EC:2.7.11.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Development of new molecular target therapeutic agents is expected to improve clinical outcome, ideally with efficacy in both single and combined treatment modalities. Because of the potential for affecting multiple signaling pathways, inhibition of the molecular chaperone heat shock protein 90 (Hsp90) may provide a strategy for enhancing tumor cell radiation sensitivity. Therefore, we have investigated the effects of Hsp90 inhibitor 17-Allylamino-17-demethoxygeldanamycin (17-AAG) on radiation sensitivity of human tumor cells in vitro. We evaluated the effects of 17-AAG using oral squamous cell carcinoma (OSCC) cell lines (HSC2, HSC3 and HSC4), including two types of SAS cells with a wild-type (SAS/neo), or a mutated p53 status (SAS/Trp248). Apoptosis and clonogenic survival were examined after exposure of the cells to radiation. For mechanistic insight, we analyzed cell cycle, several signaling factors and molecular markers including Akt, Raf-1, p38 MAPK, Cdc25B, Cdc25C, Cdk2 and p21. Treatment of OSCC cell lines with 17-AAG resulted in cytotoxicity and, when combined with radiation, enhanced the radiation response. However, the responses depended on p53 status. 17-AAG enhanced the radiation sensitivity significantly and induced apoptosis in the SAS/neo cell which has a wild-type p53. But the radiation sensitizing effect of 17-AAG was limited in the SAS/Trp248 cell which has a mutated p53. We also measured the total levels of several prosurvival and cell cycle signaling proteins. Akt, Raf-1 and Cdc25C expression were down-regulated in 17-AAG-treated cells. These data indicate that 17-AAG inhibits the proliferation and enhances the radiation sensitivity of human OSCC cells in various levels. However, enhancement of radiation sensitivity by the Hsp90 inhibitor depended on p53 status. Therefore, Hsp90 therapy combined with radiation might synergize with conventional therapies in patients with wild-type p53.
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PMID:P53-dependent radiosensitizing effects of Hsp90 inhibitor 17-allylamino-17-demethoxygeldanamycin on human oral squamous cell carcinoma cell lines. 1701 41

NDRG1 is known to play important roles in both androgen-induced cell differentiation and inhibition of prostate cancer metastasis. However, the proteins associated with NDRG1 function are not fully enumerated. Using coimmunoprecipitation and mass spectrometry analysis, we identified 58 proteins that interact with NDRG1 in prostate cancer cells. These proteins include nuclear proteins, adhesion molecules, endoplasmic reticulum (ER) chaperons, proteasome subunits, and signaling proteins. Integration of our data with protein-protein interaction data from the Human Proteome Reference Database allowed us to build a comprehensive interactome map of NDRG1. This interactome map consists of several modules such as a nuclear module and a cell membrane module; these modules explain the reported versatile functions of NDRG1. We also determined that serine 330 and threonine 366 of NDRG1 were phosphorylated and demonstrated that the phosphorylation of NDRG1 was prominently mediated by protein kinase A (PKA). Further, we showed that NDRG1 directly binds to beta-catenin and E-cadherin. However, the phosphorylation of NDRG1 did not interrupt the binding of NDRG1 to E-cadherin and beta-catenin. Finally, we showed that the inhibition of NDRG1 expression by RNA interference decreased the ER inducible chaperon GRP94 expression, directly proving that NDRG1 is involved in the ER stress response. Intriguingly, we observed that many members of the NDRG1 interactome are androgen-regulated and that the NDRG1 interactome links to the androgen response network through common interactions with beta-catenin and heat shock protein 90. Therefore we overlaid the transcriptomic expression changes in the NDRG1 interactome in response to androgen treatment and built a dual dynamic picture of the NDRG1 interactome in response to androgen. This interactome map provides the first road map for understanding the functions of NDRG1 in cells and its roles in human diseases, such as prostate cancer, which can progress from androgen-dependent curable stages to androgen-independent incurable stages.
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PMID:Proteomics analysis of the interactome of N-myc downstream regulated gene 1 and its interactions with the androgen response program in prostate cancer cells. 1722 Apr 78

