Involvement of Clusterin and the Aggresome in Abnormal Protein Deposits in Myofibrillar Myopathies and Inclusion Body Myositis

Ferrer, Isidre; Carmona, Marga; Blanco, R.; Moreno, Dolores; Torrejón‐Escribano, Benjamín; Olivé, Montse

doi:10.1111/j.1750-3639.2005.tb00504.x

Cited by 39 publications

(33 citation statements)

References 65 publications

(62 reference statements)

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“…These proteins may accumulate in the cytoplasm of muscle fibers due to malfunctioning of the proteasome machinery, direct toxicity of monomers or oligomers of aberrant proteins and generation of cell stress, as described by Askanas et al [1][2][3]7]. Many of the noted accumulations however do not appear specific for IBM because they are also found in other vacuolar myopathies especially myofibrillar, hereditary IBM or even in chronic neurogenic conditions such as the postpolio syndrome [89][90][91][92][93][94][95][96]. Autophagic processing, which is relevant to degradation of intracellular proteins, may also play a role since the vacuoles have autophagic properties [97] involved in processing of APP/ b-amyloid.…”

Section: Interrelationship Between Inflammation and Amyloid Or Stressmentioning

confidence: 89%

Pathophysiology of inflammatory and autoimmune myopathies

Dalakas

2011

La Presse Médicale

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Section: Interrelationship Between Inflammation and Amyloid Or Stressmentioning

confidence: 89%

Pathophysiology of inflammatory and autoimmune myopathies

Dalakas

2011

La Presse Médicale

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“…1H), synemin, Xin, TAR DNA-binding protein 43 (TDP-43), and co-chaperones including αB-crystallin (Fig. 1E), heat shock protein (Hsp) 27 ( Fig.1I) and DNAJB2 [8][9][10][11][12][13][14][15][16]. Additional abnormal accumulation of several other proteins was documented in myotilinopathy and desminopathy.…”

Section: Pathologic and Clinical Features 21 Morphologymentioning

confidence: 99%

Myofibrillar myopathies

Selcen¹

2010

Current Opinion in Neurology

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SUMMARYMyofibrillar myopathies represent a group of muscular dystrophies with a similar morphologic phenotype. They are characterized by a distinct pathologic pattern of myofibrillar dissolution associated with disintegration of the Z-disk, accumulation of myofibrillar degradation products, and ectopic expression of multiple proteins and sometimes congophilic material. The clinical features of myofibrillar myopathies are more variable. These include progressive muscle weakness, that often involves or begins in distal muscles but limb-girdle or scapuloperoneal distributions can also occur. Cardiomyopathy and peripheral neuropathy are frequent associated features. EMG of the affected muscles reveals myopathic motor unit potentials and abnormal irritability often with myotonic discharges. Rarely, neurogenic motor unit potentials or slow nerve conductions are present. The generic diagnosis of myofibrillar myopathies is based on muscle biopsy findings in frozen sections. To date, all myofibrillar myopathy mutations have been traced to Z-disk associated proteins, namely, desmin, αB-crystallin, myotilin, ZASP, filamin C and Bag3. However, in the majority of the myofibrillar myopathy patients the disease gene awaits discovery.

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“…19,20 Preliminary work in our laboratory identified the presence of ubiquitin carboxy-terminal hydrolase L3 (UCHL3) in normal and diseased muscle, but UCHL1 was also present in the setting of abnormal protein deposits in MFMs. This was unexpected, because UCHL1 is abundant in brain and testis, whereas other members of the UCHL family, but not UCHL1, are expressed in other organs.…”

mentioning

confidence: 99%

Target Genes of Neuron-Restrictive Silencer Factor Are Abnormally Up-Regulated in Human Myotilinopathy

Barrachina

Moreno

Juvés

et al. 2007

The American Journal of Pathology

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Myotilinopathy is a subgroup of myofibrillar myopathies caused by mutations in the myotilin gene in which there is aggregation of abnormal cytoskeletal proteins and ubiquitin. We report here on the accumulation of neuron-related proteins such as ubiquitin carboxy-terminal hydrolase L1 (UCHL1) , synaptosomal-associated protein 25 , synaptophysin , and ␣-internexin in aberrant protein aggregates in myotilinopathy. We have determined that the neuronrestrictive silencer factor (NRSF)/RE1 silencing transcription factor (REST), a transcription factor expressed in non-neuronal tissues repressing the expression of several neuronal genes, is reduced in myotilinopathies. Moreover, NRSF transfection reduces UCHL1, synaptosomal-associated protein 25, synaptophysin, and ␣-internexin mRNA levels in DMS53 cells, whereas short interferring NRSF transfection increases UCHL1 and synaptophysin mRNA levels in U87-MG cells. Chromatin immunoprecipitation assays have shown that NRSF interacts with the UCHL1 promoter in U87-MG and HeLa cells. In silico analysis of the UCHL1 gene promoter sequence using the MatInspector software has predicted three potential neuron-restrictive silencer elements ( 1-8 Mutations in several genes have been identified as causing MFMs: desmin, ␣B-crystallin, selenoprotein N, myotilin, ZASP, and filamin C. 5,7,9 -17 The causes of protein aggregation in MFMs are not fully understood, but our previous studies have shown that impaired protein degradation probably plays a crucial role, as suggested by abnormal expression levels and aberrant localization of several subunits of the proteasome 19S and 26S and by the up-regulation of immunoproteasomal subunits in muscle fibers containing abnormal protein deposits.18 Moreover, protein accumulations are enriched in clusterin and ␥-tubulin, whereas p62 and mutant ubiquitin colocalize with protein aggregates, thus suggesting p62 involvement in protein aggregation and mutant ubiquitin in protein degradation in MFMs. 19,20 Preliminary work in our laboratory identified the presence of ubiquitin carboxy-terminal hydrolase L3 (UCHL3) in normal and diseased muscle, but UCHL1 was also present in the setting of abnormal protein deposits in MFMs. This was unexpected, because UCHL1 is abundant in brain and testis, whereas other members of the UCHL family, but not UCHL1, are expressed in other organs. [21][22][23] UCHLs are enzymes involved in the hydrolysis of polyubiquitin chains to increase the availability of free monomeric ubiquitin to the ubiquitin-proteasome

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Involvement of Clusterin and the Aggresome in Abnormal Protein Deposits in Myofibrillar Myopathies and Inclusion Body Myositis

Cited by 39 publications

References 65 publications

Pathophysiology of inflammatory and autoimmune myopathies

Pathophysiology of inflammatory and autoimmune myopathies

Myofibrillar myopathies

Target Genes of Neuron-Restrictive Silencer Factor Are Abnormally Up-Regulated in Human Myotilinopathy

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