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W2105873896 startingPage "638" @default.
W2105873896 abstract "During endomitosis, megakaryocytes undergo several rounds of DNA synthesis without division leading to polyploidization. In primary megakaryocytes and in the megakaryocytic cell line CHRF, loss or knock-down of p53 enhances cell cycling and inhibits apoptosis, leading to increased polyploidization. To support the hypothesis that p53 suppresses megakaryocytic polyploidization, we show that stable expression of wild-type p53 in K562 cells (a p53-null cell line) attenuates the cells' ability to undergo polyploidization during megakaryocytic differentiation due to diminished DNA synthesis and greater apoptosis. This suggested that p53's effects during megakaryopoiesis are mediated through cell cycle- and apoptosis-related target genes, possibly by arresting DNA synthesis and promoting apoptosis. To identify candidate genes through which p53 mediates these effects, gene expression was compared between p53 knock-down (p53-KD) and control CHRF cells induced to undergo terminal megakaryocytic differentiation using microarray analysis. Among substantially downregulated p53 targets in p53-KD megakaryocytes were cell cycle regulators CDKN1A (p21) and PLK2, proapoptotic FAS, TNFRSF10B, CASP8, NOTCH1, TP53INP1, TP53I3, DRAM1, ZMAT3 and PHLDA3, DNA-damage-related RRM2B and SESN1, and actin component ACTA2, while antiapoptotic CKS1B, BCL2, GTSE1, and p53 family member TP63 were upregulated in p53-KD cells. Additionally, a number of cell cycle-related, proapoptotic, and cytoskeleton-related genes with known functions in megakaryocytes but not known to carry p53-responsive elements were differentially expressed between p53-KD and control CHRF cells. Our data support a model whereby p53 expression during megakaryopoiesis serves to control polyploidization and the transition from endomitosis to apoptosis by impeding cell cycling and promoting apoptosis. Furthermore, we identify a putative p53 regulon that is proposed to orchestrate these effects." @default.
W2105873896 created "2016-06-24" @default.
W2105873896 creator A5012390434 @default.
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W2105873896 creator A5049590740 @default.
W2105873896 creator A5055901726 @default.
W2105873896 date "2012-06-15" @default.
W2105873896 modified "2023-10-16" @default.
W2105873896 title "Proposed megakaryocytic regulon of p53: the genes engaged to control cell cycle and apoptosis during megakaryocytic differentiation" @default.
W2105873896 cites W1511684319 @default.
W2105873896 cites W1964719993 @default.
W2105873896 cites W1968070905 @default.
W2105873896 cites W1971698113 @default.
W2105873896 cites W1979028006 @default.
W2105873896 cites W1980962718 @default.
W2105873896 cites W1982179481 @default.
W2105873896 cites W1988427974 @default.
W2105873896 cites W1991407069 @default.
W2105873896 cites W1997779012 @default.
W2105873896 cites W2000320999 @default.
W2105873896 cites W2006191070 @default.
W2105873896 cites W2006401070 @default.
W2105873896 cites W2007137412 @default.
W2105873896 cites W2007428590 @default.
W2105873896 cites W2007474198 @default.
W2105873896 cites W2012150510 @default.
W2105873896 cites W2013875083 @default.
W2105873896 cites W2016492849 @default.
W2105873896 cites W2018988114 @default.
W2105873896 cites W2019798761 @default.
W2105873896 cites W2019806947 @default.
W2105873896 cites W2022512410 @default.
W2105873896 cites W2022711719 @default.
W2105873896 cites W2033782292 @default.
W2105873896 cites W2035462635 @default.
W2105873896 cites W2041611895 @default.
W2105873896 cites W2044283608 @default.
W2105873896 cites W2044935554 @default.
W2105873896 cites W2045612398 @default.
W2105873896 cites W2045970079 @default.
W2105873896 cites W2046003114 @default.
W2105873896 cites W2049153875 @default.
W2105873896 cites W2052352695 @default.
W2105873896 cites W2053818267 @default.
W2105873896 cites W2077779082 @default.
W2105873896 cites W2088291857 @default.
W2105873896 cites W2089959166 @default.
W2105873896 cites W2090025028 @default.
W2105873896 cites W2092100121 @default.
W2105873896 cites W2092616341 @default.
W2105873896 cites W2095916340 @default.
W2105873896 cites W2097673163 @default.
W2105873896 cites W2100909453 @default.
W2105873896 cites W2101009136 @default.
W2105873896 cites W2105847906 @default.
W2105873896 cites W2106173953 @default.
W2105873896 cites W2116944394 @default.
W2105873896 cites W2117781669 @default.
W2105873896 cites W2119109687 @default.
W2105873896 cites W2119239003 @default.
W2105873896 cites W2130521757 @default.
W2105873896 cites W2134395817 @default.
W2105873896 cites W2136068915 @default.
W2105873896 cites W2136482324 @default.
W2105873896 cites W2138566050 @default.
W2105873896 cites W2143812686 @default.
W2105873896 cites W2150027419 @default.
W2105873896 cites W2152205088 @default.
W2105873896 cites W2156655196 @default.
W2105873896 cites W2157350771 @default.
W2105873896 cites W2161930186 @default.
W2105873896 cites W2163174294 @default.
W2105873896 cites W2171407623 @default.
W2105873896 cites W2329464336 @default.
W2105873896 cites W4233070887 @default.
W2105873896 cites W4294107304 @default.
W2105873896 cites W45534775 @default.
W2105873896 doi "https://doi.org/10.1152/physiolgenomics.00028.2012" @default.
W2105873896 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3426429" @default.
W2105873896 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/22548738" @default.
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