Although the involvement of heat shock protein 90 (HSP90), mitogen-activated protein kinase (MAPK) cascades and organelle dysfunction in plant hypersensitive cell death has been suggested, the mutual relationship among them has not been elucidated. Here, we show the molecular network of HSP90, the wound-induced protein kinase (WIPK)/salicylic acid-induced protein kinase (SIPK)-mediated MAPK cascade and mitochondrial dysfunction in tobacco mosaic virus (TMV) resistance gene N-dependent cell death. p50, the Avr component for N, NtMEK2(DD), a constitutively active form of a MAPK kinase of WIPK/SIPK, and a mammalian pro-apoptotic factor Bax were used for cell death induction. Suppression of HSP90 and treatment with geldanamycin, a specific inhibitor of HSP90, compromised p50- but not NtMEK2(DD)- or Bax-mediated cell death accompanying the reduction of NtMEK2, WIPK and SIPK activation. In WIPK/SIPK-double knockdown plants, p50- and NtMEK2(DD)- but not Bax-mediated cell death was suppressed. All three types of cell death induced mitochondrial dysfunction, but they were similarly suppressed by Bcl-xL, which is a mammalian anti-apoptotic factor, and prevents mitochondrial dysfunction in plants as it does in animals in the cell death signal pathway. Taken together with the expression profile of hypersensitive reaction marker genes, it was indicated that the MAPK cascade functions downstream of HSP90 and transduces the cell death signal to mitochondria for N gene-dependent cell death. Furthermore, we found that WIPK and SIPK are functionally redundant in cell death signaling using WIPK/SIPK single or double knockdown plants.
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PMID:MAP kinases function downstream of HSP90 and upstream of mitochondria in TMV resistance gene N-mediated hypersensitive cell death. 1728 94

Pharmacokinetic evaluation is an essential component of drug discovery and should be conducted early in the process so that those compounds with the best chance of success are prioritized and progressed. However, pharmacokinetic analysis has become a serious bottleneck during the 'hit-to-lead' and lead optimization phases due to the availability of new targets and the large numbers of compounds resulting from advances in synthesis and screening technologies. Cassette dosing, which involves the simultaneous administration of several compounds to a single animal followed by rapid sample analysis by liquid chromatography/tandem mass spectrometry, was developed to increase the throughput of in vivo pharmacokinetic screening. Although cassette dosing is advantageous in terms of resources and throughput, there are possible complications associated with this approach, such as the potential for compound interactions. Following an overview of the cassette dosing literature, this article focuses on the application of the technique in anticancer drug discovery. Specific examples are discussed, including the evaluation of cassette dosing to assess pharmacokinetic properties in the development of cyclin-dependent kinase and heat shock protein 90 inhibitors. Subject to critical analysis and validation in each case, the use of cassette dosing is recommended in appropriate chemical series to enhance the efficiency of drug discovery and reduce animal usage.
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PMID:The application of cassette dosing for pharmacokinetic screening in small-molecule cancer drug discovery. 1730 44

Cytosolic prostaglandin (PG) E synthase (cPGES) is constitutively expressed in various cells and regulates cyclooxygenase (COX)-1-dependent immediate PGE(2) generation. Its primary structure is identical to co-chaperone p23, a heat shock protein 90 (Hsp90)-binding protein. We have revealed that Hsp90 regulated both cPGES/p23 and its client protein kinase CK2. In this study, in order to examine the role of cPGES/p23 in vivo, we generated mice deficient in cPGES/p23 by a targeted disruption of exons 2 and 3, containing Tyr9, which is essential for catalytic activity. Heterozygotes are viable, fertile, and appear normal, despite a decrease in cPGES/p23 protein level. A generation of offsprings derived from intercrosses of cPGES/p23 homozygous mice revealed that 109, 247, and 10 pups were wild type, heterozygous, and homozygous, respectively; however, all homozygotes died at birth. The absence of viable null mutants, with heterozygotes and wild-type offspring obtained at a ratio of approximately 2:1, indicated that homozygosity for the cPGES/p23 null mutant leads to peri-natal lethality. Embryos homozygous for cPGES/p23-null had lower body weights than wild-type embryos, and abnormal morphology of skin and lungs. Moreover, the PGE(2) content in the lungs of cPGES/p23-null embryos was lower than that of the wild type. These results indicate that cPGES-derived PGES is involved in the normal development of mouse embryonic lung.
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PMID:Knockout mice lacking cPGES/p23, a constitutively expressed PGE2 synthetic enzyme, are peri-natally lethal. 1771 10

