Immortalized Fibroblast‐Like Cells Derived from Human Embryonic Stem Cells Support Undifferentiated Cell Growth

Xu, Chunhui; Jiang, Jianming; Sottile, Virginie; McWhir, Jim; Lebkowski, Jane; Carpenter, Melissa K.

doi:10.1634/stemcells.22-6-972

Cited by 180 publications

(132 citation statements)

References 49 publications

(72 reference statements)

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“…Although the generation of fibroblast-looking cells from human ESCs was originally reported a few years ago, those cells were not fully characterized as MSCs [23][24][25]. Barberi et al were the first to derive MSCs from human ESCs through co-culturing them with the OP9 murine BM stromal cell line for 40 days and characterize them according to accepted criteria for MSCs [20].…”

Section: Discussionmentioning

confidence: 99%

Derivation and immunological characterization of mesenchymal stromal cells from human embryonic stem cells

Trivedi

Hematti

2008

Experimental Hematology

176

159

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Objective-We have previously shown the simultaneous generation of CD73+ mesenchymal stromal cells (MSCs) along with CD34+ hematopoietic cells from human embryonic stem cells (ESCs) when they are co-cultured with OP9 murine stromal cells. We investigated whether MSCs can be derived from human ESCs without co-culturing with OP9 cells, and if such cells exhibit immunological properties similar to MSCs derived from adult human bone marrow (BM).Materials and Methods-Our starting populations were undifferentiated ESCs cultured on matrigel-coated plates without feeder cells. The differentiated fibroblast-looking cells were tested for expression of MSC markers and their potential for multi-lineage differentiation. We investigated surface expression of HLA molecules on these MSCs before and after treatment with interferon gamma (IFN-γ). We also tested the proliferative response of T-lymphocytes towards MSCs and the effects of MSCs in mixed lymphocyte reaction (MLR) assays. Conclusions-MSCs can be derived from human ESCs without feeder cells. These human ESCderived MSCs have cell surface markers, differentiation potentials, and immunological properties in vitro that are similar to adult BM-derived MSCs. Results-We

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Section: Discussionmentioning

confidence: 99%

Derivation and immunological characterization of mesenchymal stromal cells from human embryonic stem cells

Trivedi

Hematti

2008

Experimental Hematology

176

159

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“…Attempts at producing functional cartilage from human embryonic cell derivatives under chondrogenic conditions have not always been successful, although these cells readily undergo osteogenic and adipogenic differentiations in standard culture conditions [13,40]. Our tailored coculture system, on the other hand, has enabled LVEC cells to undergo chondrogenic differentiation to produce a tissue with a morphology indicative of hyaline cartilage in a 3D environment.…”

Section: Discussionmentioning

confidence: 99%

Engineering Musculoskeletal Tissues with Human Embryonic Germ Cell Derivatives

et al. 2010

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The cells derived from differentiating embryoid bodies of human embryonic germ (hEG) cells express a broad spectrum of gene markers and have been induced toward ectoand endodermal lineages. We describe here in vitro and in vivo differentiation of hEG-derived cells (LVEC line) toward mesenchymal tissues. The LVEC cells express many surface marker proteins characteristic of mesenchymal stem cells and differentiated into cartilage, bone, and fat. Homogenous hyaline cartilage was generated from cells after 63 population doublings. In vivo results demonstrate cell survival, differentiation, and tissue formation. The high proliferative capacity of hEG-derived cells and their ability to differentiate and form three-dimensional mesenchymal tissues without teratoma formation underscores their significant potential for regenerative medicine. The adopted coculture system also provides new insights into how a microenvironment comprised of extracellular and cellular components may be harnessed to generate hierarchically complex tissues from pluripotent cells. STEM CELLS 2010;28:765-774 Disclosure of potential conflicts of interest is found at the end of this article.

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“…Fibroblast-like cells have been derived from H1 cells (WA01), denoted HEF1, and immortalized by infection with a retrovirus expressing human telomerase reverse transcriptase (TERT) (Xu et al, 2004). It was found that conditioned medium from these cells supported the growth of both H7 and H9 cells (WA07 and WA09) on Matrigel.…”

Section: Conditioned Mediummentioning

confidence: 99%

Toward xeno-free culture of human embryonic stem cells

Mallon

Park

Chen

et al. 2006

The International Journal of Biochemistry & Cell Biology

158

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The culture of human embryonic stem cells (hESCs) is limited, both technically and with respect to clinical potential, by the use of mouse embryonic fibroblasts (MEFs) as a feeder layer. The concern over xenogeneic contaminants from the mouse feeder cells may restrict transplantation to humans and the variability in MEFs from batch-to-batch and laboratory-to-laboratory may contribute to some of the variability in experimental results. Finally, use of any feeder layer increases the work load and subsequently limits the large-scale culture of human ES cells. Thus, the development of feeder-free cultures will allow more reproducible culture conditions, facilitate scale-up and potentiate the clinical use of cells differentiated from hESC cultures. In this review, we describe various methods tested to culture cells in the absence of MEF feeder layers and other advances in eliminating xenogeneic products from the culture system.

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Immortalized Fibroblast‐Like Cells Derived from Human Embryonic Stem Cells Support Undifferentiated Cell Growth

Cited by 180 publications

References 49 publications

Derivation and immunological characterization of mesenchymal stromal cells from human embryonic stem cells

Derivation and immunological characterization of mesenchymal stromal cells from human embryonic stem cells

Engineering Musculoskeletal Tissues with Human Embryonic Germ Cell Derivatives

Toward xeno-free culture of human embryonic stem cells

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