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)

The proteolytic cleavage of a precursor protein into alpha- and beta-subunits by furin is required to form functional insulin receptor (IR). In this study, we examined if IR undergoes the additional presenilin (PS)/gamma-secretase-dependent processing. In cells treated with gamma-secretase inhibitors or expressing the dominant-negative PS1 variant led to the accumulation of an endogenous IR C-terminal fragment. In the presence of proteasome inhibitors, we detected a PS/gamma-secretase cleavage product of the IR, termed the IR intracellular domain (ICD). Cellular fractionation and confocal microscopy analyses showed that the IR-ICD is predominantly detected in the nucleus. These data indicate that IR is a tyrosine kinase receptor, which undergoes PS/gamma-secretase-dependent processing. We also show that the autophosphorylation levels of the IR beta-subunit upon insulin stimulation were decreased by the inactivation of PS/gamma-secretase, raising the possibility that the PS/gamma-secretase proteolysis of IR may play a modulatory role in insulin signaling.
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PMID:Generation of intracellular domain of insulin receptor tyrosine kinase by gamma-secretase. 1757 76

The GRB2 associated binder 1 (GAB1) is an essential docking/adaptor protein for transmitting intracellular signals of the MET tyrosine kinase receptor activated by hepatocyte growth factor/scatter factor (HGF/SF). We found that in response to hours of HGF/SF treatment, the GAB1 protein level is degraded by a mechanism involving MET activity and the proteasomal machinery. We also showed that GAB1 is both multi- and poly-ubiquitinated in a CBL-dependent manner. A long term exposure to HGF/SF caused a more sustained down-regulation of GAB1 than of MET, associated with a loss of reactivation of the ERK MAP kinases to subsequent acute ligand treatment. These data demonstrate that GAB1 is ubiquitinated by CBL and degraded by the proteasome, and plays a role in negative-feedback regulation of HGF/SF-MET signaling.
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PMID:Degradation of the GAB1 adaptor by the ubiquitin-proteasome pathway hampers HGF/SF-MET signaling. 2178 1

The ubiquitination-proteasome and degradation system is an essential process that regulates protein homeostasis. This system is involved in the regulation of cell proliferation, differentiation and survival, and dysregulations in this system lead to pathologies including cancers. The ubiquitination system is an enzymatic cascade that mediates the marking of target proteins by an ubiquitin label and thereby directs their degradation through the proteasome pathway. The ubiquitination of proteins occurs through a three-step process involving ubiquitin activation by the E1 enzyme, allowing for the transfer to a ubiquitin-conjugated enzyme E2 and to the targeted protein via ubiquitin-protein ligases (E3), the most abundant group of enzymes involved in ubiquitination. Significant advances have been made in our understanding of the role of E3 ubiquitin ligases in the control of bone turnover and tumorigenesis. These ligases are implicated in the regulation of bone cells through the degradation of receptor tyrosine kinases, signaling molecules and transcription factors. Initial studies showed that the E3 ubiquitin ligase c-Cbl, a multi-domain scaffold protein, regulates bone resorption by interacting with several molecules in osteoclasts. Further studies showed that c-Cbl controls the ubiquitination of signaling molecules in osteoblasts and in turn regulates osteoblast proliferation, differentiation and survival. Recent data indicate that c-Cbl expression is decreased in primary bone tumors, resulting in excessive receptor tyrosine kinase signaling. Consistently, c-Cbl ectopic expression reduces bone tumorigenesis by promoting tyrosine kinase receptor degradation. Here, we review the mechanisms of action of E3 ubiquitin ligases in the regulation of normal and pathologic bone formation, and we discuss how targeting the interactions of c-Cbl with some substrates may be a potential therapeutic strategy to promote osteogenesis and to reduce tumorigenesis.
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PMID:E3 ubiquitin ligase-mediated regulation of bone formation and tumorigenesis. 2332 70

Reduced signaling through the C. elegans insulin/insulin-like growth factor-1-like tyrosine kinase receptor daf-2 and dietary restriction via bacterial dilution are two well-characterized lifespan-extending interventions that operate in parallel or through (partially) independent mechanisms. Using accurate mass and time tag LC-MS/MS quantitative proteomics, we detected that the abundance of a large number of ribosomal subunits is decreased in response to dietary restriction, as well as in the daf-2(e1370) insulin/insulin-like growth factor-1-receptor mutant. In addition, general protein synthesis levels in these long-lived worms are repressed. Surprisingly, ribosomal transcript levels were not correlated to actual protein abundance, suggesting that post-transcriptional regulation determines ribosome content. Proteomics also revealed the increased presence of many structural muscle cell components in long-lived worms, which appeared to result from the prioritized preservation of muscle cell volume in nutrient-poor conditions or low insulin-like signaling. Activation of DAF-16, but not diet restriction, stimulates mRNA expression of muscle-related genes to prevent muscle atrophy. Important daf-2-specific proteome changes include overexpression of aerobic metabolism enzymes and general activation of stress-responsive and immune defense systems, whereas the increased abundance of many protein subunits of the proteasome core complex is a dietary-restriction-specific characteristic.
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PMID:Reduced insulin/insulin-like growth factor-1 signaling and dietary restriction inhibit translation but preserve muscle mass in Caenorhabditis elegans. 2400 65


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