Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.7.7 (DNA polymerase)
 17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cells deficient in DNA polymerase beta (beta-pol) are impaired in base excision repair (BER) and hypersensitive to various DNA damaging agents, including methylating mutagens. Hypersensitivity of beta-pol-deficient cells to methylating agents is because of induction of apoptosis (Ochs et al., Cancer Res., 59: 1544-1551, 1999), indicating incompletely repaired DNA damage to trigger the response. Here we show that defective BER in beta-pol-null cells results in an early and transient increase in the frequency of DNA single-strand breaks on treatment with methyl methanesulfonate. These breaks arising as repair intermediates are not likely to trigger apoptosis directly because they were repaired efficiently and generated both in resting and proliferating cells, whereas only proliferating cells underwent with high frequency apoptosis after methylation. Therefore, we propose that single-strand breaks are converted into another kind of critical apoptosis-triggering lesion during replication. These critical secondary DNA lesions are likely to be non-repaired DNA double-strand breaks (DSBs), which are formed at higher frequency in beta-pol-null than in wild-type cells. Apoptosis was a late response not detectable before 24 h after methylation and was preceded by DSBs formation, extensive chromosomal breakage, and decline in Bcl-2 level and caspase-9 and caspase-3 activation. Caspase-8 was not significantly activated. Transfection of beta-pol-null cells with bcl-2 protected against methylation-induced apoptosis, indicating Bcl-2 to be causally involved. Overall, the data demonstrate that in cells lacking beta-pol, defective BER results in incompletely repaired DNA damage, which triggers apoptosis in a replication-dependent way by activating the mitochondrial death pathway. It is suggested that DSBs act as a critical ultimate apoptosis-inducing lesion.
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PMID:Deficiency in DNA polymerase beta provokes replication-dependent apoptosis via DNA breakage, Bcl-2 decline and caspase-3/9 activation. 1188 30

Apoptosis and necrosis represent two distinct types of cell death. Apoptosis possesses unique morphologic and biochemical features which distinguish this mechanism of programmed cell death from necrosis. Extrinsic apoptotic cell death is receptor-linked and initiates apoptosis by activating caspase 8. Intrinsic apoptotic cell death is mediated by the release of cytochrome c from mitochondrial and initiates apoptosis by activating caspase 3. Cancer chemotherapy utilizes apoptosis to eliminate tumor cells. Agents which bind to the minor groove of DNA, like camptothecin and Hoechst 33342, inhibit topoisomerase I, RNA polymerase II, DNA polymerase and initiate intrinsic apoptotic cell death. Hoechst 33342-induced apoptosis is associated with disruption of TATA box binding protein/TATA box complexes, replication protein A/single-stranded DNA complexes, topoisomerase I/DNA cleavable complexes and with an increased intracellular concentration of E2F-1 transcription factor and nitric oxide concentration. Nitric oxide and transcription factor activation or respression also regulate the two apoptotic pathways. Some human diseases are associated with excess or deficient rates of apoptosis, and therapeutic strategies to regulate the rate of apoptosis include inhibition or activation of caspases, mRNA antisense to reduce anti-apoptotic factors like Bcl-2 and survivin and recombinant TRAIL to activate pro-apoptotic receptors, DR4 and DR5.
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PMID:Apoptosis: biochemical aspects and clinical implications. 1241 95

The most characteristic change in psoriasis is markedly increased, persistent keratinocyte proliferation. The pathogenic mechanism underlying the hyperproliferation of keratinocytes in psoriasis is still not completely clarified. Cellular FLIP (cFLIP) is a close homologue of caspase 8 without the caspase activity that inhibits Fas signaling. The cFLIP protein is often expressed in human tumors and is believed to suppress antitumor immune responses involving the Fas system. PCNA is an auxiliary protein of DNA polymerase-5, which appears early in G1 and becomes more abundant in the S phase, thereafter declining during G2/M phases of the cell cycle. Thus, the PCNA staining profiles were used as markers of keratinocyte proliferation. Our objective was to obtain insight into the role of c-FLIP in kerarinocyte proliferation and to investigate further the pathogenesis of psoriasis. Using real time quantitative reverse transcriptase-polymerase chain reactions (RT-PCR) and immunohistochemical staining, we studied the expression of c-FLIP mRNA and protein in skin biopsies from psoriatic patients and healthy subjects. Apoptotic cells were evaluated using the terminal deoxynucleotide transferase (TdT) mediated deoxyuridine triphosphate nick end labeling (TUNEL) method. c-FLIP mRNA and protein expressions were significantly greater in lesional psoriatic epidermis compared with normal and non-lesional psoriatic epidermis (P < 0.01). c-FLIP was strongly expressed within all epidermal layers in lesional psoriatic skin, whereas weak c-FLIP staining was restricted to the basal and suprabasal layers in normal and non-lesional psoriatic epidermis. c-FLIP protein levels significantly correlated with PASI score, PCNA and apoptosis index (Spearman's rho = 0.83; rho = 0.61; rho = - 0.41; P < 0.05, respectively). We conclude that over-expression of c-FLIP in lesional psoriatic skin might contribute to abnormal keratinocyte proliferation due to a functional decrease in the apoptotic pathway.
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PMID:Expression of antiapoptotic protein c-FLIP is upregulated in psoriasis epidermis. 1905 32