A novel feeder-free system for human embryonic stem cells and characterization of their sublines with autogenic and allogenic cultivation

We developed a feeder-free system for human embryonic stem cells (ESCs) based on extracellular matrix protein (ECM) as the substrate. ECM was synthesized by mesenchymal stem cells (SC5-MSC) derived from an original ESC line, SC5. The ECM proteins fibronectin and laminin facilitate ESC growth in the feeder-free system. An important component of this system is a conditioned medium from SC5-MSC cells. Two ESC sublines were obtained: SC5-FF cells were cultured in an autogenic, and SC7-FF in an allogenic, feeder-free system. SC5-FF and SC7-FF underwent more than 300 and 115 population doublings, respectively, and retain a normal diploid karyotype. Histochemical and immunofluorescence assays showed that both sublines express undifferentiated ESC markers—alkaline phosphatase, Oct-4, SSEA-4, and TRA-1-81—as well as multidrug resistance transporter ABCG2. PCR assay revealed that undifferentiated SC5-FF cells, like the original SC5 line, maintained on feeder cells express OCT4 and NANOG genes common for somatic cells and DPPA3/STELLA and DAZL genes common for germ line cells. Expression of these genes was gradually diminished during differentiation of embryoid bodies, whereas expression of genes specific for early differentiated cells increased: GATA4, AFP (extraembryonic and embryonic endoderm), PAX6 (neuroectoderm), and BRY (mesoderm). ESC properties (karyotype structure, average time of population doubling, undifferentiated cell number in population) of the SC5 and SC7 and SC5-FF and SC7-FF sublines derived from original ESCs were not altered. It shows that the feeder-free systems, which are more stable than any feeder systems, maintain key ESC properties and may be recommended for fundamental, biomedical, and pharmacological studies performed with human ESCs.     

Establishment and characteristics of new human embryonic stem cell subline SC6-FF in an allogenic feeder-free culture system

The novel human embryonic stem cell (hESC) subline SC6-FF was derived from SC6 cells in an allogenic feeder-free culture system. Key components of the feeder-free culture system were extracellular matrix proteins and conditioned medium from the mesenchymal stem cell line SC5-MSC. These conditions are allogenic for SC6-FF cells. SC6-FF subline underwent more than one hundred cell population doublings and retained a normal diploid karyotype; 46, XX. The average population doubling time was 23.7 ± 0.8 h, similar to that of the parent SC6 line. The presence of undifferentiated hESC markers (alkaline phosphatase activity, Oct-4, SSEA-4, and TRA-1-60) was verified by histochemistry and immunofluorescence. Cells were distinguished from parental cells in size and morphology as a result of spontaneous differentiation. These cells exhibited the ability to differentiate into derivates of three germ layers by expressing common markers of the ectoderm (alpha-fetoprotein), mesoderm (a-actinin) and endoderm (a-fetoprotein) cells. We could conclude that characteristics of the novel feeder-free SC6-FF subline correspond to the status of human embryonic stem cells.     

Adaptation of human embryonic stem cells to feeder-free and matrix-free culture conditions directly on plastic surfaces

Previous studies have shown that cultivation of undifferentiated human embryonic stem (hES) cells requires human fibroblasts (hF) or mouse embryonic fibroblast (mEF) feeders or a coating matrix such as laminin, fibronectin or Matrigel in combination with mEF or hF conditioned medium. We here demonstrate a successful feeder-free and matrix-free culture system in which undifferentiated hES cells can be cultured directly on plastic surfaces without any supportive coating, in a hF conditioned medium. The hES cells cultured directly on plastic surfaces grow as colonies with morphology very similar to cells cultured on Matrigel(TM). Two hES cell lines SA167 and AS034.1 were adapted to matrix-free growth (MFG) and have so far been cultured up to 43 passages and cryopreserved successfully. The lines maintained a normal karyotype and expressed the expected marker profile of undifferentiated hES cells for Oct-4, SSEA-3, SSEA-4, TRA-1-60, TRA-1-81 and SSEA-1. The hES cells formed teratomas in SCID mice and differentiated in vitro into derivates of all three germ layers. Thus, the MFG-adapted hES cells appear to retain pluripotency and to remain undifferentiated. The present culture system has a clear potential to be scaleable up to a manufacturing level and become the preferred culture system for various applications such as cell therapy and toxicity testing.     

