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Query: UMLS:C0004134 (
ataxia
)
15,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Long-term exposure (72 h) to hedamycin, a monofunctional DNA alkylator of the pluramycin class of antitumor antibiotics, decreased growth of mammalian cells by 50% at subnanomolar concentrations. Short-term treatment (4 h) rapidly reduced DNA synthesis by 50% also at subnanomolar concentrations, but substantially higher levels were needed to block RNA synthesis while protein synthesis even at very high hedamycin concentrations remained unaffected.
Hedamycin
treatment at concentrations below its growth IC(50) induced only a transient and temporary accumulation of cells in G(2). Somewhat higher concentrations resulted in substantial S-phase arrest, and at increasing concentrations, complete cell cycle arrest in G(1) was observed without the appearance of a sub-G(1) cell population. Neither inhibition of cell growth nor cell cycle arrest appeared to be dependent on
ataxia
and Rad-related kinase expression. DNA damage checkpoint proteins including p53, chk1, and chk2 were differentially activated by hedamycin depending on the concentration and duration of treatment. The level of downstream cell cycle regulators such as cdc25A, E2F1, cyclin E, and p21 were also altered under conditions that induced cell cycle arrest, but atypically, p21 overexpression was observed only in S-phase-arrested cells. Apoptotic indicators were only observed at moderate hedamycin concentrations associated with S-phase arrest, while increasing concentrations, when cells were arrested in G(1), resulted in a reduction of these signals. Taken together, the responses of cells to hedamycin are distinct with regard to its effect on cell cycle but also in the unusual concentration-dependent manner of activation of DNA damage and cell cycle checkpoint proteins as well as the induction of apoptotic-associated events.
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PMID:DNA damage responses triggered by a highly cytotoxic monofunctional DNA alkylator, hedamycin, a pluramycin antitumor antibiotic. 1514 Oct 15
Genotoxic treatments, such as UV light, camptothecin, and adozelesin, stall DNA replication and subsequently generate DNA strand breaks. Typically, DNA breaks are reflected by an increase in
ataxia
and Rad-related kinase (ATR)-regulated phosphorylation of H2AX (gammaH2AX) and require replication fork movement. This study examined the potential of the monofunctional DNA alkylating agent hedamycin, a powerful inhibitor of DNA replication, to induce DNA strand breaks, phosphorylated H2AX (gammaH2AX) foci, and chromosome aberrations.
Hedamycin
treatment of HCT116 carcinoma cells resulted in a rapid induction of DNA strand breaks accompanied by increasing H2AX phosphorylation and focalization. Unlike many other treatments that also stall replication, such as UV, camptothecin, and adozelesin, gammaH2AX formation was not suppressed in ATR-compromised cells but actually increased. Similarly, hedamycin induction of gammaH2AX is not dependent on ataxia telangiectasia mutated or DNA-protein kinase, and pretreatment of cells with the phosphatidylinositol 3-kinase-related kinase inhibitor caffeine did not substantially reduce induction of H2AX phosphorylation by hedamycin. Furthermore, the DNA replication inhibitor aphidicolin only modestly depressed hedamycin-induced gammaH2AX formation, indicating that hedamycin-induced DNA double-strand breaks are not dependent on fork progression. In contrast, camptothecin- and adozelesin-induced gammaH2AX was strongly suppressed by aphidicolin. Moreover, after 24 hours following a short-term hedamycin treatment, cells displayed high levels of breaks in interphase nuclear DNA and misjoined chromosomes in metaphase cells. Finally, focalization of a tightly bound form of Ku80 was observed in interphase cells, consistent with the subsequent appearance of chromosomal aberrations via abnormal nonhomologous end joining. Overall, this study has revealed a disparate type of DNA damage response to stalled replication induced by a bulky DNA adduct inducer, hedamycin, that seems not to be highly dependent on ATR or DNA replication.
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PMID:Hedamycin, a DNA alkylator, induces (gamma)H2AX and chromosome aberrations: involvement of phosphatidylinositol 3-kinase-related kinases and DNA replication fork movement. 1609 33