Oligodendrocyte progenitors are highly susceptible to various insults. Their limited antioxidant defenses and high levels of apoptotic factors, such as Bax and pro-caspase-3 contribute to their sensitivity. We previously showed that dopamine (DA) is toxic to oligodendrocyte progenitors by inducing superoxide generation, lowering glutathione levels and promoting apoptosis through caspase-3 activation. In contrast, factors that contribute to cell survival and defense against dopamine (DA) toxicity are less studied. Here, we explored the role of two molecules which play important roles in cell survival, namely the heat shock protein 90 (HSP-90) and the protein kinase Akt, using the selective inhibitors, 17-AAG and Akt inhibitor III, respectively. The HSP-90 inhibitor caused a decrease in P-Akt level, induced caspase-3 activation, increased nuclear condensation and caused a loss in cell viability. Furthermore, 17-AAG potentiated DA-induced apoptosis by enhancing caspase-3 activation. In addition, the Akt inhibitor alone exacerbated DA toxicity and in combination with 17-AAG caused synergistic potentiation of DA toxicity by enhancing caspase-3 activation. Together, these results indicate that HSP-90 is essential for oligodendrocyte progenitor survival. Both HSP-90 and Akt play important roles in concert in the defense against DA-induced apoptosis.
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PMID:Dopamine-induced toxicity is synergistically potentiated by simultaneous HSP-90 and Akt inhibition in oligodendrocyte progenitors. 1819 34

Tubocapsenolide A (TA), a novel withanolide-type steroid, exhibits potent cytotoxicity against several human cancer cell lines. In the present study, we observed that treatment of human breast cancer MDA-MB-231 cells with TA led to cell cycle arrest at G(1) phase and apoptosis. The actions of TA were correlated with proteasome-dependent degradation of Cdk4, cyclin D1, Raf-1, Akt, and mutant p53, which are heat shock protein 90 (Hsp90) client proteins. TA treatment induced a transient increase in reactive oxygen species and a decrease in the intracellular glutathione contents. Nonreducing SDS-PAGE revealed that TA rapidly and selectively induced thiol oxidation and aggregation of Hsp90 and Hsp70, both in intact cells and in cell-free systems using purified recombinant proteins. Furthermore, TA inhibited the chaperone activity of Hsp90-Hsp70 complex in the luciferase refolding assay. N-Acetylcysteine, a thiol antioxidant, prevented all of the TA-induced effects, including oxidation of heat shock proteins, degradation of Hsp90 client proteins, and apoptosis. In contrast, non-thiol antioxidants (trolox and vitamin C) were ineffective to prevent Hsp90 inhibition and cell death. Taken together, our results demonstrate that the TA inhibits the activity of Hsp90-Hsp70 chaperone complex, at least in part, by a direct thiol oxidation, which in turn leads to the destabilization and depletion of Hsp90 client proteins and thus causes cell cycle arrest and apoptosis in MDA-MB-231 cells. Therefore, TA can be considered as a new type of inhibitor of Hsp90-Hsp70 chaperone complex, which has the potential to be developed as a novel strategy for cancer treatment.
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PMID:Tubocapsenolide A, a novel withanolide, inhibits proliferation and induces apoptosis in MDA-MB-231 cells by thiol oxidation of heat shock proteins. 1844 81

