, glutamine, a reducing agent and fetal, newborn or adult serum such as fetal bovine serum.
- the present invention discloses the use of these compositions for the generation of multipotent or pluripotent embryonic stem cells of non human mammals such as but not limited to mouse and more specifically to Mus musculus strains selected from the group 129/SvEv, C57BL/6N, C57BL/6J- HPRT, BALB/cAnN, CBA/CaOla, 129/SvJ, DBA/2N, DBA/1 Ola, C3H/HeN, C57BL/6JOIa, FVB/ DBAILacJ, CD1 , BALB/c, MRL, C57BL/6 x CBA and Swiss Webster genetic background.
- non human mammals such as but not limited to mouse and more specifically to Mus musculus strains selected from the group 129/SvEv, C57BL/6N, C57BL/6J- HPRT, BALB/cAnN, CBA/CaOla, 129/SvJ, DBA/2N, DBA/1 Ola, C3H/HeN, C
- the present invention relates further to multipotent or pluripotent embryonic stem cells of human or non human mammals such as but not limited to mouse and more specifically to mus musculus strains selected from the group of 129/SvEv, C57BL/6N, C57BL/6J-HPRT, BALB/cAnN, CBA/CaOla, 129/SvJ, DBA/2N, DBA/1Ola, C3H/HeN, C57BL/6JOIa, FVB/N, DBAI LacJ, CD1 , BALB/c, MRL, C57BL/6 x CBA, and Swiss Webster genetic background which are obtained by culturing them for at least one passage in the compositions of the present invention.
- mus musculus strains selected from the group of 129/SvEv, C57BL/6N, C57BL/6J-HPRT, BALB/cAnN, CBA/CaOla, 129/SvJ, DBA/2N, DBA/1Ola,
- the present invention relates further to transgenic non human mammals such as but not limited to mouse and more specifically to mus musculus strains selected from the group of 129/SvEv, C57BL/6N, C57BL/6J-HPRT, BALB/cAnN, CBA/CaOla, 129/SvJ, DBA 2N, DBA/1 Ola, C3H/HeN,
- Swiss Webster genetic background which are obtained by culturing the embryonic stem cells used for the generation of said animals for at least one passage in the compositions of the present invention.
- the present invention relates further to methods for producing the compositions, embryonic stem cells and transgenic animals disclosed in this invention.
- the present invention discloses the use of media conditioned by rabbit cell lines for the generation of embryonic cells and transgenic animals and is applicable to other non human mammals such as non-human primates, pigs, sheep, cows, mink, horses, goats, sheep, cats, dogs rabbits, rats, hamsters and rodents other than the mouse Mus musculus.
- the present invention further discloses methods to obtain embryonic stem cell lines for 30 or more percent of explanted blastocysts.
- the present invention also discloses methods to obtain adult progeny via aggregation cells with embryonic stem cells that have been cultivated for at least 16 passages.
- the present invention is particularly directed to novel compositions for deriving, maintaining and growing pluripotent and germ-line competent mammalian embryonic stem cells.
- the compositions include a basic cell culture medium such as, but not limited to, a medium comprising high glucose DMEM, non-essential amino acids, glutamine, a reducing agent and fetal bovine serum, or equivalents thereof, which are preconditioned by a stable cell line such as, but not limited to, the rabbit cell line Rab9 (ATCC CRL-1414) or equivalents thereof, which secrete essential elements for growth and self renewal of ES cells. It has been found that this conditioned media with low amounts and even in the absence of LIF supports self-renewal of ES cells and allows ES cell derivation.
- a basic cell culture medium such as, but not limited to, a medium comprising high glucose DMEM, non-essential amino acids, glutamine, a reducing agent and fetal bovine serum, or equivalents thereof, which are preconditioned by a stable cell line such as,
- LIF Leukemia Inhibitory Factor
- Rab-LIF rabbit LIF
- Antibiotics such as penicillin/streptomycin, and insulin, may also be included in the composition.
- the present invention is also directed to a novel rabbit LIF (Rab-LIF) that maintains ES cells undifferentiated in vitro culture and to nucleotides encoding the Rab-LIF.
- Rab-LIF rabbit LIF
- Other ingredients may optionally be included in the ES medium, such as interleukins, oncostatins, neurotrophic factors, stem cell factors and fibroblast growth factors. Specific examples of these factors are human
- Interleukin 11 human oncostatin M, human ciliary neurotrophic factor, cardiotrophin, Interleukin 6 with its specific receptor and human stem cell factor.
- the invention further relates to the use of these ES cell lines for germline transmission and for the generation of genetically modified non-human animals.
- the invention further relates to the use of the novel compositions of the present invention for the isolation, maintenance and expansion of primordial germ cells.
- the invention also relates to compositions for the stroma free expansion of mammalian adult stem cells or early progenitor cells.
- Examples hereof are hematopoietic stem cells and the adult early hematopoietic progenitor cells
- the compositions for cultivating ASC comprise conditioned medium of a fibroblast cell line.
- the fibroblast cell lines is preferably an immortalised cell line, more preferably a rabbit, immortalised fibroblast cell and most preferably the Rab9 (ATCC CRL1414) cell line.
- the compositions for cultivating ASC preferably comprises no added cytokines and/or LIF.
- the invention also relates to the use of the compositions for expanding ASC or early progenitors cells, such as HSC.
- HSC are for example CD34+ cells which have been isolated from as source such as umbilical cord, placental blood, peripheral blood and bone marrow.
- the total amount of cells are expanded by at least 25 fold.
- the amount of CD34+ cells is expanded by at least 3 fold.
- the expanded cells are cultivated for at least 15 days.
- the number of expanded cells which respond positively in an LTC IC assay is increased by at least 15.
- the invention further relates to a method for expanding mammalian adult stem cells or early progenitor cells comprising the steps of isolating a source of mammalian adult stem cells or early progenitor cells and cultivating the cells under stroma free conditions in a composition according to the present invention for cultivation ASC.
- This method can be applied to hematopoietic stem hematopoietic precursor cells. This method can be performed until an expansion of the ASC by at least 25 fold is obtained. This method can be performed until the amount of nucleated cells is expanded by at least 10 fold.
- This method can be performed until the amount of CD34+ cells have been expanded by at least 3 fold This method can be performed for at least 15 days This method can be performed until the number of expanded cells which respond positively in an LTC IC assay is increased by at least 15 fold. This method can be performed in order to obtain expanded HSC cells which can repopulate a sublethal irradiated NOD/SCID (Non Obese Diabetic/ Severe Combined Immunodeficient) mouse.
- NOD/SCID Non Obese Diabetic/ Severe Combined Immunodeficient
- the present invention also relates to the use of media conditioned by a stable cell line for the expansion of hematopoietic stem cells from bone marrow, fetal blood umbilical cord blood and peripheral blood.
- the compositions include a basic cell culture medium such as, but not limited to, a medium comprising high glucose DMEM, non-essential amino acids, glutamine, a reducing agent and fetal bovine serum, or equivalents thereof, which are preconditioned by a stable cell line such as, but not limited to, the rabbit cell line Rab9 (ATCC CRL- 1414) or equivalents thereof, which secrete essential elements for growth and self renewal of hematopoietic stem cells.
- a basic cell culture medium such as, but not limited to, a medium comprising high glucose DMEM, non-essential amino acids, glutamine, a reducing agent and fetal bovine serum, or equivalents thereof, which are preconditioned by a stable cell line such as, but not limited to, the rabbit cell line Rab9 (ATCC CRL-
- Figure 1 shows the nucleotide sequence [SEQ. ID.: NO 1] of rabbit LIF (Rab-LIF) cDNA along with the peptide sequence thereof [SEQ. ID.: NO 2].
