Characterization of MTM1 mutations in 31 Japanese families with myotubular myopathy, including a patient carrying 240 kb deletion in Xq28 without male hypogenitalism.

X-linked myotubular myopathy is a congenital muscle disorder due to MTM1 mutation, and is characterized clinically by generalized muscle weakness and hypotonia at birth usually resulting in early death. We newly identified 26 unrelated Japanese patients with MTM1 mutations by genomic DNA and transcript analysis, including 12 novel mutations. Among 31 patients, including our previously reported five patients, the c.1261-10A>G splice site mutation was the most frequent mutation. Three mutations, one missense and two splice site, were associated with milder phenotype. Of particular interest, one boy had a 240 kb deletion in Xq28 encompassing CXorf6 (formerly F18), MTM1 and MTMR1 but was not accompanied by hypogenitalism. CXorf6, which have been implicated in male sexual development, was not entirely deleted in this boy, resulting in the fusion with the MTMR1 gene. A chimeric fusion transcript was detected in patient's muscle by RT-PCR, suggesting this fusion gene product avoids the phenotype. This deletion led us to refine the critical region of CXorf6 for the development of male genitalia.

Clinical heterogeneity in dysferlinopathy.

OBJECTIVE: To clarify the clinical heterogeneity and genotype-phenotype correlation in dysferlinopathy. METHODS: We evaluated clinical parameters of 74 dysferlinopathy patients with known dysferlin gene mutations who were previously reported in the literature. RESULTS: The age at onset varied from 12 to 59 years (mean 21.7 years). Based on the initial distribution of muscle involvement, clinical phenotypes were divided into four subtypes: limb-girdle type, Miyoshi's type, distal anterior compartment type, or scapuloperoneal type. These phenotypic differences were prominent at the early stages, but were difficult to recognize later in the progression of the disease. Patients with missense mutations had significantly more severe functional status at examination and higher creatine kinase levels than those with frameshift or nonsense mutations. CONCLUSION: Dysferlinopathy exhibited marked heterogeneity in the age at onset, initial distribution of muscle involvement, and rate of disease progression. As this heterogeneity was observed even within the same family, some additional factors distinct from dysferlin might be involved.

Role of proteasomes in the formation of neurofilamentous inclusions in spinal motor neurons of aluminum-treated rabbits.

We examined the role of the 20S proteasome in pathologic changes, including abnormal aggregation of phosphorylated neurofilaments, of spinal motor nerve cells from aluminum-treated rabbits. Immunohistochemistry for the 20S proteasome revealed that many lumbar spinal motor neurons without intracytoplasmic neurofilamentous inclusions or with small inclusions were more intensely stained in aluminum-treated rabbits than in controls, whereas the immunoreactivity was greatly decreased in some enlarged neurons containing large neurofilamentous inclusions. Proteasome activity in whole spinal cord extracts was significantly increased in aluminum-treated rabbits compared with controls. Furthermore, Western blot analysis indicated that the 20S proteasome degraded non-phosphorylated high molecular weight neurofilament (neurofilament-H) protein in vitro. These results suggest that aluminum does not inhibit 20S proteasome activity, and the 20S proteasome degrades neurofilament-H protein. We propose that abnormal aggregation of phosphorylated neurofilaments is induced directly by aluminum, and is not induced by the proteasome inhibition in the aluminum-treated rabbits. Proteasome activation might be involved in intracellular proteolysis, especially in the earlier stages of motor neuron degeneration in aluminum-treated rabbits.

Myosin loss in denervated rat soleus muscle after dexamethasone treatment.

OBJECTIVE: Critical illness myopathy (CIM) is an acute myopathy that appears in the setting of critical illness or during exposure to corticosteroids and neuromuscular blocking agents. Its pathological feature is selective loss of thick myosin filaments. Our aim is to gain further insight into the pathomechanism of myosin loss in this myopathy. METHODS: To clarify the expression of myosin heavy chain (MHC) and ubiquitin ligase atrogin-1 in this myopathy, histological, immunohistochemical, SDS-PAGE, and semiquantitative reverse transcriptase-polymerase chain reaction studies were performed on innervated and denervated rat soleus muscles after saline and dexamethasone treatments. RESULTS: Denervated muscles from dexamethasone-treated rats showed marked MHC loss. The mRNA expression of ubiquitin ligase atrogin-1 was significantly increased in denervated dexamethasone-treated muscles, suggesting that the ubiquitin-proteasome pathway plays an important role in muscular wasting in CIM. Furthermore, mRNA levels of MHC I, a myosin isoform, were decreased in the denervated dexamethasone-treated muscles. CONCLUSION: Our findings suggest that an altered transcription rate of myosin, as well as the upregulation of multiple ubiquitin ligases, may be responsible for selective myosin loss in this myopathy.

Adhesion molecule expression in experimental myositis.

Experimental allergic myositis (EAM) in Lewis rats, induced with partially purified myosin, is regarded as a model of human polymyositis. To clarify the role of adhesion molecules in the pathogenesis of EAM in Lewis rats, we investigated intramysial expressions of the intercellular adhesion molecule (ICAM)-1 and vascular cell adhesion molecule (VCAM)-1, and the serum level of soluble ICAM-1 in EAM rats. All the EAM rat muscles had scattered inflammatory foci, as well as cell infiltration and necrosis, by week 4 after the initial immunization (i.e., day 0 after the last immunization). As compared with the control muscles, ICAM-1 and VCAM-1 were strongly expressed immunohistochemically in the endothelium of vessels in the endomysium and perimysium, and to lesser extents in the inflammatory infiltrates and on the sarcolemma of nonnecrotic muscle fibers adjacent to the inflammatory infiltrates or invaded muscle fibers. ICAM-1 in the muscle extracts and sera from EAM rats increased on each test day, as compared with extracts from the normal controls. The values peaked on day 0 after the last immunization, then gradually decreased with time. ICAM-1 elevations in the muscle extracts were correlated with the percent of sections that had inflammatory lesions (P = 0.032) and the histological scores (P = 0.005) on day 0, whereas there was no significance on days 3 and 7. These findings suggest that the adhesion molecules ICAM-1 and VCAM-1 increase in the early stage of EAM, and function in the initiation of the inflammatory process of myositis.