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)

Fas-mediated apoptosis plays an important role in normal tissue homeostasis, and disruption of this death pathway contributes to many human diseases. Induction of apoptosis via Fas activation has been associated with reactive oxygen species (ROS) generation and down-regulation of FLICE inhibitory protein (FLIP); however, the relationship between these two events and their role in Fas-mediated apoptosis are unclear. We show herein that ROS are required for FLIP down-regulation and apoptosis induction by Fas ligand (FasL) in primary lung epithelial cells. ROS mediate the down-regulation of FLIP by ubiquitination and subsequent degradation by proteasome. Inhibition of ROS by antioxidants or by ectopic expression of ROS-scavenging enzymes glutathione peroxidase and superoxide dismutase effectively inhibited FLIP down-regulation and apoptosis induction by FasL. Hydrogen peroxide is a primary oxidative species responsible for FLIP down-regulation, whereas superoxide serves as a source of peroxide and a scavenger of NO, which positively regulates FLIP via S-nitrosylation. NADPH oxidase is a key source of ROS generation induced by FasL, and its inhibition by dominant-negative Rac1 expression or by chemical inhibitor decreased the cell death response to FasL. Taken together, our results indicate a novel pathway of FLIP regulation by an interactive network of reactive oxygen and nitrogen species that provides a key mechanism of apoptosis regulation in Fas-induced cell death and related apoptosis disorders.
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PMID:The Fas death signaling pathway connecting reactive oxygen species generation and FLICE inhibitory protein down-regulation. 1829 30

To study whether and how cells adapt to chronic cellular stress, we exposed PC12 cells to the proteasome inhibitor MG132 (0.1 microM) for 2 weeks and longer. This treatment reduced chymotrypsin-like proteasome activity by 47% and was associated with protection against both 6-hydroxydopamine (6-OHDA; 100 microM) and higher dose MG132 (40 microM). Protection developed slowly over the course of the first 2 weeks of exposure and was chronic thereafter. There was no change in total GSH levels after MG132. Buthionine sulfoximine (100 microM) reduced GSH levels by 60%, but exacerbated 6-OHDA toxicity to the same extent in both MG132-treated and control cells and failed to reduce MG132-induced protection. Chronic MG132 resulted in elevated antioxidant proteins CuZn superoxide dismutase (SOD; +55%), MnSOD (+21%), and catalase (+15%), as well as chaperone heat-shock protein 70 (+42%). Examination of SOD enzyme activity revealed higher levels of CuZnSOD (+40%), with no change in MnSOD. We further assessed the mechanism of protection by reducing CuZnSOD levels with two independent siRNA sequences, both of which successfully attenuated protection against 6-OHDA. Previous reports suggested that artificial over-expression of CuZnSOD in dopaminergic cells is protective. Our data complement such observations, revealing that dopaminergic cells are also able to use endogenous CuZnSOD in self-defensive adaptations to chronic stress, and that they can even do so in the face of extensive GSH loss.
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PMID:Adaptation to chronic MG132 reduces oxidative toxicity by a CuZnSOD-dependent mechanism. 1846 18

Largely due to better control of infectious diseases and significant advances in biomedical research, life expectancy worldwide has increased dramatically in the last three decades. However, as the average age of the population has risen, the incidence of chronic age-related diseases such as arthritis, Alzheimer's, Parkinson's, cardiovascular disease, cancer, osteoporosis, benign prostatic hyperplasia, and late-onset diabetes have increased and have become serious public health problem, as well. The etiology of these disorders is still incompletely understood, therefore, neither preventive strategies nor long-term effective treatment modalities are available for these disorders. In keeping with the aforementioned, the ultimate goal in cardiovascular research is to prevent the onset of cardiovascular episodes and thereby allow successful ageing without morbidity and cognitive decline. Herein, I argue that cardiovascular episodes could be contained with relatively simple approaches. Cardiovascular disorder is characterized by cellular and molecular changes that are commonplace in age-related diseases in other organ system, such alterations include increased level of oxidative stress, perturbed energy metabolism, and "horror autotoxicus" largely brought about by the perturbation of ubiquitin -proteasome system, and excessive oxidative stress damage to the cardiac muscle cells and tissues, and cross-reactions of specific antibodies against human heat shock protein 60 with that of mycobacterial heat shock protein 65. "Horror autotoxicus", a Latin expression, is a term coined by Paul Ehrlich at the turn of the last century to describe autoimmunity to self, or the attack of "self" by immune system, which ultimately results to autoimmune condition. Based on the currently available data, the risk of cardiovascular episodes and several other age-related disorders, including cancer, Alzheimer's disease and diabetes, is known to be influenced by the nature and level of food intake. Now, a wealth of scientific data from studies of rodents and monkeys has documented the significant beneficial effects of calorie restriction (CR) or dietary restriction (DR), and multiple antioxidant agents in extending life span and reducing the incidence of progeroid-related diseases. Reduced levels of cellular oxidative stress, protection of genome from deleterious damage, detoxification of toxic molecules, and enhancement of energy homeostasis, contribute to the beneficial effects of dietary restriction and multiple antioxidant agents. Recent findings suggest that employment of DR and multiple antioxidant agents (including, catalase, glutathione peroxidase, CuZn superoxide dismutase, and Mn superoxide dismutase = enzymes forming the primary defense against oxygen toxicity), and ozone therapy may mount an effective resistance to pathogenic factors relevant to the pathogenesis of cardiovascular episodes. Hence, while further studies will be needed to establish the extent to which CR and multiple antioxidant agents will reduce incidence of cardiovascular episodes in humans, it would seem prudent to recommend CR and multiple antioxidant agents as widely applicable preventive approach for cardiovascular disorders and other progeroid-related disorders.
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PMID:Cardiovascular disease could be contained based on currently available data! 1864 94

