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)

Resistance to leishmanial infections depends on intracellular parasite killing by activated host macrophages through the L-arginine-nitric oxide (NO) metabolic pathway. Here we investigate the cell death process induced by NO for the intracellular protozoan Leishmania amazonensis. Exposure of amastigotes to moderate concentrations of NO-donating compounds (acidified sodium nitrite NaNO(2) or nitrosylated albumin) or to endogenous NO produced by lipopolysaccharide or gamma interferon treatment of infected macrophages resulted in a dramatic time-dependent cell death. The combined use of several standard DNA status analysis techniques (including electrophoresis ladder banding patterns, YOPRO-1 staining in flow cytofluorometry, and in situ recognition of DNA strand breaks by TUNEL [terminal deoxynucleotidyltransferase-mediated dUTP-biotin nick end labeling] assay) revealed a rapid and extensive fragmentation of nuclear DNA in both axenic and intracellular NO-treated amastigotes of L. amazonensis. Despite some similarities to apoptosis, the nuclease activation responsible for characteristic DNA degradation was not under the control of caspase activity as indicated by the lack of involvement of cell-permeable inhibitors of caspases and cysteine proteases. In contrast, exposure of NO-treated amastigotes with specific proteasome inhibitors, such as lactacystin or calpain inhibitor I, markedly reduced the induction of the NO-mediated apoptosis-like process. These data strongly suggest that NO-induced oligonucleosomal DNA fragmentation in Leishmania amastigotes is, at least in part, regulated by noncaspase proteases of the proteasome. The determination of biochemical pathways leading up to cell death might ultimately allow the identification of new therapeutic targets.
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PMID:Nitric oxide-mediated proteasome-dependent oligonucleosomal DNA fragmentation in Leishmania amazonensis amastigotes. 1206 15

Insulin rapidly stimulates the tyrosine kinase activity of its receptor, resulting in the phosphorylation of insulin receptor substrates (IRS), which in turn associates and activates PI 3-kinase, leading to an increase in glucose uptake. Phosphorylation of IRS proteins and activation of downstream kinases by insulin are transient and the mechanisms for the subsequent downregulation of their activity are largely unknown. We report here that the insulin-induced IRS-1 tyrosine phosphorylation and PI 3-kinase association to IRS-1 were strongly sustained by the proteasome inhibitors, MG132 and lactacystin. In contrast, no effect was detected on the insulin receptor and IRS-2 tyrosine phosphorylation. Interestingly, lactacystin also preserved PKB activation and insulin-induced glucose uptake. In contrast, calpeptin, a calpain inhibitor, was ineffective. Tyrosine phosphatase assays were also performed, showing that lactacystin was not functioning directly as a tyrosine phosphatase inhibitor "in vitro." In conclusion, proteasome inhibitors can regulate the tyrosine phosphorylation of IRS-1 and the downstream insulin signaling pathway, leading to glucose transport.
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PMID:Proteasome inhibitors regulate tyrosine phosphorylation of IRS-1 and insulin signaling in adipocytes. 1220 9

Proteasome inhibitors induce apoptosis in some malignant cells, and we show here that these inhibitors induce apoptosis in rat pituitary MMQ and GH3 tumor cells but not in normal pituitary cells. Three proteasome inhibitors, PSI, MG-132, and lactacystin, but not the calpain inhibitor, ALLM, dose- and time-dependently caused apoptosis in these cells, and 10 microM PSI caused apoptosis in 70% of MMQ cells and in 25% of GH3 cells within 24 h. A lower PSI dose (10 nM) inhibited GH3 cell growth without causing significant apoptosis or affecting prolactin secretion. Primary rat pituitary cells were resistant to both PSI and MG-132 and did not undergo apoptosis. In MMQ cells, DNA synthesis was slowed (approximately 30%) after 6 h of 10 microM PSI treatment and a partial cell cycle block at G2/M was evident after 8 h. Colorimetric caspase substrate assay and Western blotting of caspase substrates showed that caspases 2 and 3 are activated by PSI while caspases 6 and 8 remained inactive. A broad-range caspase inhibitor, caspase inhibitor III, prevented apoptosis induced by PSI. The results show that proteasome inhibitors induce apoptosis in rat pituitary tumor cells by specific caspase activation. This novel group of drugs may potentially be used in treatment of aggressive pituitary tumors, especially as their action appears relative for tumor cells.
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PMID:Proteasome inhibitors induce apoptosis in growth hormone- and prolactin-secreting rat pituitary tumor cells. 1220 57