- Figure 2 shows the nucleotide [SEQ. ID.: NO 3] and amino acid [SEQ. ID.: NO 4] sequence of rabbit LIF cDNA optimized for expression in Pichia pastoris.
- Figure 3 shows the initial outgrowth (passage 0) of attached blastocysts from C57BL6/N mouse, when cultured in A) enriched basic medium with added murine LIF (1 ,000 lU/ml); B) enriched basic medium with added Rab-LIF (10-20 ng/ml); C) basic medium conditioned on Rab9 fibroblast cells; D) basic medium conditioned on the Rab9 #19 fibroblast cell line; E) enriched basic medium.
- Figure 4 shows the morphology of ES cell colonies after 1 passage in A) enriched basic medium with added murine LIF (1 ,000 lU/ml); B) enriched basic medium with added Rab-LIF C) basic medium conditioned on Rab9 fibroblast cells; D) basic medium conditioned on the Rab9 #19 fibroblast cell line; E) enriched basic medium.
- Figure 5 shows the growth of expanded nucleated cells (depicted as expansion factor of the original population) of HUC derived CD34+ cells in different media, legend: full line with square: medium conditioned with Rab9#19 cells; full line with triangles: medium conditioned with Rab9 cells; full line with circle: basic ES medium; dotted line with circle: basic ES medium with added cytokines.
- Figure 6 Expansion of CD 34+ positive cells (depicted as expansion factor of the original CD34+ positive cells) in cultures of HUC derived CD34positive cells in different media, legend: full line with squares: medium conditioned with Rab9#19 cells; full line with triangles: medium conditioned with Rab9 cells.
- Figure 7 Expansion of LTC-IC positive cells (depicted as expansion factor of the original LTC-IC positive cells) in cultures of HUC derived CD34 positive cells in different media, legend: full line with squares: medium conditioned with Rab9#19 cells; full line with triangles: medium conditioned with Rab9 cells.
- Embryonic stem (abbreviated ES) cells in the present invention are cell lines isolated from the inner cell mass (ICM) of blastocyst-stage embryos or derived from the primordial germ cells from a post-implantation embryo (primordial or embryonal germ cells). ES cells can be maintained under specific conditions in culture for many passages without loss of their pluripotency. Pluripotent or multipotent in the present invention means that stem cells can give rise to different types of cells and tissue including cells and tissues supporting the pregnancy but are unable to give rise to cells of the germ line
- Germ line competent, totipotent or omnipotent in the present invention means that stem cells can give rise to all types of cells and tissue including cells of the germ line (sperm cells and egg cells)
- Leukemia Inhibitory Factor refers to a mammalian protein, originally cloned and sequenced by Gearing et al. (1987) EMBO J. 6, 3995- 4002 which enables the derivation, growth and maintenance of undifferentiated embryonic stem cells derived from the inner cell mass of blastocysts. It refers also to splice variants of LIF and to variants of LIF wherein one or more amino acids are mutated, inserted or deleted with the restriction that the variant LIF is at least 95% identical to wild type LIF and that it enables the derivation, growth and maintenance of undifferentiated embryonic stem cells derived from the inner cell mass of blastocysts.
- Functional protein fragment of LIF as used herein refers to a LIF protein with N or C terminal deletions, which still enable the derivation, growth and maintenance of undifferentiated embryonic stem cells derived from the inner cell mass of blastocysts.
- cytokines and/or LIF in the present invention in the context of ASC means that the composition wherein cells are maintained or expanded, is not enriched with additional cytokines or LIF.
- Addition or enrichment means supplementation to the composition of cytokines or LIF as a protein. It also means the supplementation of these compounds via the transient or stable transfection of cells which are used for the conditioning of the medium.
- adult stem cells as used herein relates to multipotent adult stem cells isolated from a mammal, such as rodents (e.g. mouse and rat) and primates, especially humans.
- Adult stem cells or derived from a non-embryonic organ or tissue have the capacity to be induced to differentiate to form at least one differentiated cell type of mesodermal, ectodermal and endodermal origin.
- the organ or tissue from which the adult stem cells are isolated are for example, but not limited to, bone marrow, umbilical cord blood or placenta.
- the different types of cells that can be obtained from adult stem cells are depending, from the type of adult stem cell, for example osteoblasts, chondrocytes, adipocytes, fibroblasts, marrow stroma, skeletal muscle, smooth muscle, cardiac muscle, ocular, endothelial, epithelial, hepatic, pancreatic, hematopoietic, glial, neuronal or oligodendrocytes.
- adult early progenitor cells in the present invention refers to committed cells which have lost one or a few of the markers of the stem cell they originate from, but are still able to differentiate in a number of cell lineages, but less than the stem cell they are derived from.
- hematopoietic stem cell (abbreviated as HSC) is a cell isolated from peripheral blood, umbilical cord blood or bone marrow that can renew itself, can differentiate to a variety of specialized cells. HSCs can repopulate the erythroid, neutrophil-macrophage, megakaryocyte and lymphoid hemopoietic cell pool. HSC express CD34 , c-kit and thyl , but do not express CD38.
- the P. pastoris X33 (RbL) expressing rabbit LIF was deposited with accession number MUCL42925) on July 5, 2000, by Thromb-X (Leopoldstraat 1 , 3000 Leuven, Belgium) in the Belgian Coordinated Collections of Microorganisms (BCCM) Mycotheque de I'Universite Catholique de Louvain (MUCL) PlaceCroix du Sud, B 1348 Louvain la Neuve, Belgium.
- BCCM Belgian Coordinated Collections of Microorganisms
- MUCL Mycotheque de I'Universite Catholique de Louvain
- PlaceCroix du Sud B 1348 Louvain la Neuve, Belgium.
- the rabbit fibroblast cell line expressing rabbit LIF was deposited with accession number LMBP 5479CB) on April 07, 2000 by Thromb- X (Leopoldstraat 1 , 3000 Leuven, Belgium) in the Belgian Coordinated Collections of Microorganisms (BCCM) Laboratorium voor Mole Diagram Biologie- Plasmidencollectie (LMBP) Universiteit Gent, K.L.Ledeganckstraat 35, 9000 Gent, Belgium.
- the present invention relates to the use of the disclosed compositions for the derivation, maintenance and growth of pluripotent and germline-competent mammalian embryonic stem (ES) cell lines, as exemplified in mouse strains. These improved culture conditions can be used to generate stable murine ES cells from many different genetic backgrounds, with superior potential for germline transmission.
- This technology is also applicable to other non human mammalian species (rabbits, pigs, cattle, etc.) and can form the basis for targeted transgenesis with gain-of-function or loss-of-function in non-murine species.
- compositions consist of a basic cell culture medium, which is preconditioned by a stable cell line, that secretes essential elements for growth and self-renewal of ES cells.
- a basic cell culture medium which is preconditioned by a stable cell line, that secretes essential elements for growth and self-renewal of ES cells.
- Leukemia Inhibitory Factor can optionally be added, e.g. in low amounts.
- the basic cell culture medium is high glucose
- LIF Dulbecco's modified Eagle's medium DMEM, with non-essential amino acids, glutamine, beta-mercaptoethanol and fetal bovine serum, and the stable cell line is a rabbit fibroblast-like cell line Rab9 (ATCC CRL-1414).
- the optional addition of LIF preferably consists of the newly disclosed rabbit LIF (Rab-LIF) which helps maintain ES cells undifferentiated in in vitro culture, and which is obtained by expression of an optimized cDNA sequence in Pichia pastoris.
- LIF secreted by cells into the medium can be determined via a quantitative immunoassay such as linked immuno sorbent assay (ELISA), a radio immunoassay (RIA), an immuno radio metric assay (IRMA), a fluorescent immunoassay (FIA), a chemiluminescent immuno assay (CLIA) or an electro chemiluminescent immuno assay (ECL) using antibodies against LIF.