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disorder characterized by motoneuron degeneration, resulting in muscle paralysis and death, typically within 1-5 years of diagnosis. Although the pathogenesis of ALS remains unclear, there is evidence for the involvement of proteasome dysfunction and heat shock proteins in the disease. We have previously shown that treatment with a co-inducer of the heat shock response called arimoclomol is effective in the SOD(G93A) mouse model of ALS, delaying disease progression and extending the lifespan of SOD(G93A) mice (Kieran et al. 2004). However, this previous study only examined the effects arimoclomol when treatment was initiated in pre- or early symptomatic stages of the disease. Clearly, to be of benefit to the majority of ALS patients, any therapy must be effective after symptom onset. In order to establish whether post-symptomatic treatment with arimoclomol is effective, in this study we carried out a systematic assessment of different treatment regimes in SOD(G93A) mice. Treatment with arimoclomol from early (75 days) or late (90 days) symptomatic stages significantly improved muscle function. Treatment from 75 days also significantly increased the lifespan of SOD(G93A) mice, although treatment from 90 days has no significant effect on lifespan. The mechanism of action of arimoclomol involves potentiation of the heat shock response, and treatment with arimoclomol increased Hsp70 expression. Interestingly, this up-regulation in Hsp70 was accompanied by a decrease in the number of ubiquitin-positive aggregates in the spinal cord of treated SOD(G93A) mice, suggesting that arimoclomol directly effects protein aggregation and degradation.
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PMID:Late stage treatment with arimoclomol delays disease progression and prevents protein aggregation in the SOD1 mouse model of ALS. 1867 45

Amyotrophic lateral sclerosis (ALS) is a devastating neurodegenerative disease affecting the motor neurons. The majority of familial forms of ALS are caused by mutations in the Cu,Zn-superoxide dismutase (SOD1). In mutant SOD1 spinal cord motor neurons, mitochondria develop abnormal morphology, bioenergetic defects, and degeneration. However, the mechanisms of mitochondrial toxicity are still unclear. One possibility is that mutant SOD1 establishes aberrant interactions with nuclear-encoded mitochondrial proteins, which can interfere with their normal trafficking from the cytosol to mitochondria. Lysyl-tRNA synthetase (KARS), an enzyme required for protein translation that was shown to interact with mutant SOD1 in yeast, is a good candidate as a target for interaction with mutant SOD1 at the mitochondrion in mammals because of its dual cytosolic and mitochondrial localization. Here, we show that in mammalian cells mutant SOD1 interacts preferentially with the mitochondrial form of KARS (mitoKARS). KARS-SOD1 interactions occur also in the mitochondria of the nervous system in transgenic mice. In the presence of mutant SOD1, mitoKARS displays a high propensity to misfold and aggregate prior to its import into mitochondria, becoming a target for proteasome degradation. Impaired mitoKARS import correlates with decreased mitochondrial protein synthesis. Ultimately, the abnormal interactions between mutant SOD1 and mitoKARS result in mitochondrial morphological abnormalities and cell toxicity. mitoKARS is the first described member of a group of mitochondrial proteins whose interaction with mutant SOD1 contributes to mitochondrial dysfunction in ALS.
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PMID:Lysyl-tRNA synthetase is a target for mutant SOD1 toxicity in mitochondria. 1871 67

Copper toxicity is associated with formation of reactive oxygen species, which are capable to oxidize proteins. The selective removal of the latter by the 20S proteasome is considered an essential part of the cell antioxidant defense system. The aim of the present study was to investigate whether peptidase activities of rat liver proteasomes were affected by chronic (40 mg CuSO(4)/rat/daily with the drinking water for 2 weeks) and acute (20 mg/kg CuSO(4), s.c.) copper treatment. To evaluate the role of proteasome, its inhibitor MG132 was also used. The degree of copper-induced oxidative stress (OS), established by measuring lipid peroxidation, protein oxidation, and cellular glutathione level, as well as activities of antioxidant enzymes--catalase, superoxide dismutase, and gultathionine peroxidase, depended on the mode of copper administration. Chronic copper administration (mild oxidative stress) did not affect proteasome activities, whereas acute copper treatment (severe oxidative stress) caused a decline in chymotryptic- and tryptic-like activities. The treatment of copper-loaded animals with MG132 did not change copper-induced alterations in the tested indices, except an additional increase in protein oxidation and inhibition of glutathionine peroxidase activity. The results suggested that the in vivo copper-induced oxidative stress was associated with changes in the catalytic activity of proteasome.
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PMID:Effect of copper intoxication on rat liver proteasome activity: relationship with oxidative stress. 1897

