Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.25.1 (proteasome)
28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tamoxifen (TAM) is a highly effective selective estrogen receptor (ER) modulator used extensively for the treatment and prevention of breast cancer. However, prolonged treatment of women with TAM may be a risk factor for endometrial cancer, and research in our laboratory is focused on the development of selective aryl hydrocarbon receptor modulators that can be used in combination with TAM to improve its efficacy in the breast and inhibit TAM-induced endometrial effects. This study investigated the effects of the selective aryl hydrocarbon receptor modulators 6-methyl-1,3,8-trichlorodibenzofuran (6-MCDF) alone and in combination with TAM in the carcinogen-induced mammary tumor model and in the ovariectomized uterotropic assay using female Sprague Dawley rats. The lowest effective dose of 6-MCDF that inhibited tumor growth was 50 microg/kg/day, and TAM was antitumorigenic at a dose of 100 microg/kg/day. In animals cotreated with TAM + 6-MCDF at doses of 100, 50, or 25 microg/kg/day of each compound, complete inhibition of mammary tumor growth was observed at all doses, and the results are consistent with a more than additive antitumorigenic response for the low dose group (25 + 25 microg/kg) and additive interactions at the 50 and 100 microg/kg doses. In a separate experiment, 6-MCDF (800 microg/kg) inhibited TAM-induced peroxidase activity and progesterone receptor binding in the ovariectomized rat uterus but did not affect TAM-induced bone growth in ovariectomized rats. This study also investigated the effects of TAM and 6-MCDF alone and in combination on ERalpha protein levels in MCF-7 human breast cancer cells as a model for studying interactions between these compounds. The results show that 6-MCDF decreased TAM-induced ERalpha levels in the absence or presence of 17beta-estradiol through proteasome activation, and these interactions may contribute to the observed combined antitumorigenic effects of these compounds.
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PMID:Tamoxifen-induced antitumorigenic/antiestrogenic action synergized by a selective aryl hydrocarbon receptor modulator. 1135 3

The insulin receptor substrates are docking proteins that bind various receptor tyrosine kinases and signaling proteins. Previous studies have shown that E2 or progesterone can regulate the relative abundance of insulin receptor substrate-1 and -2 in cells and tissues. For instance, uterine insulin receptor substrate-2 was decreased markedly at 24 h after E2 treatment of mice. In the present study we used various in vivo experimental approaches to examine the mechanism by which E2 influences uterine insulin receptor substrate-2 expression. Uterine insulin receptor substrate-2 mRNA levels were diminished after E2 treatment, but this diminution did not account for the total reduction in insulin receptor substrate-2 protein, suggesting that the E2-induced decrease in insulin receptor substrate-2 is not regulated solely at the mRNA level. Cotreatment with progesterone prevented the E2-stimulated reduction in insulin receptor substrate-2 protein at 24 h after hormone exposure. In addition, MG-132 and epoxomicin, inhibitors of proteasomal protease activity, inhibited the E2-induced decrease in uterine insulin receptor substrate-2 protein levels, and this correlated to an increase in uterine protein ubiquitination. Insulin receptor substrate-2 protein was diminished in uteri of E2-treated insulin receptor substrate-1-null mutant mice, but not in E2-treated IGF-I-null mutant mice. Furthermore, E2-induced diminution of uterine insulin receptor substrate-2 protein was only partially inhibited in the presence of wortmannin, a PI3K inhibitor. Collectively, these data suggest that the E2-induced decrease in uterine insulin receptor substrate-2 requires IGF-I signaling, is not dependent solely on insulin receptor substrate-1 and PI3K, and is blocked by progesterone as well as by pharmacological inhibition of proteasomal protease activity. We speculate that the IGF-I-activated IGF-I receptor, in response to E2, directly or indirectly modifies insulin receptor substrate-2, probably through phosphorylation, leading to ubiquitination and subsequent degradation of this docking protein by the proteasome. This degradation could be a regulatory step to inhibit insulin receptor substrate-2-dependent signaling in the uterus.
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PMID:E2-induced degradation of uterine insulin receptor substrate-2: requirement for an IGF-I-stimulated, proteasome-dependent pathway. 1151 61