- ELISA linked immuno sorbent assay
- RIA radio immunoassay
- IRMA immuno radio metric assay
- FIA fluorescent immunoassay
- CLIA electro chemiluminescent immuno assay
- ECL electro chemiluminescent immuno assay
- an ELISA using a monoclonal antibody with reactivity against rabbit LIF such as the mouse monoclonal antibody Clone 9824.11 raised against human LIF
- An example of such an assay is the Quantikine Human LIF immunoassay (Cat No DLFOO, R&D Systems Minneapolis, M
- compositions of the invention may have a varying amount of additional constituents provided that their amount is sufficient to maintain ES cells undifferentiated for prolonged periods in culture
- the composition of the invention comprises conditioned medium of the fibroblast-like cell line in a medium selected but not limited to Phosphate Buffered Saline (PBS), Dulbecco's Modified Eagle Medium (DMEM), Iscove's Modified, Dulbecco's medium, McCoy 5A medium, Minimal Essential Media Eagle (MEM), RPMI 1640, Medium 199, MCDB Medium, RPMI, Glasgow minimum Essential Media Eagle (GMEM), DMEM/F-12 Media, Hams F-10
- PBS Phosphate Buffered Saline
- DMEM Dulbecco's Modified Eagle Medium
- Iscove's Modified Dulbecco's medium
- McCoy 5A medium Minimal Essential Media Eagle (MEM)
- MEM Minimal Essential Media Eagle
- RPMI 1640 Medium 199, MCDB
- BME Basal Medium Eagle
- Brimster's BMOC-3 Medium William's Media E and McCoy's Media or adaptations thereof.
- a reducing agent such as beta-mercapto ethanol or dithiothreitol.
- the medium is supplemented with adult, newborn or fetal serum.
- the serum can be adult or newborn mammalian serum or non bovine fetal serum such as horse, goat and sheep fetal serum.
- a preferred example of a composition of the invention comprises per liter conditioned medium of the fibroblast-like cell line, an added volume of 50 to 120, preferably 80 ml of fetal bovine serum, 10 to 25, preferably 17 ml non- essential amino acids, 2 to 8, preferably 5 ⁇ l ⁇ -mercaptoethanol, 0.5 to 2.5, preferably 1.25 ml insulin, and 80 to 130 ml basal ES cell medium.
- the basal ES cell medium consists of 400 to 600, preferably 500 ml DMEM high glucose, 0 to 15, preferably 13 ml penicillin/streptomycin, 10 to 15, preferably 13 ml non essential amino acids, 10 to 15, preferably 13 ml glutamine, 5 to 10, preferably 6.3 ⁇ l ⁇ -mercaptoethanol, 50 to 100, preferably 70 ml fetal bovine serum, neutral pH of preferably 7.4.
- the invention further relates to processes to derive and to culture mammalian ES stem cells to obtain pluripotent and germline-competent ES cells, wherein the culturing of the mammalian ES stem cells is at least partially performed in a composition according to the invention and described above.
- a process comprises the steps of: a) culturing cells of blastocyst stage embryos; b) culturing isolated inner mass cells; and c) passaging the inner mass cells periodically in a composition of the invention.
- the inner mass cells are periodically passaged for at least 8 times.
- the process may further comprise the step of producing transgenic animals.
- the invention relates to embryonic stem (ES) cell lines with germline transmission capability.
- the cell line is preferably a murine cell line, but other animal cell lines are also possible.
- the cell line can be derived from cells or tissues of
- 129/SvEV C57BL/6N, C57BL/6J-HPRT, BALB/cAnN, CBA/CaOla, 129/SvJ,
- the murine cell lines preferably have a germline transmission capability after 11 or more passages.
- the embryonic stem (ES) cell lines of the invention are characterized by three dimensional colony formation, positive staining for alkaline phosphatase and negative staining for cytokeratin 18 and vimentin after more than 10 passages.
- ES cell lines may be used in the generation of chimeric or ES cell derived animals, in the gene alteration by homologous or non-homologous recombination, in the generation of animals with gene alteration via germline transmission, for the generation of chimeric animals, for the generation of chimeric animals following blastocyst injection into recipient blastocysts or diploid or tetraploid embryo aggregation, or nuclear transfer, for the study or isolation of (novel) genes or for the expression or overexpression of genes.
- compositions of the present invention show superior characteristics in maintaining the phenotype of embryonic stem cells of different mice strains.
- the present invention also shows that the properties of these novel compositions also apply to stem cells other than embryonic stem cell.
- the present invention thus, relates to the use of the disclosed compositions for the maintenance and growth of adult stem cells and early progenitor cells, as exemplified with HUC derived CD34+ cells.
- cultures of adult stem cells or adult early progenitors cells are maintained and expanded in the compositions of the present invention under stroma free conditions, this is in the absence of a direct contact with feeder cells or in the absence of an indirect contact with feeder cells (non contact cultures).
- the compositions for the expansion of ASC according to the present invention are conditioned by fibroblast cells, preferably immortalized fibroblast cells, and more preferably rabbit immortalized fibroblast cells such as the Rab9 cell line (ATCC CRL-1414).
- compositions are superior over basal ES media for the proliferation and maintenance of adult stem cells or early progenitor cells such as HSC or hematopoietic precursor cells.
- the compositions can comprise additional LIF (added protein, or LIF produced by transfected cells used for conditioning the medium).
- LIF added protein, or LIF produced by transfected cells used for conditioning the medium.
- the compositions for adults stem cells have no added LIF.
- the absence of LIF has does have an influence on the proliferation capacity of ASC capacity.
- the presence of LIF is known to stimulate the differentiation of cells such HSC into the myeloid lineage. The absence of LIF has a thus a positive effect on maintaining the undifferentiated properties of at least HSC or early hematopoietic progenitor cells.
- compositions for the cultivation of ASC have not been enriched, that is have no added cytokines or growth factors.
- Cytokines or growth factors which are typically added to media for cultivating for example HSC or hematopoietic precursor cells are for example Flt3 ligand, IL-6 (Interleukin), soluble IL-6 receptor, Tpo
- thrombopoetin thrombopoetin
- SCF stem cell factor
- lnterleukin-7 Interleulin 8
- G-CSF granulocyte colony-stimulating factor
- MIP-1a macrophage-inflammatory protein-1a
- MCP monocyte-chemoattractant protein-1)
- VEGF vascular endothelial cell growth factor.
- cytokines such as mentioned above, can be omitted for the proliferation and maintenance of adult stem cells or early progenitor cells such as HSC or hematopoietic precursor cells.
- the composition for cultivating ASC such as HSC is performed in a composition to which neither LIF, neither cytokines are added.
- compositions of the present invention are used for maintaining the phenotype of adult stem cells and adult early progenitors cells.
- the invention describes the applicability of maintaining for a prolonged period the stem cell properties of HUC (human umbilical cord) derived hematopoietic stem cells.
- Adult stem cells and/or early progenitor cells such as HSC or early hematopoietic precursor cells can, according to the present invention be passaged after isolation for at least 15 days in culture, preferably at least 30 days in culture, more preferably for at least 60 days in culture, even more preferably for at least 90 days in culture and even more preferably for at least
- Adult stem cells and/or early progenitor cells such as HSC or early hematopoietic precursor cells can, according to the present invention be expanded by at least 10 fold, preferably by at least 25 fold, more preferably by at least 40 fold, even more preferably by at least 100 fold, and most preferably by at least 1000 fold.
- the amount of CD34+ adult stem cells and/or early progenitor cells such as HSC or early hematopoietic precursor cells can, according to the present invention be expanded by at least 5 fold, preferably by at least 10 fold, more preferably by at least 50 fold, even more preferably by at least 250 fold, and most preferably by at least 1000 fold.
