Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.25.1 (proteasome)
 28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Widespread utilization of highly active antiretroviral therapy (HAART) for HIV-infection, primarily protease inhibitors in combination with nucleoside analogue reverse transcriptase inhibitors, has recently led to a sustained reduction in the morbidity and mortality of this disease. However, administration of HAART is frequently associated with the development of lipid disorders. The severity and prevalence of dyslipidaemia vary, depending on the type of HAART, nutritional status, HIV disease stage, and concomitant presence of lipodystrophy and insulin resistance (two additional adverse effects of HAART). The mechanism that is responsible for HAART-associated dyslipidaemia remains incompletely understood. Recent data indicate that this effect may be, at least in part, accounted for by protease inhibitor-mediated inhibition of the proteasome activity and accumulation of the active portion of sterol regulatory element-binding protein-1c in liver cells and adipocytes. Whether lipid disorders in HIV-infected patients receiving HAART translate into an increased cardiovascular risk, and the indications for lipid-lowering interventions in this population, remain to be established.
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PMID:Antiretroviral therapy-associated hyperlipidaemia in HIV disease. 1135 35

The proteasome pathway is important for the turnover of many regulatory proteins. This pathway has recently become a target for antitumor agents and several research groups have demonstrated that inhibitors with specificities for the proteasome are potent apoptosis-inducing agents. Many mechanisms by which proteasome inhibitors exert their effects have been suggested, including inhibition of NF-kappa B activity and stabilization of the p53 tumor suppressor protein. We investigated the ability of inhibitors with specificities for the proteasome and for another protein degradation enzyme, calpain, to sensitize a murine B-cell lymphoma with constitutive NF-kappa B1 homodimer activity and high expression of Bcl-2 protein to radiation-induced apoptosis. Protease inhibitors tested were calpain inhibitor I, calpain inhibitor II, calpeptin, MG132, and Lactacystin. All five inhibitors induced apoptosis and sensitized cells to radiation despite the maintenance of Bcl-2 protein levels throughout the course of treatment. An electrophoretic migration shift assay for NF-kappa B1 activity provided evidence that reversal of NF-kappa B activity was not required for induction of cell death; however, p53 levels were elevated for all inhibitors tested. HL-60 cells, devoid of p53, could not be sensitized to radiation by MG132 treatment, suggesting that p53 was important for cell death induced by combined treatment with protease inhibitors and radiation. We concluded that protease inhibitors are capable of overcoming the protective effects of Bcl-2 to induce apoptosis and suggest that protease inhibitor treatment, when combined with ionizing radiation, leads to p53-mediated apoptosis.
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PMID:Protease inhibitors restore radiation-induced apoptosis to Bcl-2-expressing lymphoma cells. 1174 2

Precise control of the level of c-Myc protein is important to normal cellular homeostasis, and this is accomplished in part by degradation through the ubiquitin-proteasome pathway. The calpains are a family of calcium-dependent proteases that play important roles in proteolysis of some proteins, and their possible participation in degradation of intracellular c-Myc was therefore investigated. Activation of calpain with the cell-permeable calcium ionophore A23187 in Rat1a-myc or ts85 cells in culture induced rapid cleavage of c-Myc. This degradation was both calpain- and calcium-dependent since it was inhibited by preincubation with either the calpain-inhibitory peptide calpeptin or the calcium-chelating agent EGTA. A23187-induced c-Myc cleavage occurred in a time-dependent manner comparable to that of FAK, a known calpain substrate, and while calpeptin was able to significantly protect c-Myc from degradation, inhibitors of the proteasome or caspase proteases could not. Exposure of Rat1a-myc or ts85 cells in culture to calpeptin, or to the thiol-protease inhibitor E64d, resulted in the accumulation of c-Myc protein without an impact on ubiquitin-protein conjugates. Using an in vitro assay, calpain-mediated degradation occurred rapidly with wild-type c-Myc as the substrate, but was significantly prolonged in some c-Myc mutants with increased transforming activity derived from lymphoma patients. Those mutants with a prolonged half-life in vitro were also more resistant to A23187-induced cleavage in intact cells. These studies support a role for calpain in the control of c-Myc levels in vivo, and suggest that mutations impacting on sensitivity to calpain may contribute to c-Myc-mediated tumorigenesis.
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PMID:Evidence for involvement of calpain in c-Myc proteolysis in vivo. 1205 25

