Gisela Stoltenburg

Electron microscopy in myofibrillar myopathies reveals clues to the mutated gene.

We studied the ultrastructural characteristics in patients with myofibrillar myopathy (MFM) and differentiated between MFM-subtypes using electron microscopic (EM) findings. The ultrastructural findings in 19 patients with different genetically proven MFMs (9 desmin, 5 alphaB-crystallin, 3 ZASP, 2 myotilin) were analyzed. In one ZASPopathy, we additionally performed an immunoEM study, using antibodies against desmin, alphaB-crystallin, ZASP and myotilin. The ultrastructural findings in desminopathies and alphaB-crystallinopathies were very similar and consisted of electrondense granulofilamentous accumulations and sandwich formations. They differed in the obvious presence of early apoptotic nuclear changes in alphaB-crystallinopathies. ZASPopathies were characterized by filamentous bundles (labeled with the myotilin antibody on immunoEM), and floccular accumulations of thin filamentous material. Tubulofilamentous inclusions in sarcoplasm and myonuclei in combination with filamentous bundles were characteristic for myotilinopathies. We conclude that MFMs ultrastructural findings can direct diagnostic efforts towards the causal gene mutated, and that EM should be included in the diagnostic workup of MFMs.

Differential involvement of sarcomeric proteins in myofibrillar myopathies: a morphological and immunohistochemical study.

Myofibrillar myopathies (MFMs) are rare inherited or sporadic progressive neuromuscular disorders with considerable clinical and genetic heterogeneity. In the current study, we have analyzed histopathological and immunohistochemical characteristics in genetically identified MFMs. We performed a morphological and morphometrical study in a cohort of 24 genetically identified MFM patients (12 desmin, 6 αB-crystallin, 4 ZASP, 2 myotilin), and an extensive immunohistochemical study in 15 of these patients, using both well-known and novel antibodies directed against distinct compartments of the muscle fibers, including Z-disc and M-band proteins. Our morphological data revealed some significant differences between the distinct MFM subgroups: the consistent presence of ‘rubbed-out’ fibers in desminopathies and αB-crystallinopathies, an elevated frequency of vacuoles in ZASPopathies and myotilinopathies, and the presence of a few necrotic fibers in the two myotilinopathy patients. Immunohistochemistry showed that in MFM only a subset of Z-disc proteins, such as filamin C and its ligands myotilin and Xin, exhibited significant alterations in their localization, whereas other Z-disc proteins like α-actinin, myopodin and tritopodin, did not. In contrast, M-band proteins revealed no abnormalities in MFM. We conclude that the presence of ‘rubbed-out’ fibers are a suggestive feature for desminopathy or αB-crystallinopathy, and that MFM is not a general disease of the myofibril, but primarily affects a subgroup of stress-responsive Z-disc proteins.

[Muscular dystrophy due to mutations in anoctamin 5: clinical and molecular genetic findings].

Recessive mutations in the anoctamin 5 (ANO5) gene have been recently identified in families with limb girdle muscular dystrophy (LGMD2L) and distal non-dysferlin Miyoshi myopathy. Anoctamin 5 is supposed to be a putative calcium-activated chloride channel. We report five German patients (four index patients) with muscle dystrophy due to mutations in the ANO5 gene. Sequencing of the ANO5 exons 5, 13 and 20 was performed to screen for a common c.191dupA mutation and two other reported mutations (c.1295C>G and p.R758C). The whole coding region of the ANO5 gene was sequenced to identify new mutations. Phenotypically, three patients showed LGMD and one patient Miyoshi type distal myopathy. One sibling had asymptomatic hyperCKemia. The age at onset was 64, 38 and 40 years in patients with LGMD and 23 years in the patient with distal myopathy. The four symptomatic patients showed remarkable asymmetric muscle involvement. There was marked CK elevation (11 to 30 times). Electron microscopy showed multifocal gaps in the sarcolemmal membrane. All patients harboured the common c.191dupA mutation in at least one allele. Two patients with LGMD were homozygous and the third patient and his asymptomatic sister were compound heterozygous for the c.191dupA mutation and a novel p.T548I mutation. The patient with distal myopathy harboured the p.R758C mutation in the second allele. Mutations in the ANO5 gene seem to be a relatively common cause of muscular dystrophy in Germany. Cases with late onset or asymptomatic hyperCKemia can occur. Clinically, asymmetric manifestation is typical.