2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) and other aryl hydrocarbon receptor (AhR) ligands suppress 17beta-estradiol (E)-induced responses in the rodent uterus and mammary tumors and in human breast cancer cells. Treatment of ZR-75, T47D, and MCF-7 human breast cancer cells with TCDD induces proteasome-dependent degradation of endogenous estrogen receptor alpha (ERalpha). The proteasome inhibitors MG132, PSI, and PSII inhibit the proteasome-dependent effects induced by TCDD, whereas the protease inhibitors EST, calpain inhibitor II, and chloroquine do not affect this response. ERalpha levels in the mouse uterus and breast cancer cells were significantly lower after cotreatment with E plus TCDD than after treatment with E or TCDD alone, and our results indicate that AhR-mediated inhibition of E-induced transactivation is mainly due to limiting levels of ERalpha in cells cotreated with E plus TCDD. TCDD alone or in combination with E increases formation of ubiquitinated forms of ERalpha, and both coimmunoprecipitation and mammalian two-hybrid assays demonstrate that TCDD induces interaction of the AhR with ERalpha in the presence or absence of E. In contrast, E does not induce AhR-ERalpha interactions. Thus, inhibitory AhR-ERalpha cross talk is linked to a novel pathway for degradation of ERalpha in which TCDD initially induces formation of a nuclear AhR complex which coordinately recruits ERalpha and the proteasome complex, resulting in degradation of both receptors.
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PMID:The aryl hydrocarbon receptor mediates degradation of estrogen receptor alpha through activation of proteasomes. 1261 60

Ubiquitin-dependent proteolysis by the 26S proteasome plays a pivotal role in cell cycle progression as well as in tumorigenesis. In this pathway, ubiquitin-conjugating enzyme (E2), together with ubiquitin ligase (E3), transfers ubiquitin to the specific substrate protein(s); however, little is known about the potential contribution of E2 to tumorigenesis. In this study, we examined the expression levels of 17 E2 genes in 25 different human normal tissues and 24 human cancerous cell lines by using a quantitative real-time reverse transcription-PCR. Among the E2 gene family, the expression level of UbcH10 was extremely low in many of the normal tissues but prominent in the majority of cancerous cell lines. Intriguingly, UbcH10 was expressed at high levels in primary tumors derived from the lung, stomach, uterus, and bladder as compared with their corresponding normal tissues, suggesting that UbcH10 is involved in tumorigenesis or progression of the tumor. To further investigate a possible contribution of UbcH10 to malignant transformation and tumor cell proliferation, NIH3T3 cells were transfected with the expression plasmid encoding UbcH10, and stable transfectants were subsequently established. UbcH10-overexpressing cells exhibited an increased incorporation of bromodeoxyuridine, an enhanced growth rate, an increase in saturation density, and a promotion of colony formation in soft agar medium as compared with parental NIH3T3 cells and the control transfectants. Collectively, our present results provide the first evidence that UbcH10 is highly expressed in various human primary tumors and that UbcH10 has an ability to promote cell growth and malignant transformation.
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PMID:UbcH10 is the cancer-related E2 ubiquitin-conjugating enzyme. 1287 22

The aryl hydrocarbon receptor (AhR) is a ligand-activated transcription factor that forms a functional heterodimeric complex with the AhR nuclear translocator (Arnt) protein. The environmental toxin, 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), is a high affinity ligand for the AhR and has been extensively used to investigate AhR-mediated biochemical and toxic responses. TCDD modulates several endocrine pathways including inhibition of 17beta-estradiol-induced responses in the immature and ovariectomized rodent uterus and mammary gland and in human breast cancer cell lines. TCDD inhibits formation and growth of mammary tumors in carcinogen-induced rodent models and relatively nontoxic selective AhR modulators (SAhRMs) are being developed for treatment of breast cancer. The mechanisms of inhibitory AhR-estrogen receptor (ER) crosstalk have been investigated in MCF-7 breast cancer cells by analysis of promoter regions of genes induced by E2 and inhibited by TCDD. AhR-mediated inhibition of E2-induced cathepsin D, pS2, c-fos, and heat shock protein 27 gene expression involves direct interaction of the AhR complex with inhibitory pentanucleotide (GCGTG) dioxin responsive elements (iDREs) resulting in disruption of interactions between proteins binding DNA elements required for ER action and the basal transcription machinery. Mechanisms of inhibitory AhR-ER crosstalk indicate that functional iDREs are required for inhibition of some genes; however, results indicate that other interaction pathways are important including AhR-mediated proteasome-dependent degradation of the ER.
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PMID:Mechanisms of inhibitory aryl hydrocarbon receptor-estrogen receptor crosstalk in human breast cancer cells. 1497 92