The striking identification of an apparent proteasome core in Mycobacteria and allied actinomycetes suggested that additional elements of this otherwise strictly eukaryotic system for regulated protein degradation might be conserved. The genes encoding this prokaryotic proteasome are clustered in an operon with a short open reading frame that encodes a small protein of 64 amino acids resembling ubiquitin with a carboxyl-terminal di-glycine-glutamine motif (herein called Pup for prokaryotic ubiquitin-like protein). Expression of a polyhistidine-tagged Pup followed by pulldown revealed that a broad spectrum of proteins were post-translationally modified by Pup. Two-dimensional gel electrophoresis allowed us to conclusively identify two targets of this modification as myoinositol-1-phosphate synthase and superoxide dismutase. Deletion of the penultimate di-glycine motif or the terminal glutamine completely abrogated modification of cellular proteins with Pup. Further mass spectral analysis demonstrated that Pup was attached to a lysine residue on its target protein via the carboxyl-terminal glutamine with deamidation of this residue. Finally, we showed that cell lysates of wild type (but not a proteasome mutant) efficiently degraded Pup-modified proteins. These data therefore establish that, despite differences in both sequence and target linkage, Pup plays an analogous role to ubiquitin in targeting proteins to the proteasome for degradation.
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PMID:Proteasomal protein degradation in Mycobacteria is dependent upon a prokaryotic ubiquitin-like protein. 1902 79

In the 7B-1 male-sterile mutant of tomato, pollen development breaks down prior to meiosis in microspore mother cells (MMCs). We have used the proteomic approach to identify differentially expressed proteins in the wild type (WT) and mutant anthers with the objective of analyzing their roles in normal pollen development and in male sterility. By using 2-DE and DIGE technologies, over 1800 spots were detected and of these 215 spots showed 1.5-fold or higher volume ratio in either WT or 7B-1 anthers. Seventy spots, either up-regulated in WT, or in 7B-1, were subjected to mass spectrometry and 59 spots representing 48 distinct proteins were identified. The proteins up-regulated in WT anthers included proteases, e.g., subtilase, proteasome subunits, and 5B-protein with potential roles in tapetum degeneration, FtsZ protein, leucine-rich repeat proteins, translational and transcription factors. In 7B-1 anthers, aspartic protease, superoxide dismutase, ACP reductase, ribonucleoprotein and diphosphate kinase were up-regulated. Also, cystatin inhibitory activity was high in the mutant and correlated with the expression of male sterility. Other proteins including calreticulin, Heat shock protein 70, glucoside hydrolase, and ATPase, were present in both genotypes. The function of identified proteins in tapetum and normal pollen development, and in male sterility is discussed.
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PMID:Differential expression of proteins in the wild type and 7B-1 male-sterile mutant anthers of tomato (Solanum lycopersicum): a proteomic analysis. 1903 92

This study demonstrated that DA and its oxidative metabolites: H2O2 and aminochrome (AM), cyclized DA quinones, could all directly inhibit proteasome activity. DA and AM, especially AM, could induce intensive and irreversible proteasome inhibition, whereas proteasome inhibition induced by H2O2 was weaker and GSH reversible. It was concluded that DA induced irreversible proteasome inhibition via DA-derived quinones, rather than through small molecular weight ROS. The AM was also more toxic than H2O2 to dopaminergic MN9D cells. Furthermore the cytotoxicity and proteasome inhibition induced by DA, AM and H2O2 could be abrogated by GSH, ascorbic acid (AA), Vitamin E, SOD (superoxidase dismutase) or CAT (catalase) with different profiles. Only GSH was potent to abrogate DA, AM or H2O2-induced cell toxicity and proteasome inhibition, as well as to reverse H2O2-induced proteosome inhibition. Therefore, therapeutic strategies to increase GSH level or to use GSH substitutes should function to control PD onset and development.
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PMID:Dopamine (DA) induced irreversible proteasome inhibition via DA derived quinones. 1929 91

Porcine reproductive and respiratory syndrome virus (PRRSV) is known to infect and replicate preferentially in pulmonary alveolar macrophages (PAMs). We applied proteomic approaches to investigate the change in cellular proteins of PAMs infected with PRRSV in vitro. A total of 23 cellular proteins with significant alteration in different courses postinfection were identified. These proteins could be classified into the functions associated with morphogenesis, protein synthesis, metabolism, and stress response and ubiquitin-proteasome pathway. Of the altered proteins, two proteins, heat shock 27 kDa protein (HSP27) and superoxide dismutase 2 (SOD2), involved in stress response or ubiquitin-proteasome pathway were observed to be up-regulated. Our study is the first attempt to analyze the cellular protein profile of PRRSV-infected PAMs by proteomics and provide valuable information for better understanding the function alterations of PAMs induced by PRRSV infection.
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PMID:Changes in the cellular proteins of pulmonary alveolar macrophage infected with porcine reproductive and respiratory syndrome virus by proteomics analysis. 1934 Dec 99


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