- the potential of expanded adult stem cells and/or early progenitor cells such as HSC or early hematopoietic precursor cells can, according to the present invention be expanded by at least 5 fold, preferably by at least 15 fold, more preferably by at least 50 fold, even more preferably by at least 250 fold, and most preferably by at least 1000 fold as assayed by an assay such as the LTC IC assay wherein the capacity to expand into myeloid progenitors is evaluated.
- the expanded ASC such as HSC can after cultivation for at least 15 days, preferably at least 28 days, and more preferably for at least 60 days and most preferably for at least 90 days, engraft sublethal irradiated NOD/SCID mice
- the HSC cells which are cultivated according to the present invention are can be serially passaded to secondary NOD/SCID mice.
- EXAMPLE 1 Production of recombinant Rabbit Leukemia Inhibitory Factor
- the above-referenced method and ES cell medium can optionally include LIF, preferably recombinant Rab-LIF, to help maintain ES cells undifferentiated and capacity to produce germline transmission.
- LIF preferably recombinant Rab-LIF
- the nucleotide sequence of Rab-LIF is provided along with the peptide sequence thereof.
- Rab-LIF may be prepared by a number of methods, typically by one of the many molecular biological tools, i.e., expression systems, available to biologists.
- DNA molecules encoding Rab-LIF protein may be operably linked to DNA molecules encoding a transcription promoter and terminator to create an expression cassette.
- the DNA molecule containing the promoter, terminator and Rab-LIF-encoding DNA may then be introduced into a cell for production of the Rab-LIF protein.
- a DNA encoding a secretion signal is operably linked to the Rab-LIF-encoding DNA in such a manner that active Rab-LIF is secreted from the cell.
- the promoter may be constitutive, inducible or tissue-specific, the choice of which typically depends upon the cells in which it is desired to produce the Rab-LIF protein, and under which conditions.
- recombinant Rab-LIF is produced in Pichia pastoris and is operably linked with the yeast alpha factor secretion signal, and the alcohol oxidase 1 (AOX1) promoter.
- the Rab-LIF-encoding DNA may be operably linked to appropriate promoters, enhancers or terminators (collectively, "control sequences”) for expression in prokaryotic cells or higher eukaryotic cells such as mammalian cells and insect cells.
- Rab-LIF Recombinant Rab-LIF was produced using the methylotrophic yeast Pichia pastoris expression system from Invitrogen (Carlsbad, CA).
- the Rab-LIF gene was isolated from a rabbit genomic library Lambda DASH II (Stratagene, # 945950) and the cDNA encoding the mature Rab-LIF protein was assembled by spliced overlap extension polymerase chain reaction (SOE-PCR) using standard procedures.
- SOE-PCR spliced overlap extension polymerase chain reaction
- the nucleotide sequence of this Rab-LIF optimized cDNA is shown in figure 2.
- the primer in the PCR reaction was designed to allow precise in frame fusion of the mature Rab-LIF sequence with the alpha factor secretion signal in the pPICZ ⁇ vector (Invitrogen). This allows the isolation of the recombinant protein from transformed Pichia pastoris culture supernatant.
- This primer introduced also an extra alanine codon (underlined in the sequence above) in front of the mature Rab-LIF coding sequence to facilitate the Kex2 processing of the alpha factor secretion signal.
- the LY-RLIF-PD primer contained a Notl site.
- the product was purified, digested with Xhol and Notl, and cloned in the corresponding sites of the vector pPICZ ⁇ , yielding pPICZ ⁇ -RLIF100.
- expression of the Rab-LIF is directed by the strong alcohol oxidase I (AOX1) promoter.
- the vector pPICZ ⁇ -RLIF100 Prior to transformation in P. pastoris, the vector pPICZ ⁇ -RLIF100 was linearized by digestion with BstX1, cutting in the 5' AOX1 untranslated sequence, to allow stable integration of the expression module in the AOX1 chromosomal locus. All the yeast manipulation was further performed as recommended by the supplier.
- the P. pastoris transformant X33 (RbL) was finally selected as Rab-LIF yeast expression strain and deposited in the Belgian Coordinated Collections of Microorganisms with accession number MUCL42925) It should be noted that the expression cassette described above is stably integrated in the chromosome.
- the X33 (RbL) strain was deposited in the BCCM Collection on July 5, 2000.
- the optimized nucleotide sequence for expression in Pichia forms a part of the present invention.
- the nucleotide sequence was determined according to the standard method of Sanger et al.
- the Rab-LIF nucleic acid sequence of the mature protein was manually compared to the human LIF sequence (Gough et al. 1988, accession M63420 & J05436 and mouse LIF sequence (Gearing et al. 1987, accession M63419 & J05435.) A homology of 90% was found between the nucleic acid sequence of human and rabbit LIF. A homology of 77% was found between the nucleic acid sequence of mouse and rabbit LIF. The corresponding homologies of the optimized cDNA for expression in Pichia pastoris were 61% with murine and
- EXAMPLE 2 Production of ES cell culture medium preconditioned with Rab9
- basic ES cell medium conditioned by confluent monolayer cultures of the Rab9 fibroblast cells, is collected for 4 consecutive days and the conditioned media are pooled for use in ES cell culture. Each day 15 cm Petri dishes are refreshed with 25 ml of basic ES medium. After 4 days each 15 cm Petri dish is split at a ratio of 1 to 4. The first day after splitting, the medium is discarded.
- fetal bovine serum To 1 liter of conditioned basic ES medium (from the mixture of the 4 collection days), 80ml fetal bovine serum, 17ml non-essential amino acids, 20ml glutamine, 6.3 ⁇ l ⁇ -mercaptoethanol, 1.25 ml insulin and 80ml basal medium is added and the pH is adjusted to 7.4.
- the basic medium was composed of: 500 ml DMEM high glucose, 70 ml fetal bovine serum, 13ml penicillin/streptomycin, 13ml glutamine, 6.3 ⁇ l ⁇ -mercaptoethanol, and 13ml non-essential amino acids.
- Enriched basic medium is basic medium to which another 4% (v:v) fetal bovine serum is added.
- the production of conditioned basic ES medium can be scaled up using standard procedures such as roller bottles, cell factories or bioreactors.
- EXAMPLE 3 Derivation and culture of murine embryonic stem (ES) cells
- ES cells can be derived amongst others from the following commercially available mouse strains: 129/SvEvTaconic (Taconic, Germantown, NY, USA);
- ES cells can be derived from 3.5-4.5 days old blastocyst stage murine embryos, which can be collected and plated individually on a 96 well dish covered with a mitotically arrested mouse embryonic fibroblast feeder monolayer. The blastocysts are allowed to attach to the monolayer, and refed every day with conditioned ES cell medium of the present invention (see
- Example 2 with basic ES medium with or without addition of murine LIF or
- Rab-LIF or with ES cell medium conditioned with the Rab9#19 cell line which secreted endogenous Rab-LIF (see below).
- ICM inner cell mass
- the inner cell mass (ICM) outgrowth is selectively removed from the (remaining) trophectoderm and replated after trypsinization with trypsin-EDTA on a 96 well dish with mitomycin arrested murine fibroblasts. Subsequently the ES cells are gradually plated on larger culture dishes. ES cells can remain undifferentiated for more than 20 passages by using conditioned ES cell medium of the present invention.
- Fibroblast feeder layers can be obtained from murine embryos of 12.5 days post-coitus pregnant mice.
- the mice are sacrificed, and the uteri collected and placed in a petri dish containing phosphate buffered saline (PBS).
- PBS phosphate buffered saline
- the embryos are dissected out of the uterus and all membranes removed.
- the embryos are transferred into a new dish containing PBS, the head and all internal organs removed and the carcasses washed in PBS to remove blood.