Cancer cells frequently show high constitutive activity of the antiapoptotic transcription factor nuclear factor kappaB (NF-kappaB), which results in their enhanced survival. Activation of NF-kappaB classically depends on degradation of its inhibitor IkappaBalpha by the 26s proteasome. Specific proteasome inhibitors induce apoptosis in cancer cells and, at nonlethal concentrations, sensitize cells to the cytotoxic effects of ionizing radiation and chemotherapeutic drugs. Recently, the protease coded by the HIV-I virus has been shown to share cleavage activities with the proteasome. For this reason, we investigated whether the HIV-I protease inhibitor saquinavir can inhibit NF-kappaB activation, block 26s proteasome activity in prostate cancer cells, and promote their apoptosis. The effect of saquinavir on LPS/IFN-gamma-induced activation of NF-kappaB was assessed by gel-shift assays and by Western analysis of corresponding IkappaBalpha-levels. Its effect on 20s and 26s proteasome activity was analyzed with a fluorogenic peptide assay using whole cell lysates from LnCaP, DU-145, and PC-3 prostate cancer cells pretreated with saquinavir for 9 h. Proteasome inhibition in living cells was assessed using ECV 304 cells stably transfected with an expression plasmid for an ubiquitin/green fluorescence protein fusion protein (ECV 304/10). Apoptosis was monitored morphologically and by flow cytometry. Saquinavir treatment prevented LPS/IFN-gamma-induced activation of NF-kappaB in RAW cells and stabilized expression of IkappaBalpha. It inhibited 20s and 26s proteasome activity in lysates from LnCaP, DU-145, and PC-3 prostate cancer cells with an IC(50) of 10 micro M and caused the accumulation of an ubiquitin/green fluorescence protein fusion protein in living ECV 304/10 cells. Incubation of PC-3 and DU-145 prostate cancer, U373 glioblastoma, and K562 and Jurkat leukemia cells with saquinavir caused a concentration-dependent induction of apoptosis. In the case of PC-3 and DU-145, saquinavir sensitized the surviving cells to ionizing radiation. We conclude that saquinavir inhibits proteasome activity in mammalian cells as well as acting on the HIV-I protease. Because saquinavir induced apoptosis in human cancer cells, HIV-I protease inhibitors might become a new class of cytotoxic drugs, alone or in combination with radiation or chemotherapy.
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PMID:The human immunodeficiency virus (HIV)-1 protease inhibitor saquinavir inhibits proteasome function and causes apoptosis and radiosensitization in non-HIV-associated human cancer cells. 1223 89

This study examined the effect of human immunodeficiency virus (HIV) protease inhibitor therapy on lipoprotein production and catabolism in vivo. The HIV protease inhibitor ritonavir was given to C57BL/6 mice fed either a basal low-fat diet or a Western type high-fat diet. Fasted mice were injected with Triton WR1339 followed by hourly blood collection to monitor lipoprotein production. Results showed that ritonavir increased VLDL triglyceride production by 30% over a 4 h period when mice were fed the low-fat basal diet. The ritonavir effect was more pronounced under high-fat feeding conditions, with a 2-fold increase in VLDL triglyceride production rate. Ritonavir did not alter hepatic expression levels of diacylglycerol acyltransferase or microsomal triglyceride transfer protein, but increased hepatic apolipoprotein B (apoB) secretion rates under both low- and high-fat dietary conditions. In contrast to its effect on lipoprotein production, ritonavir did not alter triglyceride-rich lipoprotein clearance from circulation under either dietary condition. Taken together, these results indicate that the hyperlipidemic effect of HIV protease inhibitors is a direct result of increased hepatic lipoprotein production. The mechanism appears to be related to their role in preventing proteasome-mediated degradation of apoB and activated sterol regulatory element binding proteins in the liver.
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PMID:The HIV protease inhibitor ritonavir increases lipoprotein production and has no effect on lipoprotein clearance in mice. 1223 77

