EC:3.4.25.1 - FACTA Search

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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)

Cells undergo a variety of biological responses when placed in hypoxic conditions, including alterations in metabolic state and growth rate. Here we investigated the effect of hypoxia on the ability of myogenic cells to differentiate in culture. Exposure of myoblasts to hypoxia strongly inhibited multinucleated myotube formation and the expression of differentiation markers. We showed that hypoxia reversibly inhibited MyoD, Myf5, and myogenin expression. One key step in skeletal muscle differentiation involves the up-regulation of the cell cycle-dependent kinase inhibitors p21 and p27 as well as the product of the retinoblastoma gene (pRb). Myoblasts cultured under hypoxic conditions in differentiation medium failed to up-regulate both p21 and pRb despite the G1 cell cycle arrest, as evidenced by p27 accumulation and pRb hypophosphorylation. Hypoxia-dependent inhibition of differentiation was associated with MyoD degradation by the ubiquitin-proteasome pathway. MyoD overexpression in C2C12 myoblasts overrode the differentiation block imposed by hypoxic conditions. Thus, hypoxia by inducing MyoD degradation blocked accumulation of early myogenic differentiation markers such as myogenin and p21 and pRb, preventing both permanent cell cycle withdraw and terminal differentiation. Our study revealed a novel anti-differentiation effect exerted by hypoxia in myogenic cells and identified MyoD degradation as a relevant target of hypoxia.
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PMID:Hypoxia inhibits myogenic differentiation through accelerated MyoD degradation. 1475 80

Bone morphogenetic protein-2 (BMP-2) induces a switch in differentiation of mesenchymal cells from the myogenic to the osteogenic lineage. Here we describe that in C2C12 cells, BMP-2 decreases myogenin expression induced by des-(1,3) insulin-like growth factor-1 (des-(1,3)IGF-1) or ectopically expressed from a constitutive promoter, even in conditions where myogenin mRNA levels were unaffected. Addition of BMP-2 decreases myogenin protein half-life to 50%, whereas proteasome inhibitors abolish these effects. Forced expression of Id1, either by transient transfection or under the control of an inducible system, causes degradation of myogenin in the absence of BMP-2. In contrast, E47 overexpression blocks the inhibitory effect of BMP-2 on myogenin levels. Finally, expression of E47 in 293 cells stabilizes myogenin, an effect that is dependent on the heterodimerization mediated by their helix-loop-helix. Our findings indicate that induction of Id1 not only blocks transcriptional activity but also induces myogenin degradation by blocking formation of myogenin-E47 protein complexes.
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PMID:Myogenin protein stability is decreased by BMP-2 through a mechanism implicating Id1. 1532 12

We analyzed the role of Hypoxia-inducible factor (HIF)-1alpha in myoblast differentiation by examining the expression and regulation of HIF-1alpha in proliferating and differentiating C2C12 myoblast, and by knocking down HIF-1alpha of C2C12 myoblasts with small interfering RNA (siRNA), given that HIF-1alpha has been shown to be involved in differentiative process in non-muscle tissues. Although HIF-1alpha mRNA was constantly expressed in C2C12 myoblasts both under growth and differentiating phase, HIF-1alpha protein was hardly detectable in the growth phase but became detectable only during myogenic differentiation even under normoxia. During early stage of C2C12 myogenesis, HIF-1alpha accumulated in the nuclei of myogenin-positive myoblasts. The inhibition of proteasome in the growth phase led to HIF-1alpha protein accumulation, whereas in the differentiation phase the inhibition of Hsp90, which stabilizes HIF-1alpha, suppressed HIF-1alpha accumulation. Therefore, we suggest that the level of HIF-1alpha protein expression is regulated by a proteasome-and chaperon-dependent pathway in C2C12 myoblast. Knockdown of HIF-1alpha effectively blocked myotube formation and myosin heavy chain (MHC) expression. Finally, HIF-1alpha expression in vivo was confirmed in the regenerative muscle tissue of mice after eccentric exercise. We conclude that HIF-1alpha is required for C2C12 myogenesis in vitro, and suggest that HIF-1alpha may have an essential role in regenerative muscle tissue in vivo.
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PMID:Knockdown of hypoxia-inducible factor-1alpha by siRNA inhibits C2C12 myoblast differentiation. 1644 Mar 21

