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Query: UNIPROT:A9QXG9 (
bcl-2
)
7,497
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cell cycle checkpoints establish the timing and strength of arrest, repair and apoptosis responses to damaging treatments. We designed flow cytometric assays to measure cell cycle arrest and apoptosis in acute myeloid leukemia (AML) samples treated in vitro with relevant therapeutic agents so as to functionally characterize checkpoints in these samples and to ask if checkpoint abnormalities are common in AML and contribute to therapeutic failures. We show here that cell cycle responses to daunomycin (DNR), cytosine arabinoside (
ARA-C
) and gamma irradiation (RAD) were reproducibly treatment agent- and dose-dependent and distinct in different myeloid cell lines. DNR treatments differentially induced cell accumulations in the gap 2 and mitosis (G2/M) phases of the cell cycle and/or in the gap 1 (G1) phase, as did RAD, while
ARA-C
induced accumulations in the DNA synthesis (S) phase or in the G1 phase. Flow cytometric gates were devised to exclude lymphocytes and mature neutrophils in analyses of primary myeloid cell samples. Cell subsets in bone marrow samples from normal donors were thus enriched for myeloid constituents and used as normal myeloid cell controls. Proliferating cell nuclear antigen (PCNA) immunostaining was used to further identify actively dividing cell subpopulations in primary cell samples. AML samples were similarly analyzed and the majority showed lower DNA synthesis cell cycle phase (S) fractions and lower PCNA-positive fractions than normal myeloid cells, suggesting that AMLs are generally less proliferative in these culture conditions. Exceptional AML samples with high S phase fractions had cytogenetic abnormalities associated with poor prognosis. Most AML samples mounted weak cell cycle responses relative to normal myeloid cells, while a minority showed robust, agent-specific cell cycle arrests. This non-responsiveness was not simply associated with lower cycling indices-neither the response patterns nor the degrees of response were correlated with untreated S phase fractions or with PCNA-positive fractions. Cell cycle responses were also not associated with clinical parameters including patient age, FAB class, or white blood cell count, nor with immunophenotypic features including CD34 status, nor with specific cytogenetic markers. This suggests that functional cell cycle response assays could provide unique diagnostic information in AML. These assays might also have prognostic value as
ARA-C
induced G1 arrests and DNR-specific G2/M arrests tended to be associated with failure to achieve clinical remission. In addition, G1 arrests after
ARA-C
and G2/M accumulations after DNR treatments tended to be more robust in samples that had previously been shown to be more highly immunopositive for
bcl-2
expression. This data suggests that the association of
bcl-2
expression with particular cell cycle responses to therapeutic agents may contribute to the association of
bcl-2
with poor clinical responses in AML. These data provide the basis for further laboratory studies aimed at examining specific cell cycle arrests as mechanisms of therapeutic resistance and prospective studies aimed at rigorously assessing the prognostic utility of in vitro assays of checkpoint function.
...
PMID:Cell cycle perturbations in acute myeloid leukemia samples following in vitro exposures to therapeutic agents. 961 14
Biology of HIV-1 associated neoplasias is modulated by viral and host factors. In addition the development of tumors and their response to therapy may be further influenced by long-term treatment of HIV-1 patients with nucleoside analogs such as AZT (3'-azido-3'deoxythymidine), ddI (2',3'-dideoxyinosine), ddC (2',3'-dideoxycytidine), d4T (2',3'-didehydro-2'3'-dideoxythymidine), and 3TC [(-)-beta-L-2',3'-dideoxy-3'-thiacytidine] alone or in combination. As these compounds can trigger mechanisms involved in chemoresistance, we tested whether prolonged in vitro treatment of H9 cells (T-cell lymphoma) with AZT alters sensitivity of lymphoma cells to antitumor agents used for AIDS-associated malignancies. H9 cells grown for more than two years in medium containing 250 microM AZT developed resistance to the toxic effects of AZT while retaining sensitivity for other nucleoside analogs including ddC or cytosine arabinoside (
ARA-C
). These cells designated H9rAZT250 were 2 to 10-fold less sensitive to the toxic effects of antitumor agents, including cisplatin (CDDP), vincristine (VCR), doxorubicin (DOX) and etoposide (VP-16), when compared with parental H9 cells. The resistance of H9rAZT250 cells to antitumor agents was associated with inhibition of apoptosis as demonstrated by ultrastructural investigations and DNA-fragmentation assay (ELISA). The expression of the antiapoptotic gene
bcl-2
was increased in H9rAZT250 cells while expression of other genes involved in the regulation of apoptosis such as c-myc, p53 and Fas was not changed. These results demonstrate that prolonged in vitro treatment of H9 lymphoma cells with AZT results in the development of resistance to antitumor agents in association with inhibition of apoptosis and increased expression of
bcl-2
. Therefore AZT long-term treatment of some HIV-1 patients with malignancies may have affected behavior of tumor cells including response to therapy.
...
PMID:Azidothymidine resistance of H9 human T-cell lymphoma cells is associated with decreased sensitivity to antitumor agents and inhibition of apoptosis. 985 Jul 37