Ritonavir is an HIV protease inhibitor used in the therapy of HIV infection. Ritonavir has also been shown to inhibit the chymotrypsin-like activity of isolated 20S proteasomes. Here, we demonstrate that ritonavir, like classical proteasome inhibitors, has antitumoral activities. In vitro, ritonavir strongly reduced the rate of proliferation of several tumor cell lines and induced their apoptosis. Nontransformed cell lines and terminally differentiated bone-marrow macrophages were comparatively resistant to the apoptosis-inducing effect. In vivo, ritonavir, administered p.o. for a week at doses of 6-8.8 mg/mouse/day, caused significant growth inhibition (76-79% after 7 days of treatment) of established EL4-T cell thymomas growing s.c. in syngeneic C57BL/6 mice. Unexpectedly, we found that ritonavir activates the chymotrypsin-like activity of isolated 26S proteasomes, in strong contrast to its effect on isolated 20S proteasomes. The net effect of low micromolar concentrations of ritonavir on the chymotrypsin-like activity in cells and cell lysates was a weak inhibition, consistent with marginal alterations of polyubiquitinated proteins, marginal alterations in acid-soluble proteolytic peptide levels, and a small accumulation of the tumor suppressor protein p53, in cells treated with ritonavir. In contrast, we found a relatively strong accumulation of the cyclin-dependent kinase inhibitor p21(WAF-1), a sign of deregulation of cell-cycle progression typical for apoptosis induction in transformed cells by classical proteasome inhibitors. We demonstrate that p21 accumulation in the presence of ritonavir is attributable to the inhibition of proteolytic degradation. Accumulation of p21 most likely reflects a selective inhibition of proteasomes, in line with the atypical degradation of p21, which does not require ubiquitination. These findings suggest that selective perturbation of proteasomal protein degradation may play a role in the antitumoral activities of ritonavir.
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PMID:Antitumor effect of the human immunodeficiency virus protease inhibitor ritonavir: induction of tumor-cell apoptosis associated with perturbation of proteasomal proteolysis. 1246 Sep 5

Highly active antiretroviral therapy, which includes a combination of protease inhibitors, is highly successful in controlling human immunodeficiency virus (HIV) infection and reducing the morbidity and mortality of autoimmune deficiency syndrome (AIDS). However, the benefits of HIV protease inhibitors are compromised by numerous undesirable side effects. These include peripheral fat wasting and excessive central fat deposition (lipodystrophy), overt hyperlipidemia, and insulin resistance. The mechanism associated with protease inhibitor-induced metabolic abnormalities is multifactorial. One major effect of the protease inhibitor is its suppression of the breakdown of the nuclear form of sterol regulatory element binding proteins (nSREBP) in the liver and adipose tissues. Hepatic accumulation of nSREBP results in increased fatty acid and cholesterol biosynthesis, whereas nSREBP accumulation in adipose tissue causes lipodystrophy, reduces leptin expression, and promotes insulin resistance. The HIV protease inhibitors also suppress proteasome-mediated breakdown of nascent apolipoprotein (apo) B, thus resulting in the overproduction and secretion of triglyceride-rich lipoproteins. Finally, protease inhibitor also suppresses the inhibition of the glucose transporter GLUT-4 activity in adipose and muscle. This latter effect also contributes directly to insulin resistance and diabetes. These adverse effects need to be alleviated for long-term use of protease inhibitor therapy in treatment of HIV infection.
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PMID:Effects of HIV protease inhibitor therapy on lipid metabolism. 1254 52

The aryl hydrocarbon receptor (AHR) is a ligand-activated transcription factor that is also a substrate for the 26S proteasome. However, the subcellular location of the degradation events or the requirement for nuclear transport has not been resolved. To gain insight into both ligand-dependent and independent degradation of the AHR, studies were designed to evaluate the relationship between AHR localization, stability, and gene regulation in a defined cell culture model system. The strategy of these studies was to generate stable cell lines expressing murine AHR proteins that were defective in nuclear import and then to assess the location of the AHR, the time course of AHR degradation, and the level of induction of endogenous CYP1A1 protein after exposure to 2,3,7,8-tetrachlorodibezo-p-dioxin (TCDD), geldanamycin (GA), or the protease inhibitor carbobenzoxy-L-leucyl-L-leucyl-leucinal (MG-132). Mutation within the putative nuclear localization sequence (NLS) resulted in AHR mutants that were severely defective in nuclear import as evaluated by immunocytochemical staining after exposure to TCDD, GA, or MG-132. Importantly, the NLS mutants exhibited identical levels of degradation along a similar time course as wild-type AHR after exposure to TCDD or GA when stably expressed in either murine hepatoma cells (Hepa-1) or hamster lung cells (E36). In contrast, the NLS mutants were severely defective in ligand-mediated induction of CYP1A1 expression. These findings imply that the proteolytic machinery present in the cytoplasmic compartment is sufficient to degrade the AHR and that nuclear translocation, binding with ARNT, or DNA binding are not necessary for efficient degradation of the AHR.
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PMID:Functional analysis of murine aryl hydrocarbon (AH) receptors defective in nuclear import: impact on AH receptor degradation and gene regulation. 1260 67