Comparative characteristics of new mesenchymal stem cell lines derived from human embryonic stem cells, bone marrow and foreskin

New nonimmortalized fibroblast-like cell lines SC5-MSC and SC3a-MSC, FetMSC, FRSN were obtained from human embryonic stem cells (ESC), bone marrow of a 5-6-days embryo and foreskin of a 3-years-old boy, respectively. All the lines are successfully used as the feeder at human ESC cultivation. It is determined that the average cell population doublings time varies from 25.5 h for ISC5-MSC to 38.8 h for SC3a-MSC. Active proliferation of all the lines is also shown by the corresponding growth curves. Numerical and structural karyotypic analysis showed that these lines had normal karyotype: 46,XX (SC5-MSC and SC3a-MSC) and 46,XY (FetMSC and FRSN). To determine the status of the lines, their cell surface markers were analyzed by flow cytometry. This analysis revealed the presence of surface antigens CD44, CD73, CD90, CD105 and HLA-ABC, characteristic of human MSC, and the absence of CD34 and HLA-DR. Different lines were found to express CD117(c-kit) to a different level. Immunofluorescence and flow cytometry analysis did not detect TRA-1-60 and Oct-4, characteristic of human embryonic stem cells, and revealed interlinear variations in the level of SSEA, which did not depend on the cell origin. It is not clear yet whether these interlinear variations affect functional MSC status. In all the lines, immunofluorescence analysis showed the presence of the markers of early differentiation in the derivates of three germ layers which may allow MSC to be useful, in corresponding microenvironments, for reparation of tissue injures. Adipogenic and osteogenic differentiatiation of all cell lines has been shown.     

Human embryonic stem cell lines derived from the Chinese population

Six human embryonic stem cell lines were established from surplus blastocysts. The cell lines expressed alkaline phosphatase and molecules typical of primate embryonic stem cells, including Oct-4, Nanog, TDGF1, Sox2, EBAF, Thy-1, FGF4, Rex-1, SSEA-3, SSEA-4, TRA-1-60 and TRA-1-81. Five of the six lines formed embryoid bodies that expressed markers of a variety of cell types; four of them formed teratomas with tissue types representative of all three embryonic germ layers. These human embryonic stem cells are capable of producing clones of undifferentiated morphology, and one of them was propagated to become a subline. Human embryonic stem cell lines from the Chinese population should facilitate stem cell research and may be valuable in studies of population genetics and ecology.     

Effects of different feeder layers on short-term culture of prepubertal bovine testicular germ cells in-vitro

Spermatogonial stem cells (SSCs) are exceptional adult stem cells that transfer genes to new generations. This behavior makes them unique cells for the production of transgenic farm animals. However, this goal has been hampered by their spontaneous differentiation during in vitro culture. Therefore, the objective of this study was the evaluation of the effects of different feeders on in vitro short-term culture of prepubertal bovine testicular germ cells. The isolated cell suspensions containing SSCs were enriched by Bovine serum albumin (BSA) and gelatin and were cultured in the presence of Glial-derived neurotrophic factor (GDNF), Epidermal Growth Factor (EGF) and basic Fibroblastic Growth Factor (bFGF). After 7 d of culture, colonies were harvested and cultured on four different feeders, including SIM mouse embryo-derived thioguanine and ouabain resistant (STO), mouse embryonic fibroblast, bovine Sertoli cells (BSC) and on a laminin-coated plate. The number and area of colonies were measured at seven, 11 and 14 d post-culture. The expression of germ cells markers was detected using immunofluorescence and flow cytometry analyses on day 7, and quantitative real-time PCR at 14 d post-culture. Immunocytochemical staining revealed that colonies were positive for Dolichos biflorus agglutinin (DBA), Thy-1, Oct-4, c-ret, α6-integrin, β1-integrin and negative for c-kit. In addition, the number and area of those colonies formed on the STO feeder were significantly greater than the other groups. Relative expressions of Thy-1 in the STO and in BSC groups were significantly higher than other groups but expression of Oct-4 was highest in the laminin group compared to other groups. In conclusion, STO might be a suitable feeder layer for in vitro propagation of bovine testicular germ cells.     

A Combination of Culture Conditions and Gene Expression Analysis Can Be Used to Investigate and Predict hES Cell Differentiation Potential towards Male Gonadal Cells

Human embryonic stem cell differentiation towards various cell types belonging to ecto-, endo- and mesodermal cell lineages has been demonstrated, with high efficiency rates using standardized differentiation protocols. However, germ cell differentiation from human embryonic stem cells has been very inefficient so far. Even though the influence of various growth factors has been evaluated, the gene expression of different cell lines in relation to their differentiation potential has not yet been extensively examined. In this study, the potential of three male human embryonic stem cell lines to differentiate towards male gonadal cells was explored by analysing their gene expression profiles. The human embryonic stem cell lines were cultured for 14 days as monolayers on supporting human foreskin fibroblasts or as spheres in suspension, and were differentiated using BMP7, or spontaneous differentiation by omitting exogenous FGF2. TLDA analysis revealed that in the undifferentiated state, these cell lines have diverse mRNA profiles and exhibit significantly different potentials for differentiation towards the cell types present in the male gonads. This potential was associated with important factors directing the fate of the male primordial germ cells in vivo to form gonocytes, such as SOX17 or genes involved in the NODAL/ACTIVIN pathway, for example. Stimulation with BMP7 in suspension culture resulted in up-regulation of cytoplasmic SOX9 protein expression in all three lines. The observation that human embryonic stem cells differentiate towards germ and somatic cells after spontaneous and BMP7-induced stimulation in suspension emphasizes the important role of somatic cells in germ cell differentiation in vitro.     

