Ali‐Reza Moslemi scite author profile

In this study we present incidence, point prevalence, and mortality figures of mitochondrial encephalomyopathies in a population-based study of children from western Sweden. Through the screening of registers and review of medical records, we identified 32 patients under 16 years of age from the study population who were diagnosed between January 1, 1984, and December 31, 1998. The incidence of mitochondrial encephalomyopathies in preschool children (<6 years of age) was 1 out of 11,000. The preschool incidence of Leigh's syndrome was 1 out of 32,000, and the preschool incidences of both Alper's syndrome and infantile mitochondrial myopathy with cytochrome C oxidase deficiency were 1 out of 51,000. The point prevalence January 1, 1999) of mitochondrial encephalomyopathies in children under 16 years of age was 1 out of 21,000. The median survival for patients with infantile onset was until 12 years of age. We identified 4 cases with mitochondrial DNA point mutations, 2 cases with mitochondrial DNA deletions, and 2 cases with nuclear mutations in the SURF1 gene. We conclude that mitochondrial encephalomyopathies are relatively common neurometabolic disorders in childhood.

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The incidence of mitochondrial encephalomyopathies in childhood: Clinical features and morphological, biochemical, and DNA abnormalities

Darín

Oldfors

Moslemi

et al. 2001

Annals of Neurology

298

104

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Molecular basis of infantile reversible cytochrome c oxidase deficiency myopathy

Horvath

Kemp

Tuppen

et al. 2009

Brain

112

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Childhood-onset mitochondrial encephalomyopathies are usually severe, relentlessly progressive conditions that have a fatal outcome. However, a puzzling infantile disorder, long known as ‘benign cytochrome c oxidase deficiency myopathy’ is an exception because it shows spontaneous recovery if infants survive the first months of life. Current investigations cannot distinguish those with a good prognosis from those with terminal disease, making it very difficult to decide when to continue intensive supportive care. Here we define the principal molecular basis of the disorder by identifying a maternally inherited, homoplasmic m.14674T>C mt-tRNAGlu mutation in 17 patients from 12 families. Our results provide functional evidence for the pathogenicity of the mutation and show that tissue-specific mechanisms downstream of tRNAGlu may explain the spontaneous recovery. This study provides the rationale for a simple genetic test to identify infants with mitochondrial myopathy and good prognosis.

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Mitochondrial abnormalities in inclusion-body myositis

Oldfors¹,

Moslemi²,

Jonasson³

et al. 2006

Neurology

119

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Mitochondrial changes are frequently encountered in sporadic inclusion-body myositis (s-IBM). Cytochrome c oxidase (COX)-deficient muscle fibers and large-scale mitochondrial DNA (mtDNA) deletions are more frequent in s-IBM than in age-matched controls. COX deficient muscle fibers are due to clonal expansion of mtDNA deletions and point mutations in segments of muscle fibers. Such segments range from 75 microm to more than 1,000 microm in length. Clonal expansion of the 4977 bp "common deletion" is a frequent cause of COX deficient muscle fiber segments, but many other deletions also occur. The deletion breakpoints cluster in a few regions that are similar to what is found in human mtDNA deletions in general. Analysis in s-IBM patients of three nuclear genes associated with multiple mtDNA deletions, POLG1, ANT1 and C10orf2, failed to demonstrate any mutations. In s-IBM patients with high number of COX-deficient fibers, the impaired mitochondrial function probably contribute to muscle weakness and wasting. Treatment that has positive effects in mitochondrial myopathies may be tried also in s-IBM.

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POLG1Mutations Associated With Progressive Encephalopathy in Childhood

Kollberg

Moslemi

Darín

et al. 2006

J Neuropathol Exp Neurol

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We have identified compound heterozygous missense mutations in POLG1, encoding the mitochondrial DNA polymerase gamma (Pol gamma), in 7 children with progressive encephalopathy from 5 unrelated families. The clinical features in 6 of the children included psychomotor regression, refractory seizures, stroke-like episodes, hepatopathy, and ataxia compatible with Alpers-Huttenlocher syndrome. Three families harbored a previously reported A467T substitution, which was found in compound with the earlier described G848S or the W748S substitution or a novel R574W substitution. Two families harbored the W748S change in compound with either of 2 novel mutations predicted to give an R232H or M1163R substitution. Muscle morphology showed mitochondrial myopathy with cytochrome c oxidase (COX)-deficient fibers in 4 patients. mtDNA analyses in muscle tissue revealed mtDNA depletion in 3 of the children and mtDNA deletions in the 2 sibling pairs. Neuropathologic investigation in 3 children revealed widespread cortical degeneration with gliosis and subcortical neuronal loss, especially in the thalamus, whereas there were only subcortical neurodegenerative findings in another child. The results support the concept that deletions as well as depletion of mtDNA are involved in the pathogenesis of Alpers-Huttenlocher syndrome and add 3 new POLG1 mutations associated with an early-onset neurodegenerative disease.

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Ali‐Reza Moslemi

The incidence of mitochondrial encephalomyopathies in childhood: Clinical features and morphological, biochemical, and DNA abnormalities

The incidence of mitochondrial encephalomyopathies in childhood: Clinical features and morphological, biochemical, and DNA abnormalities

Molecular basis of infantile reversible cytochrome c oxidase deficiency myopathy

Mitochondrial abnormalities in inclusion-body myositis

POLG1Mutations Associated With Progressive Encephalopathy in Childhood

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