- the carcasses are then minced using 2 insulin syringes into cubes of 2 to 3 mm in diameter, and incubated in Trypsin-EDTA/MEM solution (10/90 V/V) at 4°C for 2 hrs.
- the suspension is then incubated at 37°C for 15 min, a single cell suspension made using a 5 ml pipette, and plated at 5 x 10 6 cells per 180 mm petri dish in 25
- Feeder Medium consisted of 500 ml Dulbecco's Minimal Essential Medium (DMEM), 10% fetal calf serum (FCS), 13 ml penicillin/streptomycin, 13 ml glutamine, 13 ml non-essential amino acids, 2.3 ⁇ l ⁇ -mercaptoethanol. The medium is changed after 24 hr to remove debris. After 2 to 3 days of culture the fibroblasts reaches a confluent monolayer. The plates are then trypsinized, replated on 2 petri dishes, and, when confluent, the cells of each plate are frozen in 2 vials, kept at -80°C overnight and transferred to liquid nitrogen the next day.
- DMEM Dulbecco's Minimal Essential Medium
- FCS fetal calf serum
- 13 ml penicillin/streptomycin 13 ml glutamine
- 13 ml non-essential amino acids 13 ml non-essential amino acids
- ES cells are grown to subconfluency on mouse embryonic fibroblasts mitotically arrested with mitomycin. Culture dishes are kept at 39°C in a humidified atmosphere of 5% CO 2 in air. The ES cells are passaged every 2-3 days onto freshly prepared feeder dishes. The ES cells are fed every day with the conditioned ES cell medium.
- the blastocysts were obtained from the natural matings of C57BL/6N TacfBr (Taconic) mice.
- the blastocysts were cultured with: a) enriched basic medium (see below); b) enriched basic medium with added murine LIF (1000IU/ml); c) enriched basic medium with added Rab- LIF (10ng/ml); d) enriched basic medium with added Rab-LIF (20ng/ml); e) basic medium conditioned on Rab9 fibroblast cells according to example 2; or f) basic medium conditioned on the Rab9 #19 fibroblast cell line (see below).
- the basic medium was composed of: 500 ml DMEM high glucose, 70 ml fetal bovine serum, 13ml penicillin/streptomycin, 13ml glutamine, 6.3 ⁇ l ⁇ - mercaptoethanol, and 13ml non-essential amino acids.
- Enriched basic medium is basic medium to which another 4% (v:v) fetal bovine serum is added.
- the basic medium conditioned by the Rab9 fibroblast cells is obtained as illustrated in Example 2.
- conditioned basic ES medium from the mixture of the 4 collection days
- 80ml fetal bovine serum, 17ml non-essential amino acids, 20ml glutamine, 6.3 ⁇ l ⁇ -mercaptoethanol, 1.25 ml insulin and 80ml basal medium is added and the pH is adjusted to 7.4.
- This conditioned medium contains unmeasurable level (less than 20 pg/ml) of Rab-LIF as determined with the ELISA for human LIF of R&D Systems (Minneapolis, MN, USA).
- Basic medium conditioned by the Rab9#19 fibroblast cells, is collected for 4 consecutive days as described for Rab9 in Example 2.
- 80ml fetal bovine serum, 17ml non-essential amino acids, 20ml glutamine, 6.3 ⁇ l ⁇ - mercaptoethanol, 1.25 ml insulin and 80ml basal medium is added and the pH is adjusted to 7.4.
- Rab9#19 are Rab9 fibroblast cells which have been stably transfected with the rabbit Leukemia Inhibitory Factor gene and which secrete up to 30 ng/ml/day of Rab-LIF in the medium as determined with the ELISA for human LIF of R&D Systems (Minneapolis, MN, USA).
- the blastocysts are allowed to attach to the feeder layer.
- the culture medium is refreshed every day. After approximately 1 week in culture, the ICM outgrowth is removed from the trophectoderm and after trypsinization passed onto a new 96 well dish covered with a feeder layer of mitomycin C arrested murine fibroblasts.
- the ES cells are subsequently gradually passed onto larger culture dishes with a feeder layer. After 5 to 10 passages, the number of established ES cell lines is counted for each of the culture conditions.
- the undifferentiated character of the established ES cell lines is determined by immunochemical staining for the presence of alkaline phosphatase (Vector Laboratories Inc., Burlingame, CA), or for the absence of vimentin and cytokeratin (both Dako A/S, Denmark). Only ES cell lines, which consist for more then 90% of undifferentiated cells are maintained in culture.
- Table II Final efficiency of murine C57BL6/N ES cell derivation after 2 months of culture.
- the blastocysts were obtained from the natural mating of FVB/NtacfBR (Taconic, Germantown, NY, USA) mice and from the natural mating of BALB/cAnNTacfBr (Taconic).
- the blastocysts were cultured with basic medium conditioned on Rab9 fibroblast cells according to example II.
- the basic medium was composed of: 500 ml DMEM high glucose, 70 ml fetal bovine serum, 13ml penicillin/streptomycin, 13ml glutamine, 6.3 ⁇ l ⁇ - mercaptoethanol, and 13ml non-essential amino acids.
- Enriched basic medium is basic medium to which another 4% (v:v) fetal bovine serum is added.
- the basic medium conditioned by the Rab9 fibroblast cells is obtained as illustrated in Example II.
- 80ml fetal bovine serum, 17ml non-essential amino acids, 20ml glutamine, 6.3 ⁇ l ⁇ -mercaptoethanol, 1.25 ml insulin and 80ml basic medium is added and the pH adjusted to 7.4.
- This conditioned medium contains unmeasurable levels (less than 20 pg/ml) of Rab-LIF as determined with the ELISA for human LIF of R&D Systems (Minneapolis, MN, USA), which fully cross-reacts with rabbit LIF.
- Table III Efficiency of ES cell derivation from FVB/N and Balb/C mice.
- the blastocysts are allowed to attach to the feeder layer.
- the culture medium is refreshed every day. After approximately 1 week in culture, the ICM outgrowth is removed from the trophectoderm and after trypsinization passed onto a new 96 well dish covered with a feeder layer of mitomycin C arrested murine fibroblasts. The ES cells are subsequently gradually passed onto larger culture dishes with a feeder layer. After 2 months of culture, the number of established ES cell lines is counted for each of the strains.
- the undifferentiated character of the established ES cell lines is determined by immunochemical staining for the presence of alkaline phosphatase (Vector Laboratories Inc., Burlingame, CA), or for the absence of vimentin and cytokeratin (both Dako A/S, Denmark). Only ES cell lines, which we were able to keep in culture in an undifferentiated state (more then 90% of undifferentiated cells) during at least 10 passages, were considered as established ES cell lines.
- the basic medium conditioned by the Rab9 fibroblast cells allows the derivation of embryonic stem cells from the FVB/N as well as from the BALB/c strain. After two months of culture 8 established ES cell lines are counted for the FVB/N strain and 15 ES cell lines for the BALB/c strain. This implies an overall derivation efficiency of respectively 40% and 44%.
- EXAMPLE 4 Generation of chimeric and ES cell derived animals The ability of the ES cells to colonize the germline of a host embryo can be tested by injection of these ES cells into host blastocysts, or by their aggregation with morula-stage diploid embryos or 4-celled tetraploid embryos, and implanting these chimeric preimplantation embryos into pseudopregnant foster recipients according to standard procedures. The resulting chimeric offspring can be test bred for germline transmission of the ES cell genome.
- ES cell lines from mouse strains with colored coats were injected in Swiss Webster blastocysts, whereas ES cell lines from mice with white fur (BALB/c, FVB/N) were chimerized with black C57BL/6N blastocysts.
- Germline transmission of the ES cell genome was then tested by crossing high percentage chimeras with Swiss Webster or C57BL/6N mice, as appropriate, to establish the ES cell line derived coat color in F1 offspring.
