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Query: UNIPROT:P16104 (
H2AX
)
3,930
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Recently, cytolethal distending toxin V (CDT-V), a new member of the CDT family, was identified in
Shiga
toxin-producing Escherichia coli (STEC) O157 and particular non-O157 serotypes. Here we investigated the biological effects of CDT-V from STEC O157:H(-) (strain 493/89) on human endothelial cells, which are believed to be major pathogenetic targets in severe STEC-mediated diseases. CDT-V caused dose-dependent G(2)/M cell cycle arrest leading to distension, inhibition of proliferation, and death in primary human umbilical vein endothelial cells (HUVEC) and two endothelial cell lines, EA.hy 926 cells (HUVEC derived) and human brain microvascular endothelial cells (HBMEC). The cell cycle effects of CDT-V were cell type specific. In HUVEC and EA.hy 926 cells, CDT-V caused a slowly developing but persistent G(2)/M block which resulted in delayed nonapoptotic cell death. In contrast, in HBMEC, CDT-V induced a rapidly evolving but transient G(2)/M block which was followed by progressive, mostly apoptotic cell death. In both HBMEC and EA.hy 926 cells, G(2)/M arrest was preceded by the early accumulation of a phosphorylated inactive form of cdc2 kinase. Significant G(2)/M arrest and inhibition of proliferation in both HUVEC and each of the endothelial cell lines were induced by 2 to 15 min of exposure to CDT-V, indicating that the effects of the toxin are irreversible. CDT-V-treated HBMEC and EA.hy 926 cells displayed fragmented nuclei and expressed phosphorylated histone protein
H2AX
, indicative of DNA damage followed by a DNA repair response. Our data demonstrate that CDT-V causes irreversible damage to human endothelial cells and thus may contribute to the pathogenesis of STEC-mediated diseases.
...
PMID:Cytolethal distending toxin from Shiga toxin-producing Escherichia coli O157 causes irreversible G2/M arrest, inhibition of proliferation, and death of human endothelial cells. 1561 95
In this report, we studied the role of DNA damage signaling pathway in shiga toxin (STX)-induced mammalian cell death.
Shiga
toxin 1 exhibited cytotoxic activity in different mammalian cells such as HeLa cells, mouse embryo fibroblasts, and Caco-2 cells (a human intestinal primary fibroblast cell line). STX-1 was found to induce the release of cytochrome c from the mitochondria, nuclear condensation, and fragmentation of chromosomal DNA. STX-1 activated DNA damage signaling as determined by induction of
H2AX
phosphorylation and cleavage of PARP. Inhibition of caspase-3 reduced STX-1-induced phosphorylation of
H2AX
and nuclear condensation. It was also found that STX-1-induced p53 expression, and activated ATM in mammalian cells. STX-1-induced nuclear condensation significantly reduced in p53-, and ATM-knockout cells suggesting an involvement of p53 and ATM in transducing signals produced by STX in inducing apoptosis in mammalian cells. This is the first demonstration of involvement of ATM/p53 in STX-inducing mammalian cell death.
...
PMID:Activation of p53/ATM-dependent DNA damage signaling pathway by shiga toxin in mammalian cells. 2240 15