Expansion of pluripotent human embryonic stem cells on human feeders

Human embryonic stem cells (HES) hold great potential for regenerative medicine because of their ability to differentiate to any cell type. However, a limitation is that HES cells require a feeder layer to stay undifferentiated. Routinely, mouse embryonic fibroblast is used. However, for therapeutic applications, contamination with mouse cells may be considered unacceptable. In this study, we evaluated three commercially available human foreskin feeder (HF) lines for their ability to support HES cell growth in media supplemented with serum or serum replacer. HES cells on HF in serum replacer-supplemented media were cultured for >30 passages. They remained undifferentiated, maintained a normal karyotype, and continued to be positive for the pluripotent markers Oct-4, SOX-2, SSEA-4, GCTM-2, Tra-1-60, Tra-1-81, and alkaline phosphatase. In vivo, HES cells formed teratomas in SCID mouse models that represent the three embryonic germ layers. In contrast, HES cells cultured on HF in serum-supplemented media differentiated after three passages. Morphologically, the cells became cystic with a loss of intracellular Oct-4. We have successfully adapted and cultured undifferentiated HES cells on three human feeder lines for >30 passages. No difficulties were observed with the exception of serum in the media. This study reveals a safe and accessible source for feeders for HES cell research and potential therapeutic applications.     

Testes of DAZL null neonatal sheep lack prospermatogonia but maintain normal somatic cell morphology and marker expression

Multiplying the germline would increase the number of offspring that can be produced from selected animals, accelerating genetic improvement for livestock breeding. This could be achieved by producing multiple chimaeric animals, each carrying a mix of donor and host germ cells in their gonads. However, such chimaeric germlines would produce offspring from both donor and host genotypes, limiting the rate of genetic improvement. To resolve this problem, we disrupted the RNA‐binding protein DAZL and generated germ cell‐deficient host animals. Using Cas9‐mediated homology‐directed repair (HDR), we introduced a DAZL loss‐of‐function mutation in male ovine fetal fibroblasts. Following manual single cell isolation, 4/48 (8.3%) of donor cell strains were homozygously HDR‐edited. Sequence‐validated strains were used as nuclear donors for somatic cell cloning to generate three lambs, which died at birth. All DAZL null male neonatal sheep lacked germ cells on histological sections and showed greatly reduced germ cell markers. Somatic cells within their testes were morphologically intact and expressed normal levels of lineage‐specific markers, suggesting that the germ cell niche remained intact. This extends the DAZL mutant phenotype beyond mice into agriculturally relevant ruminants, providing a pathway for using absolute germline transmitters in rapid livestock improvement.     

Isolation, culture, and characterization of embryonic cell lines from vitrified sheep blastocysts

This study was conducted to isolate, to culture, and to characterize embryonic cell lines from in vitro produced vitrified sheep blastocysts. Embryos were produced and vitrified at the expanded blastocyst stage. Ten inner cell masses arising from day 6-7 blastocysts were isolated by immunosurgery, disaggregated, and cultured onto mitomocin-C-inactivated mouse STO fibroblasts (MIF). After 5 or 6 days of culture the primary cell colonies were disaggregated, seeded in a new MIF, and cultured for 3 or 4 days to form new colonies called Passage 1. These cells were then disaggregated and cultured for other two passages. The primary cell colonies and Passage 2 colonies expressed stage specific embryonic markers SSEA-1, SSEA-3, and SSEA-4, and were alkaline phosphatase positive. In the absence of feeder layer and human leukemia inhibitory factor (LIF), these cells differentiated into variety of cell types and formed embryoid bodies. When cultured for an extended period of time, embryoid bodies differentiated into derivatives of three embryonic germ (EG) layers. These were characterized by detection of specific markers for differentiation such early mesoderm (FE-C6), embryonic myosin (F1-652), neural precursor (FORSE-1), and endoderm (anti-cytokeratin 18). To our knowledge, this is the first time that embryonic cell lines from in vitro produced and vitrified ovine blastocysts have been isolated and examined for detection of SSEA markers, and embryoid bodies have been cultured and examined for specific cell surface markers for differentiation.