- Blastocyst injection was carried out using day 3.5 blastocysts collected from the uteri of superovulated females by flushing with M2 medium (Eurogentec, Seraing, Belgium). Superovulation was induced by injection of 7.5 I.U. of pregnant mare serum gonadotropin (PMSG, Sigma, St. Louis, MO) followed by injection of 7.5 I.U. of human chorionic gonadotropin (Pregnyl Organon, Oss, The Netherlands) after a 48 hour interval. The collected blastocysts were washed with and cultivated in M16 medium (Eurogentec) under 5% CO2 in air at 39°C.
- M2 medium Eurogentec, Seraing, Belgium
- ES cell lines were passaged two days before microinjection on bare gelatinized dishes. At the day of microinjection these dishes were trypsinized with 0.25% trypsin/1mM EDTA (Invitrogen) for approximately 2 minutes at 39°C.
- the new conditioned cell culture medium was added and the suspension was pipetted to produce a single-cell suspension. After centrifugation (1100 rpm/min for 5 minutes) the ES cells were resuspended in the new conditioned cell culture medium and kept at 39°C in the incubator.
- Blastocyst injection was carried out by injecting 15-20 ES cells of mouse strains with colored coats (C57BL/6) into host blastocysts of albino Swiss Webster mice, or of ES cells of mice with a white coat (FVB/N, BALB/C) into host blastocysts of black C57BL/6N mice. After injection, blastocysts were reimplanted (7-8 blastocysts in each horn of the uterus) into 2.5 days pseudopregnant Swiss Webster females, previously mated to vasectomized males.
- Table IV Production of chimeric mice after injection of Swiss Webster blastocysts with C57BL/6N ES cells, which were derived and cultured with basic medium conditioned on Rab9 fibroblasts.
- Table Va Production of chimeric mice after injection of C57BL/6 blastocysts with FVB/N ES cells, which were derived and cultured with basic medium conditioned on Rab9 fibroblasts.
- Table Vb Production of chimeric mice after injection of C57BL/6N blastocysts with BALB/c ES cells, which were derived and cultured with basic medium conditioned on Rab9 fibroblasts.
- the diploid aggregation method can be executed as follows. Swiss Webster (albino coat colour) females are superovulated with pregnant mare serum gonadotropin followed 44-48 hrs later by 5 units human chorionic gonadotropin. The oviducts of superovulated and mated Swiss Webster mice are flushed 2.5 days after copulation to collect late 8-cell stage diploid embryos.
- ES cell lines tested are derived from mice strains with a coat colour, facilitating identification of chimeric offspring.
- Zonae pellucidae of these 8-cell stage diploid embryos are removed by treatment with acid Tyrode's buffer. The zona-free embryos are washed and placed in M16 medium. Aggregation is performed between one 8-cell stage diploid embryo and a clump of ES cells. The aggregates are cultured in micro drops of M16 until the blastocyst stage before they are reimplanted into the uterus horns of 2.5-day pseudopregnant Swiss Webster females.
- the percentage of chimerism (portion of the newborn pup, originating from the ES cells) is visually identified by judging the percentage of dark coat (originating from the ES cells) compared to the white coat (originating from the albino Swiss Webster embryo).
- Completely ES cell derived embryos can be generated via aggregation of the ES cells with tetraploid host embryos. 2-celled embryos are electrically fused, and subsequently aggregated as 4-celled tetraploid embryos with the ES cells to form chimeric embryos, which are then implanted in pseudopregnant recipients.
- the ES cells (almost) exclusively contribute to the development of the embryo proper, and the tetraploid cells to that of the extra embryonic membrane.
- host embryos In order to distinguish between the ES and tetraploid cells, host embryos
- ROSA26 (used for aggregation) are derived from the ROSA26 strain, which expresses LacZ ubiquitously and throughout the entire development and adulthood.
- the oviducts of superovulated and mated ROSA26 mice are flushed 36 hrs after treatment with human chorionic gonadotropin to collect late two-cell stage embryos.
- EXAMPLE 6 ex vivo expansion of hematopoietic stem cells from umbilical cord blood 1. Umbilical cord blood (UCB) collection.
- MNC Mononuclear cells
- MNC Mononuclear cells
- Cells were then incubated with an anti CD34 antibody coupled to MACS micro beads in the presence of a blocking reagent. Labeled cells were filtered through a 30mm nylon mesh and then separated using a high gradient magnetic separation column placed in a strong magnetic field. Magnetically retained cells were eluted and their purity was determined by flow cytometry to be more than 95%.
- the murine fetal liver cell line AFTO24 (a kind gift from Dr. Theunissen) was maintained at 33°C in Dulbecco modified Eagle medium (DMEM, Gibco- BRL, Grand Island, NY) supplemented with 20% FBS (HyClone, Logan, UT), 100 U/ml penicillin, 100 U/ml streptomycine, 150 ⁇ M 2-mercaptoethanol (2-ME,
- gelatin (Speciality Media, Lavalette, NJ); grown to confluency and moved at 37°C, 5% CO2 in order to stop the growth.
- enriched UCB CD34+ cells were seeded in 6-well plates and cultured during 30 days: 1) on bare dish without stroma cells in medium conditioned by the rabbit fibroblast-like cell line Rab9 (ATCC CRL-1414) 2) on bare dish without stroma cells in medium conditioned by the rabbit fibroblast-like cell line Rab9#19 (Rab9#19 is the rabbit fibroblast cell line Rab9, stably transfected with the genomic rabbit LIF gene) 3) on bare dish without stroma cells in medium conditioned by the rabbit fibroblast-like cell line Rab9#19 (LMBP 5479CB)
- rhFlt3/Flk2 20 ng/ml human IL-6 recombinant (rhlL-6), 200 ng/ml human recombinant IL-6 Receptor soluble (rhlL-6 sR), 20 ng/ml human thrombopoietin (Tpo).
- Cytokines human Flt3 ligand (rhFlt3/Flk2), human IL-6 recombinant (rhlL-6), human recombinant IL-6 Receptor soluble (rhlL-6 sR), human thrombopoietin (Tpo) were obtained from R&D Systems, Minneapolis, MN. Twice a week, cells are fed with the fresh appropriate medium. Each 5 days until day 50, aliquots of cells were harvested for the performance of cell counts, phenotypic analysis, and in vitro assays (LTC-IC). The trypan blue exclusion method was used to determine the total viable cell content of expansion cultures. Originally 10 5 enriched UCB CD34+ cells were seeded in 6-well plates and cultured during 30 days. The results of the cell expansion are shown in table VI and figure 5. After
- CD34+ cells on bare dish without stroma cells in enriched basic medium supplemented with insulin with or without cytokine cocktail were all differentiated after 15 days of culture and all lost their hematopoietic cell phenotype.
- Table VI and figure 5 show that HSC and HSP grow significantly better in Rab9 or Rab9#19 conditioned cytokine free medium when compared with a basal medium which is used for isolation and maintenance of ES cells.
- the presence of LIF has a beneficial effect on the expansion of cells (compare Rab9 with Rab9#19).
- CD34+ cells were first isolated as described above then labeled with a CD34-FITC-conjugated antibody (clone 581 , Pharmingen, San Jose, CA) and a CD38-PE-conjugated antibody (clone HIT2, Pharmingen, San Jose, CA) for 15- 20 min at room temperature. Then the cells were washed twice with PBS, and then analysed on a FACSCalibur flow cytometer (Becton Dickinson, San Jose, CA) equipped with a 488nm argon laser. Isotype matched controls conjugated with FITC and PE were used to set the analyzing gates. During culture samples were taken at 5 days intervals to count the number of CD34 + cells and
- CD34 + CD38 cells.
