SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W295044603> ?p ?o ?g. }

Showing items 1 to 100 of ±170 with 100 items per page.

W295044603 endingPage "e0126562" @default.
W295044603 startingPage "e0126562" @default.
W295044603 abstract "Comprehensive analysis of alterations in gene expression along with neoplastic transformation in human cells provides valuable information about the molecular mechanisms underlying transformation. To further address these questions, we performed whole transcriptome analysis to the human mesenchymal stem cell line, UE6E7T-3, which was immortalized with hTERT and human papillomavirus type 16 E6/E7 genes, in association with progress of transformation in these cells. At early stages of culture, UE6E7T-3 cells preferentially lost one copy of chromosome 13, as previously described; in addition, tumor suppressor genes, DNA repair genes, and apoptosis-activating genes were overexpressed. After the loss of chromosome 13, additional aneuploidy and genetic alterations that drove progressive transformation, were observed. At this stage, the cell line expressed oncogenes as well as genes related to anti-apoptotic functions, cell-cycle progression, and chromosome instability (CIN); these pro-tumorigenic changes were concomitant with a decrease in tumor suppressor gene expression. At later stages after prolong culture, the cells exhibited chromosome translocations, acquired anchorage-independent growth and tumorigenicity in nude mice, (sarcoma) and exhibited increased expression of genes encoding growth factor and DNA repair genes, and decreased expression of adhesion genes. In particular, glypican-5 (GPC5), which encodes a cell-surface proteoglycan that might be a biomarker for sarcoma, was expressed at high levels in association with transformation. Patched (Ptc1), the cell surface receptor for hedgehog (Hh) signaling, was also significantly overexpressed and co-localized with GPC5. Knockdown of GPC5 expression decreased cell proliferation, suggesting that it plays a key role in growth in U3-DT cells (transformants derived from UE6E7T-3 cells) through the Hh signaling pathway. Thus, the UE6E7T-3 cell culture model is a useful tool for assessing the functional contribution of genes showed by expression profiling to the neoplastic transformation of human fibroblasts and human mesenchymal stem cells (hMSC)." @default.
W295044603 created "2016-06-24" @default.
W295044603 creator A5013277774 @default.
W295044603 creator A5017423214 @default.
W295044603 creator A5022982021 @default.
W295044603 creator A5027421629 @default.
W295044603 creator A5030283222 @default.
W295044603 creator A5030809708 @default.
W295044603 creator A5039959472 @default.
W295044603 creator A5042548181 @default.
W295044603 creator A5048431809 @default.
W295044603 creator A5067610895 @default.
W295044603 creator A5079431030 @default.
W295044603 creator A5085752602 @default.
W295044603 creator A5088672289 @default.
W295044603 creator A5090950255 @default.
W295044603 date "2015-05-15" @default.
W295044603 modified "2023-10-16" @default.
W295044603 title "Transcriptional Dynamics of Immortalized Human Mesenchymal Stem Cells during Transformation" @default.
W295044603 cites W1525746837 @default.
W295044603 cites W1545398558 @default.
W295044603 cites W1546736344 @default.
W295044603 cites W1573413333 @default.
W295044603 cites W1632349675 @default.
W295044603 cites W1644764835 @default.
W295044603 cites W1970442105 @default.
W295044603 cites W1970511605 @default.
W295044603 cites W1974266360 @default.
W295044603 cites W1979765208 @default.
W295044603 cites W1984328656 @default.
W295044603 cites W1988850269 @default.
W295044603 cites W1993240075 @default.
W295044603 cites W1998238577 @default.
W295044603 cites W1998526870 @default.
W295044603 cites W2002137163 @default.
W295044603 cites W2002246796 @default.
W295044603 cites W2011912935 @default.
W295044603 cites W2021579554 @default.
W295044603 cites W2033520317 @default.
W295044603 cites W2035226186 @default.
W295044603 cites W2036165466 @default.
W295044603 cites W2037688404 @default.
W295044603 cites W2038197766 @default.
W295044603 cites W2039967463 @default.
W295044603 cites W2041068875 @default.
W295044603 cites W2043436613 @default.
W295044603 cites W2050895091 @default.
W295044603 cites W2063699975 @default.
W295044603 cites W2068406112 @default.
W295044603 cites W2068940249 @default.
W295044603 cites W2070184849 @default.
W295044603 cites W2075177970 @default.
W295044603 cites W2076729367 @default.
W295044603 cites W2083056328 @default.
W295044603 cites W2087107100 @default.
W295044603 cites W2088484876 @default.
W295044603 cites W2088985983 @default.
W295044603 cites W2096198457 @default.
W295044603 cites W2096910509 @default.
W295044603 cites W2098027759 @default.
W295044603 cites W2102922697 @default.
W295044603 cites W2112279992 @default.
W295044603 cites W2124580184 @default.
W295044603 cites W2130823863 @default.
W295044603 cites W2133812809 @default.
W295044603 cites W2138369573 @default.
W295044603 cites W2139682891 @default.
W295044603 cites W2142626851 @default.
W295044603 cites W2145099626 @default.
W295044603 cites W2148817007 @default.
W295044603 cites W2151420456 @default.
W295044603 cites W2154431984 @default.
W295044603 cites W2156972935 @default.
W295044603 cites W2158532144 @default.
W295044603 cites W2158800431 @default.
W295044603 cites W2162639090 @default.
W295044603 cites W2167097066 @default.
W295044603 cites W2170004973 @default.
W295044603 cites W2177282384 @default.
W295044603 cites W2187206683 @default.
W295044603 cites W4241399562 @default.
W295044603 cites W4255053766 @default.
W295044603 cites W318585903 @default.
W295044603 doi "https://doi.org/10.1371/journal.pone.0126562" @default.
W295044603 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4433180" @default.
W295044603 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25978455" @default.
W295044603 hasPublicationYear "2015" @default.
W295044603 type Work @default.
W295044603 sameAs 295044603 @default.
W295044603 citedByCount "11" @default.
W295044603 countsByYear W2950446032015 @default.
W295044603 countsByYear W2950446032016 @default.
W295044603 countsByYear W2950446032017 @default.
W295044603 countsByYear W2950446032018 @default.
W295044603 countsByYear W2950446032019 @default.
W295044603 countsByYear W2950446032020 @default.
W295044603 countsByYear W2950446032021 @default.
W295044603 crossrefType "journal-article" @default.