Derivation, characterization and differentiation of a new human embryonic stem cell line from a Chinese hatched blastocyst assisted by a non-contact laser system

Wu, Rongrong; Xu, Chenming; Jin, Fan; Tan, Zhou; Gu, Bin; Chen, Liangbiao; Yao, Xing; Zhang, Ming

doi:10.1111/j.1749-0774.2010.00090.x

Cited by 2 publications

(1 citation statement)

References 41 publications

(72 reference statements)

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“…More has been reported regarding functions for connexins in the more recently appreciated field of cancer stem cell biology (see below). Several studies have shown changes in connexin gene expression in response to immortalization [108][109][110] but have not investigated the underlying mechanism of connexin function in this situation. A decrease in GJIC with age and with senescence has also been reported [111][112][113][114], as well as changes in connexin expression during senescence [115].…”

Section: Replicative Immortalitymentioning

confidence: 99%

Connexins in Cancer: Jekyll or Hyde?

2020

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The expression, localization, and function of connexins, the protein subunits that comprise gap junctions, are often altered in cancer. In addition to cell–cell coupling through gap junction channels, connexins also form hemichannels that allow communication between the cell and the extracellular space and perform non-junctional intracellular activities. Historically, connexins have been considered tumor suppressors; however, they can also serve tumor-promoting functions in some contexts. Here, we review the literature surrounding connexins in cancer cells in terms of specific connexin functions and propose that connexins function upstream of most, if not all, of the hallmarks of cancer. The development of advanced connexin targeting approaches remains an opportunity for the field to further interrogate the role of connexins in cancer phenotypes, particularly through the use of in vivo models. More specific modulators of connexin function will both help elucidate the functions of connexins in cancer and advance connexin-specific therapies in the clinic.

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Section: Replicative Immortalitymentioning

confidence: 99%

Connexins in Cancer: Jekyll or Hyde?

2020

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Derivation of multipotent nestin+/CD271−/STRO-1− mesenchymal-like precursors from human embryonic stem cells in chemically defined conditions

Zhao

et al. 2011

Human Cell

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The successful establishment of stem cell-based therapies requires multipotent, immunocompatible stem cells, highly efficient strategies for direct differentiation, and most importantly, optimal culture conditions for large-scale expansion of such cell populations. Other than adult tissues, human embryonic stem cells (hESCs) represent another infinitely expansible source for mesenchymal stem cell (MSC) derivation. Here, we reproducibly derived a population of Nestin(+)/CD271(-)/STRO-1(-) mesenchymal-like precursors from hESCs (hESC-MPs) in chemically defined conditions, without requiring any serum or serum replacement of animal origin, based on a Y-27632-assisted monolayer culture system. These cells showed slim fibroblastic morphology, and satisfied the criteria of MSCs including self-renewal, the expression of multiple MSC-specific markers and the ability to differentiate into osteoblasts, adipocytes and chondrocytes. Compared with previously reported hESC-derived MSCs, our hESC-MPs were more multipotent, and could differentiate into representative derivatives of all three embryonic germ layers including mature smooth muscle cells, cardiomyocytes, functional hepatocytes and neural cells expressing various neurotransmitter phenotypes, making them an attractive cell source for regenerative medicine.

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Derivation, characterization and differentiation of a new human embryonic stem cell line from a Chinese hatched blastocyst assisted by a non-contact laser system

Cited by 2 publications

References 41 publications

Connexins in Cancer: Jekyll or Hyde?

Connexins in Cancer: Jekyll or Hyde?

Derivation of multipotent nestin+/CD271−/STRO-1− mesenchymal-like precursors from human embryonic stem cells in chemically defined conditions

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