We examined the temporal relationship between portacaval anastomosis (PCA), weight gain, changes in skeletal muscle mass and molecular markers of protein synthesis, protein breakdown, and satellite cell proliferation and differentiation. Male Sprague-Dawley rats with end to side PCA (n=24) were compared with sham-operated pair-fed rats (n=24). Whole body weight, lean body mass, and forelimb grip strength were determined at weekly intervals. The skeletal muscle expression of the ubiquitin proteasome system, myostatin, its receptor (the activin 2B receptor) and its signal, cyclin-dependent kinase inhibitor (CDKI) p21, insulin-like growth factor (IGF)-I and its receptor (IGF-I receptor-alpha), and markers of satellite cell proliferation and differentiation were quantified. PCA rats did not gain body weight and had lower lean body mass, forelimb grip strength, and gastrocnemius muscle weight. The skeletal muscle expression of the mRNA of ubiquitin proteasome components was higher in PCA rats in the first 2 wk followed by a lower expression in the subsequent 2 wk (P<0.01). The mRNA and protein of myostatin, activin 2B receptor, and CDKI p21 were higher, whereas IGF-I and its receptor as well as markers of satellite cell function (proliferating nuclear cell antigen, myoD, myf5, and myogenin) were lower at weeks 3 and 4 following PCA (P < 0.05). We conclude that PCA resulted in uninhibited proteolysis in the initial 2 wk. This was followed by an adaptive response in the later 2 wk consisting of an increased expression of myostatin that may have contributed to reduced muscle protein synthesis, impaired satellite cell function, and lower skeletal muscle mass.
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PMID:Altered expression of genes regulating skeletal muscle mass in the portacaval anastomosis rat. 1718 34

Despite fast protein degradation in muscles, protein concentrations remain constant during differentiation and maintenance of muscle tissues. Myogenin, a basic helix-loop-helix-type myogenic transcription factor, plays a critical role through transcriptional activation in myogenesis as well as muscle maintenance. TBP-interacting protein 120/cullin-associated neddylation-dissociated (TIP120/CAND) is known to bind to cullin and negatively regulate SCF (Skp1-Cullin1-F-box protein) ubiquitin ligase, although its physiological role has not been elucidated. We have identified a muscle-specific isoform of TIP120, named TIP120B/CAND2. In this study, we found that TIP120B is not only induced in association with myogenic differentiation but also actively accelerates the myogenic differentiation of C2C12 cells. Although myogenin is a short lived protein and is degraded by a ubiquitin-proteasome system, TIP120B suppressed its ubiquitination and subsequent degradation of myogenin. TIP120B bound to cullin family proteins, especially Cullin 1 (CUL1), and was associated with SCF complex in cells. It was demonstrated that myogenin was also associated with SCF and that CUL1 small interference RNA treatment inhibited ubiquitination of myogenin and stabilized it. TIP120B was found to break down the SCF-myogenin complex. Consequently suppression of SCF-dependent ubiquitination of myogenin by TIP120B, which leads to stabilization of myogenin, can account for the TIP120B-directed accelerated differentiation of C2C12 cells. TIP120B is proposed to be a novel regulator for myogenesis.
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PMID:TBP-interacting protein 120B (TIP120B)/cullin-associated and neddylation-dissociated 2 (CAND2) inhibits SCF-dependent ubiquitination of myogenin and accelerates myogenic differentiation. 1724