- Table VII and figure 6 show that after 30 days of cultivation, the number of
- CD34 + cells had increased about 3 times in medium conditioned by Rab9 cells on bare dish without stroma cells. A similar increase was observed when the cells were cultured in medium conditioned by Rab9#19 cells on bare dish without stroma cells. .
- CD34+ and CD34+CD38- cells on bare dish without stroma cells in enriched basic medium supplemented with insulin in the presence or absence of the cytokines cocktail could not be counted due to their extremely weak capacity of expansion. There were not enough cells available for a flow cytometry analysis.
- Table VII Number of CD34 + cells (X10 5 cells) during 30 days of culture. (Umbilical cord sample #40) bd: below detection limit, not enough cells available for performing cell .
- LTC-IC long-term culture initiating cell
- CD34+ cells from expansion cultures were plated in 6 limiting dilutions of
- clonogenic methycellulose medium (MethoCultTM GF H4434, Stem Cell technologies) consisting of 1.12% methycellulose, IMDM, 30% FBS, 3 U/ml erythropoietin, 50 ng/ml rh Stem Cell Factor, 10 ng/ml rh GM-CSF, 10 ng/ml rh IL-3, 10 "4 M 2-mercaptoethanol
- LTC-IC frequency was then calculated according to Poisson statistics. After 15 days of culture the number of LTC-IC had increased 18 times when cultured in medium conditioned by Rab9 cells on bare dish without stroma cells and without the addition of cytokines. When cultured in medium conditioned by Rab9#19 cells on bare dish without stroma cells and without the addition of cytokines, an expansion factor of only 3.8 was obtained. The absence of LIF in the conditioned medium has a beneficial effect on the expansion of long LTC-IC.
- the LTC-IC for cultures on bare dish without stroma cells in enriched basic medium supplemented with insulin and with or not cytokines cocktail was not analyzed due to availability of enough cells under these culture conditions.
- results presented in table VIII and figure 7 clearly show the influence of LIF on the differentiation capacity of the expanded cells.
- the absence of LIF in the Rab9 medium dramatically preserve the potential of the cells to differentiate in the myeloid lineage.
- the results also show that the novel Rab9 medium, which has superior capacities for deriving and maintaining ES cells, also has a superior performance in promoting the growth and maintaining the undifferentiated status of hematopoeitic stem cells and stem cell precursors.
- EXAMPLE 8 in vivo assay for repopulating HSC.
- HSC HSC-renewal, multilineage differentiation capacity, and ability to repopulate a myeloablated host.
- Assays such as the long-term culture- initiating cell (LTC-IC) measure the ability of cells to generate myeloid progenitors after a prolonged period in culture. However, these assays do not measure self-renewal, multilineage potential, or engraftment potential of progenitors. Assessment of the engrafting ability of human HSC requires still requires transplant models.
- LTC-IC long-term culture- initiating cell
- SCID humanized severe combined immunodeficiency
- NOD nonobese diabetic
- BNX Beige-Nude-Xid
- preimmune fetal sheep as describe for example in Lewis et al (2001 ) Blood 97, 3441-3449
- NOD-SCID recipients A breeding colony of NOD-SCID mice was Mice were kept in specific pathogen-free conditions and maintained on acidified water and autoclaved food. Trimethoprim 60 mg and sulfamethoxazole 300 mg
- mice were irradiated with 300 to 325 cGy at 57 cGy/min by a Mark 1 Cesium irradiator. Transplantation of UCB cells by tail vein injection occurred 24 hours after irradiation. Cell doses ranged from 25 to 150 x 10 3
- CD341 cells on day 0 ie, uncultured
- days 7, 14, or 28 ie, uncultured
- mice were killed by cervical dislocation.
- Bone marrow (BM) was obtained by flushing femurs and tibias with IMDM 20% FCS. Cells from engrafted animals were then used for either secondary transplant experiments or extended phenotypes.
- Fetal sheep recipients Cultured cells were suspended Rab9 conditioned medium. Fifty (group X) to 100 (group I) 3 10 3 uncultured CD341 cells or the progeny of an identical number of cells cultured for 7 (group XI and II) or 14 (group XII and III) days were injected into preimmune (day 57-62 of gestation) fetal sheep recipients using the amniotic bubble procedure . In some experiments, animals were killed 60 days after transplantation and BM analyzed for human cells. The BM also served as the source of CD451 cells for transplant into secondary recipients. Alternatively, animals were allowed to be born and BM examined 6 months after transplantation.
- human CD451 cells were isolated from the BM of primary recipients from groups I, II, and III at 60 days after transplant by panning.
- the CD451 cells from the 2 animals from each group were pooled, analyzed for CD341 cell content, and injected into 3 secondary fetal recipients (group I, group IV, group II, group V, group III, group VI).
- BM MNC from the fetal and newborn sheep transplanted with human cells were analyzed for the presence of human cells by flow cytometry. Briefly, MNC were isolated from BM by hypotonic lysis of contaminating red cells. Antibodies specific for human CD3, CD20, CD33, CD34, CD45, and glycophorin A (Becton Dickinson) were conjugated to either FITC or PE.
- BM MNC were cultured in methylcellulose (0.4-2 3 10 5 cells/mL) with supplemental erythropoietin (2 lU/mL), IL-3 (5 ng/mL), and GM-CSF (5 ng/mL) and human CFU-GM and CFU- Mix enumerated .
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Application Number | Priority Date | Filing Date | Title |
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US10/499,428 US20050059145A1 (en) | 2001-12-21 | 2002-12-20 | Compositions for the in vitro derivation and culture of embryonic stem (es) cell lines with germline transmission capability and for the culture of adult stem cells |
AU2002357410A AU2002357410A1 (en) | 2001-12-21 | 2002-12-20 | Compositions for the in vitro derivation and culture of embryonic stem (es) cell lines with germline transmission capability and for the culture of adult stem cells |
DE60239420T DE60239420D1 (en) | 2001-12-21 | 2002-12-20 | COMPOSITIONS FOR THE IN VITRO MANUFACTURE AND CULTURE OF EMBRYOONIC STEM CELL LINES WITH NOBACCO TRANSMISSION AND FOR THE CULTURE OF ADULTER STEM CELLS |
IL16258902A IL162589A0 (en) | 2001-12-21 | 2002-12-20 | Compositions for the in vitro derivation and culture of embryonicstem(es) cell lines with germline transmission |
AT02805233T ATE501167T1 (en) | 2001-12-21 | 2002-12-20 | COMPOSITIONS FOR THE IN VITRO GENERATION AND CULTURE OF EMBRYONAL STEM CELL LINES WITH GERMANY TRANSMISSION ABILITY AND FOR THE CULTURE OF ADULT STEM CELLS |
EP02805233A EP1458852B1 (en) | 2001-12-21 | 2002-12-20 | Compositions for the in vitro derivation and culture of embryonic stem (es) cell lines with germline transmission capability and for the culture of adult stem cells |
JP2003554874A JP4408371B2 (en) | 2001-12-21 | 2002-12-20 | Composition for in vitro induction and culture of embryonic stem (ES) cells having germline transmission ability |
HK05107513.8A HK1075276A1 (en) | 2001-12-21 | 2005-08-26 | Compositions for the in vitro derivation and culture of embryonic stem (es) cell lines with germline transmission capability |
US12/274,939 US8697444B2 (en) | 2001-12-21 | 2008-11-20 | Compositions for the in vitro derivation and culture of embryonic stem (ES) cell lines with germline transmission capability and for the culture of adult stem cells |