The effects of geldanamycin, which is known as inhibitor of heat shock protein 90 activities, on expression of several signal and heat shock proteins were studied by Western blot analysis in cultivated spleen lymphocytes isolated from male NMRI mice. It has been revealed that cultivating the cells with geldanamycin resulted in decrease in transcription factor NF-kappaB amount, as well as decrease in its phosphorylated form, pNF-kappaB, and lowering in its suppressor, IkappaB-alpha. Besides, cells cultivated with geldanamycin demonstrated significant decrease in the amount of protein kinase SAPK(JNK). The modifications in signal pathways, which had been induced by geldanamycin, pointed to direct influence of the antibiotics on cellular stress response to damaging impact. This assumption was examined with the model of cellular stress response induced by low-level laser radiation. It was proved that Hsp90-binding drug, geldanamycin, significantly decreased in vitro stress response to laser light via lowering the production of heat shock proteins, Hsp70 and Hsp25, both in irradiated lymphocytes and in theirs intracellular structures. These findings show the prospect for using of geldanamycin in various therapies that are compromised with objectionable side effects manifested as heightened stress response in immune cells.
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PMID:[Effect of geldanamycin on the expression of signal proteins and heat shock proteins in normal mice lymphocytes]. 1877 Nov 79

We evaluated whether inhibition of heat shock protein 90 (hsp90) function by novobiocin derivatives could induce the degradation of signal transducers that drive cancer cell growth and thereby promote apoptosis. Removal of the noviose moiety in novobiocin and introduction of a tosyl substituent at C-4 or C-7 coumarin nucleus provided derivatives 4TCNA and 7TCNA which compared favourably with novobiocin in MCF-7 breast cancer cells. Here we extend the antiproliferative and apoptotic properties of these analogues to a panel of cancer cell lines. Destabilization of hsp90 client proteins Raf-1, HER2, and cdk4 suggests inhibition of hsp90 chaperoning function. In HT29 colon and IGROV1 ovarian cancer cells, the growth inhibiting effect of 4TCNA and 7TCNA was consistent with the stimulation of cell death as assessed by the processing and activation of caspase 9, 8, 7 and 3 and the subsequent cleavage of poly(ADP-ribose) polymerase (PARP). In Ishikawa endometrial adenocarcinoma cells, 4TCNA also promoted apoptosis and the processing of PARP. These derivatives impacting multiple pathways involved in the neoplastic process may represent promising drugs for cancer therapy.
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PMID:Antiproliferative and apoptotic activities of tosylcyclonovobiocic acids as potent heat shock protein 90 inhibitors in human cancer cells. 1884 35

The Chk1 protein kinase preserves genome integrity in normal proliferating cells and in cells experiencing replicative and genotoxic stress. Chk1 is currently being targeted in anticancer regimens. Here, we identify damaged DNA-binding protein 1 (DDB1) as a novel Chk1-interacting protein. DDB1 is part of an E3 ligase complex that includes the cullin proteins Cul4A and Cul4B. We report that Cul4A/DDB1 negatively regulates Chk1 stability in vivo. Chk1 associates with Cul4A/DDB1 during an unperturbed cell division cycle and both Chk1 phosphorylation and replication stress enhanced these interactions. Cul4A/DDB1 regulates Chk1 ubiquitination in vivo and Chk1 is directly ubiquitinated in vitro in a Cul4A/DDB1-dependent manner. Furthermore, Chk1 is stabilized in cells deficient for Cul4A/DDB1. This study shows that Chk1 abundance is regulated by the Cul4A/DDB1 ubiquitin ligase during an unperturbed cell division cycle, in response to replicative stress and on heat shock protein 90 inhibition, and that deregulation of the Chk1/Cul4A/DDB1 pathway perturbs the ionizing radiation-induced G(2) checkpoint.
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PMID:DDB1 targets Chk1 to the Cul4 E3 ligase complex in normal cycling cells and in cells experiencing replication stress. 1927 61

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