This study identifies calpain as being instrumental for brush border (BB) microvillus assembly during differentiation and effacement during bacterial pathogenesis. Calpain activity is decreased by 25-80% in Caco 2 lines stably overexpressing calpastatin, the physiological inhibitor of calpain, and the effect is proportional to the calpastatin/calpain ratio. These lines exhibit a 2.5-fold reduction in the rate of microvillus extension. Apical microvillus assembly is reduced by up to 50%, as measured by quantitative fluorometric microscopy (QFM) of ezrin, indicating that calpain recruits ezrin to BB microvilli. Calpain inhibitors ZLLYCHN2, MDL 28170, and PD 150606 block BB assembly and ezrin recruitment to the BB. The HIV protease inhibitor ritonavir, which inhibits calpain at clinically relevant concentrations, also blocks BB assembly, whereas cathepsin and proteasome inhibitors do not. Microvillus effacement is inhibited after exposure of calpastatin-overexpressing cells to enteropathogenic Escherichia coli. These results suggest that calpain regulates BB assembly as well as pathological effacement, and indicate that it is an important regulator involved in HIV protease inhibitor toxicity and host-microbial pathogen interactions.
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PMID:Calpain regulates enterocyte brush border actin assembly and pathogenic Escherichia coli-mediated effacement. 1276 39

A comparison of the basal degradation of type I Ins P3Rs [L- myo -inositol 1,4,5-trisphosphate receptor], measured by pulse-chase analysis or by analysis of immunoreactive Ins P3Rs after cycloheximide addition, indicated that the small pool of newly synthesized radioactive Ins P3Rs degraded relatively rapidly compared with the large pool of mature Ins P3Rs. An antibody (Ab) against a peptide sequence within the IL-3 (third intraluminal loop) of the receptor (IL-3 Ab) was used to identify protected proteolytic fragments that may accumulate in cells. The IL-3 Ab recognized a 56 kDa fragment in both WB rat liver cells and A7R5 smooth-muscle cells. Gel filtration experiments indicated that the 56 kDa fragment was monomeric and, based on reactivity to other Abs, was missing the cytosol-exposed N- and C-terminal segments of the receptor. The addition of the lysosomal protease inhibitor chloroquine resulted in the rapid disappearance of the 56 kDa band. This effect was mimicked by the cysteine protease inhibitors leupeptin, N -acetyl-L-leucyl-L-leucyl-L-methioninal and N -acetyl-leucyl-leucyl-norleucinal. Lactacystin and NH4Cl were less effective. A second fragment of 16 kDa containing the C-terminus accumulated only when the cells were treated with NH4Cl, and not with any of the other inhibitors tested. No N-terminal-reactive fragments were observed. We propose that mature Ins P3R tetramers dissociate into monomers and that the 56 kDa fragment is a cleavage intermediate of the monomer representing the six transmembrane domains. Angiotensin-II-stimulated down-regulation of Ins P3Rs in WB cells has been shown to involve the ubiquitin/proteasome pathway. Angiotensin-II treatment of WB cells neither resulted in the accumulation of any new fragments nor increased the levels of the 56 or 16 kDa fragments. We conclude that basal and agonist-stimulated degradations of Ins P3Rs occur by different pathways. The agonist-mediated pathway involves the concerted removal and proteolysis of the entire receptor molecule from the endoplasmic reticulum membrane without the appearance of intermediate intraluminal fragments.
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PMID:Proteolysis of type I inositol 1,4,5-trisphosphate receptor in WB rat liver cells. 1292 21


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