Gunn rat is a hyperbilirubinemic rat strain that is inherently deficient in the activity of UDP-glucuronosyltransferase form 1A1 (UGT1A1). A premature termination codon is predicted to produce truncated UGT1 proteins that lack the COOH-terminal 116 amino acids in Gunn rat. Pulse-chase experiments using primary cell cultures showed that the truncated UGT1A1 protein in Gunn rat hepatocytes was synthesized similarly to wild-type UGT1A1 protein in normal Wistar rat hepatocytes. However, the truncated UGT1A1 protein was degraded rapidly with a half-life of about 50 min, whereas the wild-type UGT1A1 protein had a much longer half-life of about 10 h. The rapid degradation of truncated UGT1A1 protein was inhibited partially but not completely by treating Gunn rat hepatocytes with proteasome inhibitors such as carbobenzoxy-Leu-Leu-leucinal and lactacystin. By contrast, neither the lysosomal cysteine protease inhibitor nor the calpain inhibitor slowed the degradation. Our findings show that the absence of UGT1 protein from Gunn rat hepatocytes is due to rapid degradation of the truncated UGT1 protein by the proteasome and elucidate the molecular basis underlying the deficiency in bilirubin glucuronidation.
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PMID:Accelerated degradation of mislocalized UDP-glucuronosyltransferase family 1 (UGT1) proteins in Gunn rat hepatocytes. 1222 May 28

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

The ubiquitous calpains, mu- and m-calpain, have been implicated in essential physiological processes and various pathologies. Cell-permeable specific inhibitors are important tools to elucidate the roles of calpains in cultivated cells and animal models. The synthetic N-acetylated 27-mer peptide derived from exon B of the inhibitory domain 1 of human calpastatin (CP1B) is unique as a potent and highly selective reversible calpain inhibitor, but is poorly cell-permeant. By addition of N-terminal cysteine residues we have generated a disulfide-conjugated CP1B with the cell-penetrating 16-mer peptide penetratin derived from the third helix of the Antennapedia homeodomain protein. The inhibitory potency and selectivity of CP1B for calpain versus cathepsin B and L, caspase 3 and the proteasome was not affected by the conjugation with penetratin. The conjugate was shown to efficiently penetrate into living LCLC 103H cells, since it prevents ionomycin-induced calpain activation at 200-fold lower concentration than the non-conjugated inhibitor and is able to reduce calpain-triggered apoptosis of these cells. Penetratin-conjugated CP1B seems to be a promising alternative to the widely used cell-permeable peptide aldehydes (e.g. calpain inhibitor 1) which inhibit the lysosomal cathepsins and partially the proteasome as well or even better than the calpains.
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PMID:Calpastatin exon 1B-derived peptide, a selective inhibitor of calpain: enhancing cell permeability by conjugation with penetratin. 1271 90

The effects of proteolysis inhibitors on hydrogen peroxide (H(2)O(2))-induced apoptosis were examined in cultured human synovial cells of rheumatoid arthritis (RA) patients. RA synovial cells were resistant to apoptosis induced by H(2)O(2). In the presence of 100 microM N-acetyl-leucyl-leucyl-norleucinal (ALLN, known as calpain inhibitor 1 and also a proteasome inhibitor), but not N-acetyl-leucyl-leucyl-methioninal (ALLM), apoptotic cell death was elicited by 400 microM H(2)O(2) at a concentration that alone never induced cell death. ALLN induced the expression of tumor suppressor p53 protein and p21(WAF-1) protein, probably through inhibition of proteasome. H(2)O(2) further potentiated ALLN-induced p53 expression. H(2)O(2) appeared to activate c-Jun N-terminal kinase (JNK) as well as extracellular signal-regulated kinase (ERK) and AKT. After administration of H(2)O(2) and p53 induction by ALLN, we found that either one alone is insufficient to induce apoptosis of RA synovial cells but their combination synergistically does so. These results suggest that induction of p53 by ALLN may be potentially important for triggering H(2)O(2)-induced apoptosis processes in RA synovial cells.
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PMID:Synergistic induction of apoptosis of rheumatoid arthritis synovial cells by H(2)O(2) and N-acetyl-leucyl-leucyl-norleucinal. 1276 77