Mitochondrial abnormalities in myofibrillar myopathies.

Histological mitochondrial changes are generally found to be associated with late onset myofibrillar myopathies (MFMs). How these changes contribute to the pathogenesis of MFMs is unknown. Mitochondrial changes, including COX-deficient fibers (n = 8), biochemical activities of respiratory chain complexes (n = 7), and multiple mtDNA deletions by long-range PCR (n = 9) were examined in patients with genetically confirmed MFMs [MYOT (n = 2), DES (n = 1), ZASP (n = 2), FLNC (n = 4)] and compared with age and sex matched normal controls (n = 27) and patients with a mitochondrial disorder with multiple mtDNA deletions due to nuclear genetic defects (n = 8). In 2 MFM patients, micro dissected fibers were analyzed for multiple mtDNA deletions by nested long-range PCR. The COX-deficient fibers only partly corresponded with fibers containing myofibrillar accumulations. In total, there was no difference in the percentage of COX-deficient fibers in MFM patients and normal controls. However, the percentage of COX-deficient fibers was significantly higher in 3 MFM patients. Two MFM patients but none of the controls had multiple mtDNA deletions. Nested long-range PCR detected multiple mtDNA deletions only in COX-deficient fibers. Citrate synthase activities in MFM patients were 1.5-fold increased by compared to those in controls, suggesting initiation of mitochondrial alterations. However, it is unclear whether this is a direct consequence of MFM pathology. *both authors contributed equally to the manuscript.

Sialylation and Muscle Performance: Sialic Acid Is a Marker of Muscle Ageing

Sialic acids (Sia) are widely expressed as terminal monosaccharides on eukaryotic glycoconjugates. They are involved in many cellular functions, such as cell–cell interaction and signal recognition. The key enzyme of sialic acid biosynthesis is the bifunctional UDP-N-acetylglucosamine-2-epimerase/N-acetylmannosamine kinase (GNE), which catalyses the first two steps of Sia biosynthesis in the cytosol. In this study we analysed sialylation of muscles in wild type (C57Bl/6 GNE +/+) and heterozygous GNE-deficient (C57Bl/6 GNE +/−) mice. We measured a significantly lower performance in the initial weeks of a treadmill exercise in C57Bl/6 GNE +/− mice compared to wild type C57Bl/6 GNE +/+animals. Membrane bound Sia of C57Bl/6 GNE +/− mice were reduced by 33–53% at week 24 and by 12–15% at week 80 in comparison to C57Bl/6 GNE +/+mice. Interestingly, membrane bound Sia concentration increased with age of the mice by 16–46% in C57Bl/6 GNE +/+, but by 87–207% in C57Bl/6 GNE +/−. Furthermore we could identify specific morphological changes in aged muscles. Here we propose that increased Sia concentrations in muscles are a characteristic feature of ageing and could be used as a marker for age-related changes in muscle.

Myopathy with hexagonally cross-linked crystalloid inclusions: Delineation of a clinico-pathological entity

A novel myopathy characterized by hexagonally cross-linked tubular arrays has been reported in five patients. We studied the clinical and histopathological features of five additional unrelated patients with this myopathy. Patients experienced exercise intolerance with exercise-induced myalgia and weakness, without rhabdomyolysis. One patient additionally presented mild permanent pelvic girdle muscle weakness. Age at onset varied between 13 and 56 years. The inclusions were eosinophilic on H and E, bright red with modified Gomoris trichrome stains, present in type 2 fibers, and revealed immunoreactivity selectively for a caveolin-3-antibody. Ultrastructurally, the inclusions showed a highly organized, hexagonally cross-linked crystalloid structure. Mutations in the caveolin-3 encoding gene were excluded. Biochemical assessment of glycogenolysis in muscle was normal. Inherited or sporadic myopathy with hexagonally cross-linked tubular arrays is associated with a homogeneous clinical and histopathological phenotype. This myopathy should be included in the differential diagnosis of patients with exercise intolerance and myalgia.