EGLN3, a member of the EGLN family of prolyl hydroxylases, has been shown to catalyze hydroxylation of the alpha subunit of hypoxia-inducible factor-alpha, which targets hypoxia-inducible factor-alpha for ubiquitination by a ubiquitin ligase complex containing the von Hippel-Lindau (VHL) tumor suppressor. We now report that EGLN3 levels increase during C2C12 skeletal myoblast differentiation. EGLN3 small interference RNAs and EGLN3 antisense oligonucleotides blocked C2C12 differentiation and decreased levels of myogenin, a member of the MyoD family of myogenic regulatory factors, which plays a critical role in myogenic differentiation. We also report that EGLN3 interacts with and stabilizes myogenin protein, whereas VHL associates with and destabilizes myogenin via the ubiquitin-proteasome system. The effect of VHL on myogenin stability and ubiquitination can be reversed, at least in part, by overexpression of EGLN3, suggesting that its binding to myogenin may prevent VHL-mediated degradation. These data demonstrate a novel role for EGLN3 in regulating skeletal muscle differentiation and gene expression. In addition, this report provides evidence for a novel pathway that regulates myogenin expression and skeletal muscle differentiation.
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PMID:EGLN3 prolyl hydroxylase regulates skeletal muscle differentiation and myogenin protein stability. 1734 22

We have studied myoblasts from a patient with a severe autosomal dominant Emery-Dreifuss muscular dystrophy (AD-EDMD) caused by an arginine 545 to cystein point mutation (p.R545C) in the carboxy-terminal domain of the lamin A/C gene. This mutation has pleiotropic cellular effects on these myoblasts as demonstrated by nuclear structural defects, exhibiting lobulations which increase with cell passages in culture. The organization of both lamin A/C and its inner nuclear membrane partner emerin are altered, eventually showing a honeycomb pattern upon immunofluorescence microscopy. In addition, the distribution of histone H3 trimethylated at lysine 27 and of phosphorylated RNA polymerase II, markers of inactive and active chromatin domains, respectively, are altered suggesting an impact on gene expression. Patient myoblasts also presented a high index of senescence in ex vivo culture. Moreover, our data show for the first time in an AD-EDMD context that the 20S core particle of the proteasome was inactivated. With cell passages, the 20S core protein progressively accumulated into discrete nuclear foci that largely colocalized with promyelocytic leukemia (PML) bodies while p21 accumulated throughout the nuclear compartment. Proteasome inactivation has been linked to normal cellular ageing. Our data indicate that it may also contribute to premature senescence in AD-EDMD patient myoblasts. Finally, when transferred to low-serum medium, patient myoblasts were deficient in ex vivo differentiation, as assessed by the absence of myotube formation and myogenin induction. Altogether, these data suggest that the LMNA mutation p.R545C impairs both proliferation and differentiation capacities of myoblasts as part of the pathogenesis of AD-EDMD.
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PMID:Impaired nuclear functions lead to increased senescence and inefficient differentiation in human myoblasts with a dominant p.R545C mutation in the LMNA gene. 1958 17

The purpose of the study was to evaluate potential changes in expression of genes involved in protein metabolism and myogenic differentiation markers in skeletal muscle of streptozotocin-diabetic mice. Microarray analysis revealed alterations in the expression of 84 gene transcripts in gastrocnemius muscle of diabetic mice. Regarding protein metabolism a marked downregulation in gene transcripts for: general transcription factor IIA1 (-1.88, P=0.016309), TATA box binding protein (-2.17, P=0.037373), eukaryotic translation initiation factor 4E nuclear import factor 1 (-1.61, P=0.037373), eukaryotic translation elongation factor Ibeta2 (-1.95, P=0.010406), ubiquitin-like 5 (-1.67, P=0.024975) and ubiquitin conjugating enzyme 7 interacting protein 1 (-1.68, P=0.016309) was observed. STZ-diabetes caused a drop in the expression of myogenin, whereas myostatin level was significantly elevated. In conclusion, 1) STZ-diabetes attenuates expression of gene transcripts involved in the process of transcription and translation, which may affect skeletal muscle protein synthesis and lead to nitrogen imbalance, 2) impaired expression of gene transcripts involved in the regulation and activity of the ubiquitin-proteasome pathway may contribute to attenuation of mechanisms eliminating damaged proteins in STZ-diabetes, 3) changes in the expression of key myogenic factors, manifested by a decrease in myogenin level and enhancement of myostatin expression may be one of the mechanisms limiting skeletal muscle growth and regeneration associated with diabetes.
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PMID:Transcriptional dysregulation of skeletal muscle protein metabolism in streptozotocin-diabetic mice. 1960 11

