Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.1 (alkaline phosphatase)
 47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous reports have demonstrated the growth of undifferentiated human embryonic stem (HES) cells on mouse embryonic fibroblast (MEF) feeders and on laminin- or Matrigel-coated plastic surfaces supplemented with MEF-conditioned medium. These xenosupport systems run the risk of cross-transfer of animal pathogens from the animal feeder, matrix, or conditioned medium to the HES cells, thus compromising later clinical application. Here we show that human fetal and adult fibroblast feeders support prolonged undifferentiated HES cell growth of existing cell lines and are superior to cell-free matrices (collagen I, human extracellular matrix, Matrigel, and laminin) supplemented with human or MEF feeder-conditioned medium. Additionally, we report the derivation and establishment of a new HES cell line in completely animal-free conditions. Like HES cells cultured on MEF feeders, the HES cells grown on human feeders had normal karyotypes, tested positive for alkaline phosphatase activity, expressed Oct-4 and cell surface markers including SSEA-3, SSEA-4, Tra 1-60, and GCTM-2, formed teratomas in severely combined immunodeficient (SCID) mice, and retained all key morphological characteristics. Human feeder#150;supported HES cells should provide a safer alternative to existing HES cell lines in therapeutic applications.
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PMID:Human feeders support prolonged undifferentiated growth of human inner cell masses and embryonic stem cells. 1220 5

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.
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PMID:Expansion of pluripotent human embryonic stem cells on human feeders. 1548 39

Derivation and culture of human embryonic stem cells (hESCs) without animal-derived material would be optimal for cell transplantation. We derived two new hES (HS293 and HS306) and 10 early cell lines using serum replacement (SR) medium instead of conventional fetal calf serum and human foreskin fibroblasts as feeder cells. Line HS293 has been in continuous culture, with a passage time of 5-8 days, since October 2003 and is at passage level 56. Line HS306 has been cultured since February 2004, now at passage 41. The lines express markers of pluripotent hESCs (Oct-4, SSEA-4, TRA-1-60, TRA-1-81, GCTM-2, and alkaline phosphatase). The pluripotency has been shown in embryoid bodies in vitro, and the pluripotency of line 293 has also been shown in vivo by teratoma formation in severe combined immunodeficiency/beige mice. The karyotype of HS293 is 46,XY, and that of HS306 is 46,XX. Ten more early lines have been derived under similar conditions since September 2004. We conclude that hESC lines can be successfully derived using SR medium and postnatal human fibroblasts as feeder cells. This is a step toward xeno-free conditions and facilitates the use of these cells in transplantation.
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PMID:Derivation of human embryonic stem cell lines in serum replacement medium using postnatal human fibroblasts as feeder cells. 1579 Jul 75

Human embryonic stem (hES) cells were originally isolated and maintained on mouse embryonic fibroblast (MEF) feeder layers in the presence of fetal bovine serum (FBS). However, if the hES cells are to be used for therapeutic applications, it is preferable to regulatory authorities that they be derived and cultured in animal-free conditions to prevent mouse antigen contamination that would exacerbate an immune response to foreign proteins, and the potential risk of transmission of retroviral and other zoonotic pathogens to humans. As a step towards this goal, we derived a new hES cell line (MISCES-01) on human adult skin fibroblasts as feeder cells using serum replacement (SR) medium. The MISCES-01 cells have a normal diploid karyotype (46XX), express markers of pluripotency (OCT4, GCTM-2, TRA-1-60, TRA-1-81, SSEA-3, SSEA-4, and alkaline phosphatase) and following in vitro and in vivo differentiation, give rise to derivatives of the three primary germ layers. This cell line can be obtained for research purposes from the Australian Stem Cell Centre (http://www.stemcellcentre.edu.au).
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PMID:Derivation and maintenance of human embryonic stem cell line on human adult skin fibroblast feeder cells in serum replacement medium. 2017 2