The cytokine IL-1beta suppresses rodent islets of Langerhans in vitro. Presently we used inhibitors of the proteasome to investigate if these compounds could counteract the suppressive effects of the cytokine. Thus, isolated rat islets were cultured and pre-treated with proteasome inhibitors and subsequently exposed for 48 h to 25 U/ml human IL-1beta. After this period functional tests were carried out. The rate of glucose oxidation (pmol/10 islets x 90 min) was suppressed by IL-1beta (115 +/- 17 vs. control 380 +/- 57). Pre-treatment with 10 microM of the proteasome inhibitor MG115 (N-carbobenzoxyl-leu-leu-norvalinal) and 100 microM of the calpain inhibitor norLEU (N-acetyl-leu-leu-norleucinal; known to affect proteasome activity) counteracted the suppressive effects (253 +/- 17 and 262 +/- 10 respectively). The calpain inhibitor alIMET (N-acetyl-leu-leu-methional) had no effect. MG115 (10 microM) and norLEU (100 microM) blocked nitric oxide formation induced by IL-1beta, while alIMET was without effect. We also investigated if IL-1beta could influence the expression of two inducible proteasome subunits, namely LMP2 and LMP7, and found that the cytokine increased the mRNA expression of the proteasome subunit LMP2 in islets, and that the proteasome inhibitor MG115 prevented this increase. In conclusion our study shows that IL-1beta increases the transcription of the proteasome subunit LMP2, and that the proteasome is involved in IL-1beta induced suppression of islet function. Moreover, the observation that inhibitors of the proteasome protect islets against IL-1beta induced inhibition of glucose metabolism, suggests that these compounds might be worthwile to explore in future therapies against the development of type 1 diabetes.
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PMID:Involvement of the proteasome in IL-1beta induced suppression of islets of Langerhans in the rat. 1290 36

Thapsigargin treatment of cultured cells leads to an increase in the intracellular calcium concentration, activation of calpain, and, in some cell types, apoptosis. Using a human prostate epithelial cell line that undergoes apoptosis in the presence of thapsigargin, we find decreased levels of IRS-1 protein levels during apoptosis. Inhibition of calpain prevents this decrease in IRS-1 protein; however, inhibitors of caspases or the proteasome are ineffective in maintaining IRS-1 levels. In terms of IGF-I-related second messenger proteins, the effect of thapsigargin is specific for IRS-1 since the protein levels of IGF-I receptor beta-subunit, Akt, Erk, and Shc are not affected. In addition to preventing the reduction in IRS-1, treatment of cells with calpain inhibitor II prevents apoptosis in response to thapsigargin. Finally, IRS-1 and calpain can be identified in protein complexes isolated using IRS-1-specific antibodies, indicating that calpain can associate with either IRS-1 or one of the proteins present in protein complexes that contain IRS-1. In total, these results suggest that IRS-1 may be targeted for degradation by calpain during apoptosis.
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PMID:Downregulation of IRS-1 protein in thapsigargin-treated human prostate epithelial cells. 1449 36

The goal of this research was to evaluate the roles of calpains and their interactions with the proteasome and the lysosome in degradation of individual sarcomeric and cytoskeletal proteins in cultured muscle cells. Rat L8-CID muscle cells, in which we expressed a transgene calpain inhibitor (CID), were used in the study. L8-CID cells were grown as myotubes after which the relative roles of calpain, proteasome and lysosome in total protein degradation were assessed during a period of serum withdrawal. Following this, the roles of proteases in degrading cytoskeletal proteins (desmin, dystrophin and filamin) and of sarcomeric proteins (alpha-actinin and tropomyosin) were assessed. Total protein degradation was assessed by release of radioactive tyrosine from pre-labeled myotubes in the presence and absence of protease inhibitors. Effects of protease inhibitors on concentrations of individual sarcomeric and cytoskeletal proteins were assessed by Western blotting. Inhibition of calpains, proteasome and lysosome caused 20, 62 and 40% reductions in total protein degradation (P<0.05), respectively. Therefore, these three systems account for the bulk of degradation in cultured muscle cells. Two cytoskeletal proteins were highly-sensitive to inhibition of their degradation. Specifically, desmin and dystrophin concentrations increased markedly when calpain, proteasome and lysosome activities were inhibited. Conversely, sarcomeric proteins (alpha-actinin and tropomyosin) and filamin were relatively insensitive to the addition of protease inhibitors to culture media. These data demonstrate that proteolytic systems work in tandem to degrade cytoskeletal and sarcomeric protein complexes and that the cytoskeleton is more sensitive to inhibition of degradation than the sarcomere. Mechanisms, which bring about changes in the activities of the proteases, which mediate muscle protein degradation are not known and represent the next frontier of understanding needed in muscle wasting diseases and in muscle growth biology.
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PMID:Degradation of sarcomeric and cytoskeletal proteins in cultured skeletal muscle cells. 1460 48


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