We investigated whether atrophy and hypertrophy signalling were altered in the diaphragm of chronic obstructive pulmonary disease (COPD) patients. We studied diaphragm fibre dimensions and proportion, expression of markers of the ubiquitin-proteasome pathway, nuclear factor (NF)-kappaB pathways, muscle regulatory factors and myostatin in diaphragm biopsies from 19 patients with severe COPD and 13 patients without COPD. Type I proportion was significantly increased in the diaphragm of COPD patients while type II proportion was decreased. The cross-sectional area of all fibre types was reduced in the COPD patients. In addition, MAFbx mRNA was higher in the diaphragm of COPD patients while Nedd4 mRNA decreased. Cytoplasmatic levels of inhibitor protein IkappaBalpha and IkappaBbeta were decreased in the COPD patients as was NF-kappaB p50 DNA-binding activity. MyoD mRNA and its nuclear protein content were decreased in the diaphragm of COPD patients and myogenin mRNA and protein levels remained unchanged. Myostatin mRNA was decreased but its protein levels in the nuclear and cytoplasmic fraction were significantly increased in the COPD patients. These data show that the ubiquitin-proteasome pathway, the NF-kappaB pathway and myostatin protein were up-regulated in the diaphragm of COPD patients while MyoD expression was reduced. These alterations may contribute to diaphragm remodeling in COPD.
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PMID:Atrophy and hypertrophy signalling in the diaphragm of patients with COPD. 1971 78

The ubiquitin-proteasome system plays an important role in the degradation of myofibrillar proteins that occurs in muscle wasting. Many studies have demonstrated the importance of enzymes mediating conjugation of ubiquitin. However, little is known about the role of deubiquitinating enzymes. We previously showed that the USP19-deubiquitinating enzyme is induced in atrophying skeletal muscle (Combaret L, Adegoke OA, Bedard N, Baracos V, Attaix D, Wing SS. Am J Physiol Endocrinol Metab 288: E693-E700, 2005). To further explore the role of USP19, we used small interfering RNA (siRNA) in L6 muscle cells. Lowering USP19 by 70-90% in myotubes resulted in a 20% decrease in the rate of proteolysis and an 18% decrease in the rate of protein synthesis, with no net change in protein content. Despite the decrease in overall synthesis, there were approximately 1.5-fold increases in protein levels of myosin heavy chain (MHC), actin, and troponin T and a approximately 2.5-fold increase in tropomyosin. USP19 depletion also increased MHC and tropomyosin mRNA levels, suggesting that this effect is due to increased transcription. Consistent with this, USP19 depletion increased myogenin protein and mRNA levels approximately twofold. Lowering myogenin using siRNA prevented the increase in MHC and tropomyosin upon USP19 depletion, indicating that myogenin mediated the increase in myofibrillar proteins. Dexamethasone treatment lowered MHC and increased USP19. Depletion of USP19 reversed the dexamethasone suppression of MHC. These studies demonstrate that USP19 modulates transcription of major myofibrillar proteins and indicate that the ubiquitin system not only mediates the increased protein breakdown but is also involved in the decreased protein synthesis in atrophying skeletal muscle.
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PMID:USP19-deubiquitinating enzyme regulates levels of major myofibrillar proteins in L6 muscle cells. 1977 79

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