US14/031,592 US8993323B2 (en) | 2001-12-21 | 2013-09-19 | Compositions for the in vitro derivation and culture of embryonic stem (ES) cell lines with germline transmission capability and for the culture of adult stem cells |
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BEPCT/BE01/00221 | 2001-12-21 | ||
PCT/BE2001/000221 WO2003054169A1 (en) | 2001-12-21 | 2001-12-21 | Compositions for the in vitro derivation and culture of embryonic stem (es) cell lines with germline transmission capability |
GBGB0220145.7A GB0220145D0 (en) | 2002-08-30 | 2002-08-30 | Novel compositions for the in vitro derivation and culture of embryonic stem (ES) cell lines with germline transmission capability |
GB0220145.7 | 2002-08-30 |
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US10499428 A-371-Of-International | 2002-12-20 | ||
US10/499,428 A-371-Of-International US20050059145A1 (en) | 2001-12-21 | 2002-12-20 | Compositions for the in vitro derivation and culture of embryonic stem (es) cell lines with germline transmission capability and for the culture of adult stem cells |
US12/274,939 Division US8697444B2 (en) | 2001-12-21 | 2008-11-20 | Compositions for the in vitro derivation and culture of embryonic stem (ES) cell lines with germline transmission capability and for the culture of adult stem cells |
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WO2003054170A1 true WO2003054170A1 (en) | 2003-07-03 |
WO2003054170A8 WO2003054170A8 (en) | 2004-04-29 |
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US (2) | US8697444B2 (en) |
EP (1) | EP1458852B1 (en) |
JP (1) | JP4408371B2 (en) |
CN (1) | CN100526455C (en) |
AT (1) | ATE501167T1 (en) |
AU (1) | AU2002357410A1 (en) |
DE (1) | DE60239420D1 (en) |
HK (1) | HK1075276A1 (en) |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8697444B2 (en) | 2001-12-21 | 2014-04-15 | Thrombogenics N.V. | Compositions for the in vitro derivation and culture of embryonic stem (ES) cell lines with germline transmission capability and for the culture of adult stem cells |
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EP1962719A4 (en) | 2005-08-29 | 2011-05-04 | Technion Res And Dev Of Foundation Ltd | Media for culturing stem cells |
DK3441459T3 (en) | 2006-08-02 | 2021-06-07 | Technion Res & Dev Foundation | PROCEDURES FOR EXPANSION OF EMBRYONAL STEM CELLS IN A SUSPENSION CULTURE |
JP6276918B2 (en) | 2009-11-12 | 2018-02-07 | テクニオン リサーチ アンド ディベロップメント ファウンデーション リミテッド | Medium, cell culture and method for culturing pluripotent stem cells in undifferentiated state |
GB201122047D0 (en) * | 2011-12-21 | 2012-02-01 | Kymab Ltd | Transgenic animals |
WO2015070113A1 (en) * | 2013-11-09 | 2015-05-14 | Mice With Horns, Llc | Materials and methods for making a recessive gene dominant |
CN106635980B (en) * | 2016-11-16 | 2019-09-24 | 中国农业大学 | A kind of the sheep derived from peripheral blood cell line and its method for building up of spontaneous immortalization |
CN113215097B (en) * | 2021-06-24 | 2023-03-24 | 成都中医药大学 | High-proportion B7H4 positive umbilical cord mesenchymal stem cells, and culture method and culture solution thereof |
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WO1990001541A1 (en) * | 1988-08-04 | 1990-02-22 | Amrad Corporation Limited | In vitro propagation of embryonic stem cells |
US5418159A (en) * | 1989-01-10 | 1995-05-23 | Amrad Corporation Limited | Leukaemia inhibitory factor from livestock species and use thereof to enhance implantation and development of embryonic cells |
WO1997020035A1 (en) * | 1995-11-29 | 1997-06-05 | Utah State University | Establishment, maintenance, and transfection of totipotent embryonic stem cells from the embryos of domestic animals |
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PT87133B (en) * | 1987-04-02 | 1992-07-31 | Amrad Corp Ltd | METHOD OF PURIFICATION OF THE LEUKEMIA INHIBITOR FACTOR (LIF) AND PHARMACEUTICAL COMPOSITIONS CONTAINING POLIPEPTIDES WITH LIF ACTIVITY |
US5843780A (en) * | 1995-01-20 | 1998-12-01 | Wisconsin Alumni Research Foundation | Primate embryonic stem cells |
JPH1052263A (en) | 1996-05-21 | 1998-02-24 | Rikagaku Kenkyusho | Embryonic stem cell |
US6667176B1 (en) | 2000-01-11 | 2003-12-23 | Geron Corporation | cDNA libraries reflecting gene expression during growth and differentiation of human pluripotent stem cells |
US7410798B2 (en) * | 2001-01-10 | 2008-08-12 | Geron Corporation | Culture system for rapid expansion of human embryonic stem cells |
US6458589B1 (en) * | 2000-04-27 | 2002-10-01 | Geron Corporation | Hepatocyte lineage cells derived from pluripotent stem cells |
US20040053406A1 (en) | 2000-06-28 | 2004-03-18 | Luc Schoonjans | Pluripotent embryonic stem (es) cell lines, improved methods for their production, and their use for germ line transmission and for the generation of genetically modified animals |
GB0220145D0 (en) * | 2002-08-30 | 2002-10-09 | Thromb X Nv | Novel compositions for the in vitro derivation and culture of embryonic stem (ES) cell lines with germline transmission capability |
ATE501167T1 (en) | 2001-12-21 | 2011-03-15 | Thrombogenics Nv | COMPOSITIONS FOR THE IN VITRO GENERATION AND CULTURE OF EMBRYONAL STEM CELL LINES WITH GERMANY TRANSMISSION ABILITY AND FOR THE CULTURE OF ADULT STEM CELLS |
AU2002218893A1 (en) | 2001-12-21 | 2003-07-09 | Thromb-X Nv | Compositions for the in vitro derivation and culture of embryonic stem (es) cell lines with germline transmission capability |
-
2002
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- 2002-12-20 JP JP2003554874A patent/JP4408371B2/en not_active Expired - Fee Related
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- 2002-12-20 CN CNB028281144A patent/CN100526455C/en not_active Expired - Fee Related
- 2002-12-20 EP EP02805233A patent/EP1458852B1/en not_active Expired - Lifetime
- 2002-12-20 DE DE60239420T patent/DE60239420D1/en not_active Expired - Lifetime
- 2002-12-20 AU AU2002357410A patent/AU2002357410A1/en not_active Abandoned
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US5418159A (en) * | 1989-01-10 | 1995-05-23 | Amrad Corporation Limited | Leukaemia inhibitory factor from livestock species and use thereof to enhance implantation and development of embryonic cells |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8697444B2 (en) | 2001-12-21 | 2014-04-15 | Thrombogenics N.V. | Compositions for the in vitro derivation and culture of embryonic stem (ES) cell lines with germline transmission capability and for the culture of adult stem cells |
US8993323B2 (en) | 2001-12-21 | 2015-03-31 | Thrombogenics N.V. | Compositions for the in vitro derivation and culture of embryonic stem (ES) cell lines with germline transmission capability and for the culture of adult stem cells |
Also Published As
Publication number | Publication date |
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EP1458852B1 (en) | 2011-03-09 |
US20090098650A1 (en) | 2009-04-16 |
DE60239420D1 (en) | 2011-04-21 |
AU2002357410A8 (en) | 2003-07-09 |
JP4408371B2 (en) | 2010-02-03 |
US8697444B2 (en) | 2014-04-15 |
CN100526455C (en) | 2009-08-12 |
US8993323B2 (en) | 2015-03-31 |
WO2003054170A8 (en) | 2004-04-29 |
AU2002357410A1 (en) | 2003-07-09 |
EP1458852A1 (en) | 2004-09-22 |
US20140099710A1 (en) | 2014-04-10 |
ATE501167T1 (en) | 2011-03-15 |
CN1620498A (en) | 2005-05-25 |
HK1075276A1 (en) | 2005-12-09 |
JP2005512563A (en) | 2005-05-12 |
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