EC:2.4.2.30 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.4.2.30 (PARP)
13,611 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Heat shock factor 1 (HSF1) is a transcription factor that regulates expression of heat shock protein (HSP) genes in response to stress. HSPs are expressed at high levels in a wide range of tumors. It has been reported that HSF1 and HSPs are associated closely in tumorigenesis. In the present study, a screen was performed using a luciferase reporter under the control of a heat shock element to find inhibitors of HSF1 activity, and 2,4-bis(4-hydroxybenzyl)phenol (1), isolated from the rhizomes of Gastrodia elata, was identified as an active compound. This substance effectively inhibited HSF1 activity and decreased levels of HSP27 and HSP70. Compound 1 induced the degradation of HSF1 protein through dephosphorylation of HSF1 on S326, which decreases HSF1 protein stability. In addition, 1 also induced growth arrest and apoptosis of NCI-H460 human lung cancer cells. Markers of apoptosis, such as cleaved PARP and cleaved caspase-3, were detected after treatment with 1. Furthermore, cotreatment with 1 and conventional anticancer modalities such as paclitaxel, cisplatin, or ionizing radiation potentiated their effects on lung cancer cells. These results suggest that inhibition of HSF1 by 1 may help overcome resistance to conventional anticancer modalities in HSF1-overexpressed cancer cells.
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PMID:2,4-Bis(4-hydroxybenzyl)phenol inhibits heat shock transcription factor 1 and sensitizes lung cancer cells to conventional anticancer modalities. 2474 25

Poly(ADP-ribose) polymerase-1 (PARP-1) activation is a hallmark of oxidative stress-induced cellular injury that can lead to energetic failure and necrotic cell death via depleting the cellular nicotinamide adenine dinucleotide (NAD(+)) and ATP pools. Pharmacological PARP-1 inhibition or genetic PARP-1 deficiency exert protective effects in multiple models of cardiomyocyte injury. However, the connection between nuclear PARP-1 activation and depletion of the cytoplasmic and mitochondrial energy pools is poorly understood. By using cultured rat cardiomyocytes, here we report that ring finger protein 146 (RNF146), a cytoplasmic E3-ubiquitin ligase, acts as a direct interactor of PARP-1. Overexpression of RNF146 exerts protection against oxidant-induced cell death, whereas PARP-1-mediated cellular injury is augmented after RNF146 silencing. RNF146 translocates to the nucleus upon PARP-1 activation, triggering the exit of PARP-1 from the nucleus, followed by rapid degradation of both proteins. PARP-1 and RNF146 degradation occurs in the early phase of myocardial ischemia-reperfusion injury; it precedes the induction of heat shock protein expression. Taken together, PARP-1 release from the nucleus and its rapid degradation represent newly identified steps of the necrotic cell death program induced by oxidative stress. These steps are controlled by the ubiquitin-proteasome pathway protein RNF146. The current results shed new light on the mechanism of necrotic cell death. RNF146 may represent a distinct target for experimental therapeutic intervention of oxidant-mediated cardiac injury.
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PMID:Modulation of poly(ADP-ribose) polymerase-1 (PARP-1)-mediated oxidative cell injury by ring finger protein 146 (RNF146) in cardiac myocytes. 2484 55

A small heat shock protein (HSP), HSP20 (HSPB6) is ubiquitously expressed in various tissues and has several functions. We previously reported that the expression of HSP20 protein in human hepatocellular carcinoma (HCC) cells is inversely proportional to the progression of HCC. In addition, we showed that HSP20 is associated with phosphoinositide 3-kinase (PI3K) and inhibits the proliferation of HCC cells via suppression of the AKT signaling pathway. However, the relationship between HSP20 and apoptosis in HCC has not yet been elucidated. To clarify whether HSP20 is implicated in the apoptosis of HCC cells, in the present study, we examined the effect of HSP20 on caspases, the central regulators of apoptosis, using human HCC-derived HuH7 cells that are transfected with wild-type human HSP20 (HSP20-overexpressing cells). The cleavage of caspase-3 and caspase-7 in HSP20-overexpressing cells was enhanced compared with the empty vector-transfected cells (control cells). In addition, the cleavage of nuclear poly (ADP-ribose) polymerase (PARP) in HSP20-overexpressing cells was also strengthened. We further investigated the direct targets of HSP20 focusing on Bcl-2 family proteins in the HSP20-overexpressing cells. HSP20 proteins in the cells were coimmunoprecipitated with Bax. On the contrary, Bad, Bcl-2 and Bcl-xL were not coimmunoprecipitated with HSP20. These findings strongly suggest that HSP20 directly associates with Bax and stimulates caspase cascade in human HCC cells.
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PMID:Heat shock protein 20 (HSPB6) regulates apoptosis in human hepatocellular carcinoma cells: Direct association with Bax. 2496 89