Functional relevance of mitochondrial abnormalities in sporadic inclusion body myositis

Cytochrome c oxidase (COX)-deficient fibers and multiple mitochondrial DNA (mtDNA) deletions are frequent findings in sporadic inclusion body myositis (s-IBM). However, the functional impact of these defects is not known. We investigated oxygen desaturation during exercise using the forearm exercise test, accumulation of lactate during exercise using a cycle ergometry test and mitochondrial changes (COX-deficient fibers, biochemical activities of respiratory chain complexes, multiple mtDNA deletions by long-range polymerase chain reaction) in 10 patients with s-IBM and compared the findings with age and sex-matched normal and diseased controls (without mitochondrial disorders) as well as patients with mitochondrial disorder due to nuclear gene defects resulting in multiple mtDNA deletions (MITO group). The mean age of the s-IBM patients was 68.2 ± 5.7 years (range: 56-75). Patients with s-IBM had statistically significantly reduced oxygen desaturation (ΔsO2) during the handgrip exercise (p<0.05) and elevated peak serum lactate levels during cycle ergometry compared to normal controls (p<0.05). The percentage of COX-deficient fibers in s-IBM and MITO patients was significantly increased compared to normal controls (p<0.01). Five out of nine s-IBM patients had multiple mtDNA deletions. Thirty-three percent of s-IBM patients showed an increased citrate synthase content and decreased activities of complex IV (COX). The biochemical pattern of respiratory chain complexes in patients with s-IBM and MITO was similar. Histopathological analysis showed similar changes in s-IBM and MITO due to nuclear gene defects. Functional tests reflecting mitochondrial impairment suggest a contribution of mitochondrial defects to disease-related symptoms such as fatigue and exertion-induced symptoms.

Hemosiderin deposits in chronic graft‐vs.‐host disease related myopathy

Abstract:  Chronic graft‐vs.‐host disease (cGVHD) occurs in 20–50% of patients who survive for at least 100 d after allogeneic stem cell transplantation (SCT). cGVHD includes scleroderma‐like skin changes, chronic cholangitis, obstructive lung disease and general wasting syndrome. Polymyositis or myopathy are rare manifestations of cGVHD with approximately 40 reported cases. Polymyositis accompanied by hemosiderin deposits in cGVHD has been reported only once, and there are no reports on lipofuscin deposits in skeletal muscle cells in cGVHD. We report here on a 56‐yr‐old male who underwent allogeneic SCT in 1999 for osteomyelofibrosis and progressive hematopoietic insufficiency. In February 2004, the patient was hospitalized for progressive muscular weakness with loss of the ability to walk. Laboratory tests demonstrated normal values for serum creatine kinase, aldolase and lactic dehydrogenase; the ferritin level was highly elevated. The femoral muscle biopsy showed mostly perifascicular atrophy as well as numerous subsarcolemmal hemosiderin and lipofuscin deposits. Intravenous administration of the chelating agent deferoxamine was ineffective. Three weeks later the patient died of aspiration pneumonia. Interestingly, autopsy disclosed moderate hemosiderin deposits in the liver, the organ usually involved in hemosiderosis.

Arthrogryposis multiplex with deafness, inguinal hernias, and early death: A family report of a probably autosomal recessive trait

We report on three male newborn infants of a highly inbred Lebanese family presenting with a characteristic phenotype: arthrogryposis multiplex, deafness, large inguinal hernia, hiccup‐like diaphragmatic contractions, and inability to suck, requiring nasogastric gavage feeding. All three boys died from respiratory failure during the first 3 months of life. Intra vitam or post mortem examinations revealed myopathic changes and elevated glycogen content of muscle tissue. This new syndrome is probably transmitted in an autosomal recessive mode, although X‐linked inheritance cannot be excluded.

Pseudo-Popeye syndrome Extramedullary plasmacytoma manifesting in skeletal muscle

A 75-year-old woman with medullary plasmacytoma reported progressive swelling of the forearms, left more than right (figure 1), with median nerve contribution pain. Examination revealed distal sensory loss and left hand weakness with atrophy of the median and ulnar nerve–innervated muscles. Arterial pulses were palpable. Electrodiagnostic studies showed ulnar nerve conduction block and left thenar muscle denervation. MRI showed subcutaneous and muscle edema in the forearm flexor muscles, mimicking Popeye syndrome.1 Fasciotomy for compartment syndrome and muscle biopsy were performed. Muscle showed lymphoplasmacytic infiltrates (figure 2), a rare extramedullary manifestation of plasmacytoma.2,3 Sensory loss and muscle strength improved after fasciotomy. Therapy for plasmacytoma was bortezomib/dexamethasone plus radiotherapy of both forearms.