Jochen Schäfer scite author profile

Mitochondrial cytopathies represent a heterogeneous group of multisystem disorders which preferentially affect the muscle and nervous systems. They are caused either by mutations in the maternally inherited mitochondrial genome, or by nuclear DNA-mutations. Today, approximately 200 different disease causing mutations of mitochondrial DNA (mtDNA) are known, and due to the increased knowledge about nuclear genetics during the last few years, more and more nuclear mutations are being described. Owing to the non-uniform distribution of mitochondria in tissues and the co-existence of mutated and wildtype mtDNA (heteroplasmy) in these organelles, these disorders may present with a huge variety of symptoms, even if the same mutation is involved. Diagnostic investigations should include the measurement of serum and CSF lactate, neuroradiological tests and a muscle biopsy to show the characteristic ragged-red fibres and cytochrome c oxidase deficient cells and also to provide material for genetic analysis. To date, the treatment of these diseases remains supportive and should focus on typical complications such as cardiac dysrhythmia and endocrinopathy.

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Novel mutations in MYBPC1 are associated with myogenic tremor and mild myopathy

Stavusis

Lāce

Schäfer³

et al. 2019

Annals of Neurology

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Objective: To define a distinct, dominantly inherited, mild skeletal myopathy associated with prominent and consistent tremor in two unrelated, three-generation families. Methods: Clinical evaluations as well as exome and panel sequencing analyses were performed in affected and nonaffected members of two families to identify genetic variants segregating with the phenotype. Histological assessment of a muscle biopsy specimen was performed in 1 patient, and quantitative tremor analysis was carried out in 2 patients. Molecular modeling studies and biochemical assays were performed for both mutations. Results: Two novel missense mutations in MYBPC1 (p.E248K in family 1 and p.Y247H in family 2) were identified and shown to segregate perfectly with the myopathy/tremor phenotype in the respective families. MYBPC1 encodes slow myosin binding protein-C (sMyBP-C), a modular sarcomeric protein playing structural and regulatory roles through its dynamic interaction with actin and myosin filaments. The Y247H and E248K mutations are located in the NH 2 -terminal M-motif of sMyBP-C. Both mutations result in markedly increased binding of the NH 2 terminus to myosin, possibly interfering with normal cross-bridge cycling as the first muscle-based step in tremor genesis. The clinical tremor features observed in all mutation carriers, together with the tremor physiology studies performed in family 2, suggest amplification by an additional central loop modulating the clinical tremor phenomenology. Interpretation: Here, we link two novel missense mutations in MYBPC1 with a dominant, mild skeletal myopathy invariably associated with a distinctive tremor. The molecular, genetic, and clinical studies are consistent with a unique sarcomeric origin of the tremor, which we classify as "myogenic tremor."Circular dichroism experiments were conducted in a 1-mm pathlength cuvette with wild-type and mutant His-tagged proteins of 15 to 17μM in 20mM phosphate buffer (pH 7.5) and 50mM NaCl. Samples were measured in triplicate at temperatures from 20 C to 90 C in 10 C intervals on a Jasco J-810 spectrophotometer. 132 Volume 86, No. 1

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Nerve ultrasound in the differentiation of multifocal motor neuropathy (MMN) and amyotrophic lateral sclerosis with predominant lower motor neuron disease (ALS/LMND)

et al. 2015

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The objective of the study was to investigate nerve ultrasound (US) in comparison to nerve conduction studies (NCS) for differential diagnosis of amyotrophic lateral sclerosis with predominant lower motoneuron disease(ALS/LMND) and multifocal motor neuropathy(MMN). A single-center, prospective, examiner-blinded cross-sectional diagnostic study in two cohorts was carried out. Cohort I: convenience sample of subjects diagnosed with ALS/LMND or MMN (minimal diagnostic criteria:possible ALS (revised EL-Escorial criteria), possible MMN (European Federation of Neurosciences guidelines).Cohort II: consecutive subjects with suspected diagnosis of either ALS/LMND or MMN. Diagnostic US and NCS models were developed based on ROC analysis of 28 different US and 32 different NCS values measured in cohort I. Main outcome criterion was sensitivity/specificity of these models between ALS/LMND and MMN in cohort II.Cohort I consisted of 16 patients with ALS/LMND and 8 patients with MMN. For cohort II, 30 patients were recruited, 8 with ALS/LMND, 5 with MMN, and 17 with other diseases. In cohort I, the three best US measures showed higher mean ± SD areas under the curve than the respective NCS measures (0.99 ± 0.01 vs. 0.79 ± 0.03, p<0.001; two-sided t test). The US model with highest measurement efficacy (8 values) and diagnostic quality reached 100 % sensitivity and 92 % specificity for MMN in cohort II, while the respective NCS model (6 values, including presence of conduction blocks) reached 100 and 52 %. Nerve US is of high diagnostic accuracy for differential diagnosis of ALS/LMND and MMN. It might be superior to NCS in the diagnosis of MMN in hospital-admitted patients with this differential diagnosis.

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Expanded phenotypic spectrum of the m.8344A>G “MERRF” mutation: data from the German mitoNET registry

et al. 2016

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The m.8344A>G mutation in the MTTK gene, which encodes the mitochondrial transfer RNA for lysine, is traditionally associated with myoclonic epilepsy and ragged-red fibres (MERRF), a multisystemic mitochondrial disease that is characterised by myoclonus, seizures, cerebellar ataxia, and mitochondrial myopathy with ragged-red fibres. We studied the clinical and paraclinical phenotype of 34 patients with the m.8344A>G mutation, mainly derived from the nationwide mitoREGISTER, the multicentric registry of the German network for mitochondrial disorders (mitoNET). Mean age at symptom onset was 24.5 years ±10.9 (6-48 years) with adult onset in 75 % of the patients. In our cohort, the canonical features seizures, myoclonus, cerebellar ataxia and ragged-red fibres that are traditionally associated with MERRF, occurred in only 61, 59, 70, and 63 % of the patients, respectively. In contrast, other features such as hearing impairment were even more frequently present (72 %). Other common features in our cohort were migraine (52 %), psychiatric disorders (54 %), respiratory dysfunction (45 %), gastrointestinal symptoms (38 %), dysarthria (36 %), and dysphagia (35 %). Brain MRI revealed cerebral and/or cerebellar atrophy in 43 % of our patients. There was no correlation between the heteroplasmy level in blood and age at onset or clinical phenotype. Our findings further broaden the clinical spectrum of the m.8344A>G mutation, document the large clinical variability between carriers of the same mutation, even within families and indicate an overlap of the phenotype with other mitochondrial DNA-associated syndromes.

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Novel NAXE variants as a cause for neurometabolic disorder: implications for treatment

et al. 2019

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Jochen Schäfer

Mitochondrial Cytopathies

Novel mutations in MYBPC1 are associated with myogenic tremor and mild myopathy

Nerve ultrasound in the differentiation of multifocal motor neuropathy (MMN) and amyotrophic lateral sclerosis with predominant lower motor neuron disease (ALS/LMND)

Expanded phenotypic spectrum of the m.8344A>G “MERRF” mutation: data from the German mitoNET registry

Novel NAXE variants as a cause for neurometabolic disorder: implications for treatment

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