The systemic therapeutic management of breast cancer has undergone significant transformation in the past decade. Without targeted therapies, conventional treatment with cytotoxic agents has reached the limit of its potential in terms of patient survival for most types of cancer. Enhanced understanding of the pathogenesis of tumor cell growth and metastasis has led to the identification of signaling growth pathways as targets for these directed therapies. Novel therapies targeted to HER2/neu, epidermal growth factor receptor (EGFR), vascular endothelial growth factor (VEGF), poly(ADP ribose) polymerase (PARP), mammalian target of rapamycin (mTOR), histone deacetylase (HDAC), the heat shock protein, and cyclin-dependent kinase (CDK) inhibitors have been developed and have demonstrated some efficacy in breast cancer. Recognition and management of the toxicities associated with targeted therapies is imperative. This review will describe the clinical development and utilization of targeted therapies currently in use or in clinical trials, with a focus on considerations for the oncology advanced practitioner.
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PMID:Targeted Therapies in Breast Cancer: Implications for Advanced Oncology Practice. 2611 69

Ovarian carcinoma is initially sensitive to platinum-based therapy, but become resistant over time. The study of cancer sensitizing substance is therefore the major challenge for a number of scientific groups. Our experiments were carried out on human ovarian adenocarcinoma A2780cis cells resistant to cisplatin and their response to 2-(4'fluoro-phenylamino)-4H-1,3-thiazine[6,5-b]indole (thiazine[6,5-b]indole) and/or heat shock protein (Hsp) 90 inhibitor 17-dimethylaminoethylamino-17-demethoxygeldanamycin (17-DMAG) using proliferation assay, cell cycle analysis and monitoring of apoptosis were examined. A2780cis cells revealed the same fold of resistance to Hsp90 inhibitor 17-DMAG as it is declared for cisplatin (18 times), but only 3.2 times for thiazine[6,5-b]indole. Our results showed that the combination of thiazine[6,5-b]indole and 17-DMAG significantly reduced proliferation of A2780cis cells and led to their accumulation in G2/M phase of the cell cycle. Moreover, both thiazine[6,5-b]indole as well as 17-DMAG increased the number of annexin V positive A2780cis cells in time dependent manner. Interestingly, thiazine[6,5-b]indole treatment significantly activated also caspase-3 compared to untreated or 17-DMAG-treated cells and reduced mitochondrial membrane potential (MMP) of A2780cis cells with more significant decline after combined treatment. In this regard, the incubation of A2780cis cells with thiazine[6,5-b]indole induced PARP protein cleavage as well as an increased level of Bad protein with more pronounced changes after combined treatment. Importantly, Hsp70 protein was not upregulated in A2780cis cells neither by individual treatment nor by mutual combination. Our results signify antiproliferative and pro-apoptotic effects of novel thiazine[6,5-b]indole potentiated by Hsp90 inhibitor 17-DMAG in ovarian adenocarcinoma cells resistant to cisplatin and therefore represents new strategy in cancer treatment.
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PMID:Inhibition of heat shock protein (Hsp) 90 potentiates the antiproliferative and pro-apoptotic effects of 2-(4'fluoro-phenylamino)-4H-1,3-thiazine[6,5-b]indole in A2780cis cells. 2788 49

A model has been proposed in which JIL-1 kinase-mediated H3S10 and H2Av phosphorylation is required for transcriptional elongation and heat shock-induced chromatin decondensation. However, here we show that although H3S10 phosphorylation is indeed compromised in the H2Av null mutant, chromatin decondensation at heat shock loci is unaffected in the absence of JIL-1 as well as of H2Av and that there is no discernable decrease in the elongating form of RNA polymerase II in either mutant. Furthermore, mRNA for the major heat shock protein Hsp70 is transcribed at robust levels in both H2Av and JIL-1 null mutants. Using a different chromatin remodeling paradigm that is JIL-1 dependent, we provide evidence that ectopic tethering of JIL-1 and subsequent H3S10 phosphorylation recruits PARP-1 to the remodeling site independently of H2Av phosphorylation. These data strongly suggest that H2Av or H3S10 phosphorylation by JIL-1 is not required for chromatin decondensation or transcriptional elongation in Drosophila.
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PMID:H2Av facilitates H3S10 phosphorylation but is not required for heat shock-induced chromatin decondensation or transcriptional elongation. 2880 2