Proinflammatory cytokines and prostaglandins play key roles in term and preterm human labor. The expression of the prostaglandin synthetic enzyme cyclooxygenase (COX)-2 and cytokines IL-1beta and IL-8 increases within the uterus at the time of labor, and each is regulated by the transcription factor nuclear factor-kappaB (NF-kappaB). In addition to its role in driving inflammation, COX-2 may also synthesize 15-deoxy-Delta (12, 14)-prostaglandin J(2) (15d-PGJ(2)), an antiinflammatory cyclopentenone prostaglandin (cyPG), which acts in some cells as an agonist of peroxisome proliferator-activated receptors (PPARs). We found that PPARalpha and -gamma proteins are expressed in both amnion epithelial and myometrial cells, but synthetic PPAR agonists could not inhibit NF-kappaB activity or COX-2 expression. 15d-PGJ(2) inhibited NF-kappaB activity and COX-2 expression in both cell types. This was unaffected by a PPAR antagonist and could be mimicked by the cyPG PGA(1) but not 9,10-dihydro-15d-PGJ(2) in which the cyclopentenone ring is disrupted. This shows that, in amnion and myometrium, inhibition of NF-kappaB activity and COX-2 expression by 15d-PGJ(2) is independent of PPARs and requires the cyclopentenone ring. We further show that 15d-PGJ(2) acts at multiple levels in the NF-kappaB pathway: blocking inhibitor of kappaBalpha degradation by repressing inhibitor of kappaB kinase activation and the 26S proteasome and also repressing NF-kappaB DNA binding and phosphorylation. Our data suggest that PPARs are unlikely to play a role in the regulation of either NF-kappaB or COX-2 in human amnion and myometrium. Targeting of NF-kappaB is a potential therapeutic strategy in preterm labor. PPAR agonists are unlikely to be effective in this context, but cyPGs may have potential.
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PMID:15-Deoxy-{delta}12,14-prostaglandin j2 inhibits interleukin-1{beta}-induced nuclear factor-{kappa}b in human amnion and myometrial cells: mechanisms and implications. 1575 49

Estrogen has crucial roles in the proliferation of cancer cells in reproductive organs such as the breast and uterus. Estrogen-stimulated growth requires two estrogen receptors (ERalpha and ERbeta) which are ligand-dependent transcription factors. High expression of ERs is observed in a large population of breast tumors. In addition, the positive expression of ERs correlates with well-differentiated tumors, a favorable prognosis, and responsiveness to an endocrine therapy with anti-estrogen drugs in patients with breast cancer. Transcription activities of ERs can be regulated by interacting proteins such as coactivators and kinases as well as ligand-binding. Moreover, ER isoforms lacking an ability to transactivate are involved in breast cancer. Downstream target genes of ERs have important roles in mediating the estrogen action in breast cancer. We have isolated and characterized several novel estrogen-responsive genes to clarify the molecular mechanism of the estrogen action in target cells. Among these genes, the estrogen-responsive finger protein (Efp) was found to be highly expressed in breast cancer. Efp as a ubiquitin ligase (E3) is involved in the proteasome-dependent degradation of the 14-3-3sigma protein, one of cell cycle brakes, this degradation resulting in the promotion of breast cancer growth. A full understanding of the expression and function of ERs and their target genes could shed light on how estrogen stimulates the initiation and promotion of cancer, providing a new approach to diagnose and treat cancer.
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PMID:Estrogen receptors and their downstream targets in cancer. 1578 84

