Abstract
Mutations in the DNAJB6 gene have been identified as rare causes of myofibrillar myopathies. However, the underlying pathophysiologica mechanisms remain elusive. DNAJB6 has two known isoforms, including the nuclear isoform DNAJB6a and the cytoplasmic isoform DNAJB6b, which was thought to be the pathogenic isoform. Here, we report a novel recessive mutation c.695_699del (p. Val 232 Gly fs*7) in the DNAJB6 gene, associated with an apparently recessively inherited late onset distal myofibrillar myopathy in a Chinese family. Notably, the novel mutation localizes to exon 9 and uniquely encodes DNAJB6a. We further identified that this mutation decreases the mRNA and protein levels of DNAJB6a and results in an age-dependent recessive toxic effect on skeletal muscle in knock-in mice. Moreover, the mutant DNAJB6a showed a dose-dependent anti-aggregation effect on polyglutamine-containing proteins in vitro. Taking together, these findings reveal the pathogenic role of DNAJB6a insufficiency in myofibrillar myopathies and expand upon the molecular spectrum of DNAJB6 mutations.
Highlights
Myofibrillar myopathies (MFMs) are a subset of progressive and progressive neuromuscular diseases, which affect the cardiac and/or respiratory muscles [24, 32]
The novel recessive mutation resulted in a decrease in DNAJB6a levels, but not DNAJB6b
The J-domain is believed to be the domain for DNAJ-Hsp70 interactions [20], whereas the G/F domain plays a crucial role in substrate processing [42]
Summary
Myofibrillar myopathies (MFMs) are a subset of progressive and progressive neuromuscular diseases, which affect the cardiac and/or respiratory muscles [24, 32]. DNAJB6, a member of the HSP40 family of co-chaperones, is widely expressed in human and murine tissues with variable levels [6, 40] It consists of three conserved domains as follows: (i) the N-terminal domain is α-helical and known as the J-domain; (ii) the G/F domain, rich in glycine/phenylalanine residues, encompasses the majority of disease mutations; (iii) the C-terminal domain contains a serine/threonine (S/T)-rich region [16]. DNAJB6a is longer and predominantly localizes to the nucleus, whereas DNAJB6b misses the “a” region and exhibits both cytosolic and nuclear localization in tissue culture cells [7] Both the isoforms have demonstrated a protective mechanism that plays a crucial role in protein
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