Tuberculosis remains a leading health problem worldwide and still accounts for about 1.3 million deaths annually. Expression of the mouse Sp110 nuclear body protein (Sp110) upregulates the apoptotic pathway, which plays an essential role in enhancing host immunity to Mycobacterium tuberculosis (Mtb). However, the mechanism of this upregulation is unclear. Here, we have identified 253 proteins in mouse macrophages that interact with Sp110, of which 251 proteins were previously uncharacterized. The results showed that Sp110 interacts with heat shock protein 5 (Hspa5) to activate endoplasmic reticulum (ER) stress-induced apoptosis, and that this is essential for Sp110 enhanced macrophage resistance to Mtb. Inhibition of the ER stress pathway abolishing the Sp110-enhanced macrophage apoptosis and resulted in increased intracellular survival of Mtb in macrophages overexpressing Sp110 Further studies revealed that Sp110 also interacts with the RNA binding protein, Ncl to promote its degradation. Consequently, the expression of Bcl2, usually stabilized by Ncl, was downregulated in Sp110 overexpressing macrophages. Moreover, overexpression of Sp110 promotes degradation of ribosomal protein Rps3a, resulting in upregulation of the activity of the pro-apoptotic poly (ADP-ribose) polymerase (PARP). In addition, macrophages from transgenic cattle with increased Sp110 expression confirmed that activation of the ER stress response is the main pathway through which Sp110-enhanced macrophages impart resistance to Mtb. This work has revealed the mechanism of Sp110 enhanced macrophage apoptosis in response to Mtb infection, and provides new insights into the study of host-pathogen interactions.
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PMID:Sp110 enhances macrophage resistance to Mycobacterium tuberculosis via inducing endoplasmic reticulum stress and inhibiting anti-apoptotic factors. 2896 51

Exposure of cells to bortezomib (BTZ) could activate heat shock protein (HSP) expression, which is regulated mainly by heat shock factor 1 (HSF1). We determined the role of Apg-1 (HSPA4L, a member of the HSP110 family) in HSF1 activation and bortezomib sensitivity by silencing HSF1 in multiple myeloma (MM) cells. We observed that the Apg-1 protein level was upregulated as BTZ concentration increased. To investigate the mechanism underlying Apg-1 induction, we evaluated the HSF1 translocation and found BTZ-inducible transposition to the nucleus of HSF1. In addition, cleaved caspase 3 and PARP might account for increased BTZ sensitivity on Apg-1 silencing. Furthermore, silencing HSF1 with shRNA or triptolide resulted in significant BTZ sensitivity. It had a more profound effect on cell death caused by BTZ when myeloma cells were adherent to bone marrow stromal cell lines (Hs-5). In summary, we found that Apg-1 knockdown sensitized myeloma cells to bortezomib treatment, which may provide a new approach in multiple myeloma treatment.
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PMID:Role of Apg-1 in HSF1 activation and bortezomib sensitivity in myeloma cells. 3189 17

Since heat shock protein (HSP27) is a prognostic marker in cervical cancer, in the present study, the apoptotic mechanism of lambertianic acid (LA) was investigated in human cervical cancers in association with HSP27/STAT3/AKT signaling axis. LA exerted significant cytotoxicity, induced sub-G1 population, and increased the cleavage of Poly (ADP-ribose) polymerase (PARP) and cysteine aspartyl-specific protease 3 (caspase3) in HeLa and Caski cancer cells. Consistently, LA downregulated anti-apopotic genes such as B-cell lymphoma 2 (Bcl-2) and inhibitors of apoptosis proteins (c-IAP) in HeLa and Caski cells. Furthermore, LA-inhibited phosphorylation of HSP27, signal transducer, and activator of transcription 3 (STAT3) and Protein kinase B (AKT) through disturbing the binding of HSP27 with STAT3 or AKT in HeLa cells. Notably, LA upregulated the level of miR216b in HeLa and Caski cells. Consistently, miR216b mimic suppressed phosphorylation of HSP27 and reduced the expression of pro-PARP, while miR216b inhibitor reversed the ability of LA to attenuate phosphorylation of AKT, HSP27, and STAT3 and to reduce the expression of pro-PARP in HeLa cells. Overall, our findings suggest that miRNA216b mediated inhibition of HSP27/STAT3/ AKT signaling axis is critically involved in LA-induced apoptosis in cervical cancers.
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PMID:MicroRNA216b mediated downregulation of HSP27/STAT3/AKT signaling is critically involved in lambertianic acid induced apoptosis in human cervical cancers. 3282 82

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