Tamoxifen acts as an oestrogen antagonist in the breast reducing cell proliferation, but in the uterus as an oestrogen agonist resulting in increased cell proliferation. Tamoxifen exerts its tissue-specific effects through the oestrogen receptors (ERalpha or ERbeta). The levels and functions of the two ERs affect the response of the target tissue to oestrogen and tamoxifen. We examined the control of ER stability in breast and uterine cell lines using western blotting and RT-PCR. In MCF-7 breast-derived cells, ERalpha and ERbeta proteins were rapidly degraded via the proteasome pathway in response to oestradiol; conversely tamoxifen stabilised both receptors. In Ishikawa uterine-derived cells, oestradiol and tamoxifen stabilised ERalpha but led to degradation of ERbeta by the proteasome pathway. Further investigations showed that oestradiol induced activation of the non-genomic ERalpha/Akt signalling pathway in MCF-7 cells. We have demonstrated that the alternative Erk signalling pathway is activated in Ishikawa cells following oestradiol treatment in the absence of an active proteasome pathway and therefore increased levels of ERbeta. In conclusion, our data have demonstrated tamoxifen or oestradiol control of ER subtype stability and that non-genomic activation of transcription pathways is cell specific.
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PMID:Influence of oestradiol and tamoxifen on oestrogen receptors-alpha and -beta protein degradation and non-genomic signalling pathways in uterine and breast carcinoma cells. 1632 30

Targeted therapy of proteasome regulated gene expression has potential utility in cancer treatment since components of ubiquitin-mediated proteolysis are altered in human malignancy. Specific regulators of proteasome degradation such as F-box proteins of the SCF E3 ligase complex are ideal biomarkers for assessing therapeutic efficacy since these components determine substrate specificity. An F-box protein that appears to be important in this process is human Cdc4 (Fbw7) since expression is detected in a variety of human cancers including breast, colon, pancreas and uterus. The role of Cdc4 in tumorigenesis appears to be related at least in part to regulation of cyclin E since inactivating mutations of CDC4 in cancer cells leads to cyclin E overexpression and genomic instability. In order to investigate the potential biological and clinical consequences of proteasome inhibition with respect to Cdc4 mediated targeted proteolysis, we investigated CDC4 expression and genetic alterations in 53 primary human prostate cancers in addition to correlation with relevant histopathological and clinical parameters. We identified genetic alterations in 6% of our prostate cancers while differential expression of Cdc4 isoforms correlated with advanced pathological stage and clinical recurrence. Our data suggest that CDC4 expression in prostate cancer has important biological and clinical implications since genetic alterations, differential Cdc4 isoform expression, histopathological and clinical correlation were demonstrated in our analysis. Therefore molecular genetic analysis of CDC4 expression may be an important biomarker for concurrent or subsequent clinical investigation of proteasome targeted therapy in men with prostate cancer.
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PMID:CDC4 gene expression as potential biomarker for targeted therapy in prostate cancer. 1635 15

The caligid copepod Pseudocaligus fugu, a common parasite on the body surface of both toxic (Takifugu pardalis) and cultured, non-toxic (Takifugu rubripes) puffer fishes, was isolated and analyzed for the presence of tetrodotoxin (TTX) using a monoclonal anti-TTX antibody-based immunohistochemical technique. Histological sections of female P. fugu from Takifugu pardalis explicitly revealed that positive brown staining was visible in regions of gut and appendages, and also in the general body tissues from the prosome to the urosome. It is absent from the epicuticle, ovary, oviduct, uterus and egg sacs, where clear negative blue color reaction was obtained. In contrast, the caligids on cultured, non-toxic Takifugu rubripes, considered as negative control, had no sign of TTX. The results indicate that there is no vertical transmission of TTX in the parasitic caligids, which could acquire TTX by feeding on the toxic mucus and skin tissues of host puffer fish.
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PMID:Accumulation of tetrodotoxin (TTX) in Pseudocaligus fugu, a parasitic copepod from panther puffer Takifugu pardalis, but without vertical transmission--using an immunoenzymatic technique. 1678 47


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