As with other types of myofibrillar myopathies [28,29], the typical light microscopy features of Chinese desminopathy patients included: (i) abnormal fibre regions harbouring amorphous materials, nemaline-like structures, and cytoplasmic bodies in MGT-stained sections. We found that amorphous materials were more common than other changes; (ii) sharply abnormal regions with a decrease in oxidative enzyme activity including core and rubbed-out fibres; (iii) rimmed vacuoles; and (iv) ectopic aggregations of desmin and other
proteins. However, our observations illustrated the broad variability in myopathological changes from patient to patient. A relationship between pathological changes and mutation positions in the desmin gene could not be established, even in GPCR Compound Library order individuals from the same family. In two related Dutch families with the S13F mutation in the head domain, muscle biopsies showed dystrophic changes in three patients and mild myopathic changes in the other one. All presented with no occurrence of amorphous materials in the fibres [28]. In our observations, the index case of the S12F mutation of the head domain had a dystrophy-like change with amorphous material in the selleck chemicals llc abnormal fibres, while his elder brother
showed myopathy-like changes with numerous cytoplasmic bodies which has been described by Pica et al. in a Chinese patient with the S13F mutation [22]. Most rod domain mutations were reported to show amorphous accumulations in abnormal fibre regions in MGT staining [6]. However, we 2-hydroxyphytanoyl-CoA lyase found that amorphous materials were also dominant in patients with mutations in the tail domain. Our observations suggest that it is difficult to predict the mutation positions in the desmin
gene from the different light microscopy features. Electron microscopy plays a central role in the diagnostic workup of myofibrillar myopathy. Most reports have emphasized that granulofilamentous electron-dense materials between myofibrils or in subsarcolemmal areas are ultrastructural features of desminopathy [30], and these were identified in all our patients. Other ultrastructural features included cytoplasmic bodies, nemaline bodies, and ‘ring like structures’[22,31,32]. We could not find any differences between desminopathy and filaminopathy, resulting from defects in the filamin c gene, in the cytoplasmic bodies in electron microscopy [33]. The ‘ring-like structure’, a phenomenon firstly described by Pruszczyk et al. in a patient with the E413K mutation in the tail domain, was similar to granular electron dense material originating from the level of the Z-disc [32]. The ‘ring-like structure’ consists of highly electron-dense materials with a hole in the centre. We found both typical nemaline bodies and ‘ring-like structures’ in two of our patients with a mutation in the rod domain. As the ‘ring-like structure’ was only observed in desminopathy, this pathological change may be another useful indicator in the genetic analysis of the desmin gene.