Carol Macmillan scite author profile

Leigh Syndrome (LS) is a severe neurological disorder characterized by bilaterally symmetrical necrotic lesions in subcortical brain regions that is commonly associated with systemic cytochrome c oxidase (COX) deficiency. COX deficiency is an autosomal recessive trait and most patients belong to a single genetic complementation group. DNA sequence analysis of the genes encoding the structural subunits of the COX complex has failed to identify a pathogenic mutation. Using microcell-mediated chromosome transfer, we mapped the gene defect in this disorder to chromosome 9q34 by complementation of the respiratory chain deficiency in patient fibroblasts. Analysis of a candidate gene (SURF1) of unknown function revealed several mutations, all of which predict a truncated protein. These data suggest a role for SURF1 in the biogenesis of the COX complex and define a new class of gene defects causing human neurodegenerative disease.

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Eye movements in neurodevelopmental disorders

Sweeney

Takarae²,

Macmillan

et al. 2004

Current Opinion in Neurology

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Eye-movement studies have begun to serve as a useful approach for studying cognitive and neurophysiological aspects of neurodevelopmental disorders. They also have potential as a strategy for establishing quantitative endophenotypes for genetic research, and for monitoring beneficial and adverse effects of pharmacotherapies. Studies are needed that involve larger patient populations, longitudinal characterization of developmental failures, patients free from central nervous system-active medications, and that use functional imaging, as patients perform eye-movement tasks, for direct identification of clinically relevant abnormalities in brain systems.

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Homozygosity (E140K) in SCO2 causes delayed infantile onset of cardiomyopathy and neuropathy

Jaksch¹,

Horvath²,

Horn³

et al. 2001

Neurology

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Variable distribution of mutant mitochondria1 DNAs (tRNA ^Leu[3243]) in tissues of symptomatic relatives with MELAS

Macmillan

Lach²,

Shoubridge³

1993

Neurology

112

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We studied multiple different postmortem tissue samples from a woman and two of her daughters with the MELAS (mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes) tRNA(Leu(UUR)) mutation at nucleotide 3243 in mitochondrial DNA (mtDNA). All tissues examined were heteroplasmic for the mutation. The mean proportion of mutant mtDNAs in the mother's tissues (0.30 +/- 0.10) was significantly lower than that of each of her daughters' (0.76 +/- 0.11, p < 0.03, and 0.72 +/- 0.13, p < 0.001); there was no difference in the fraction of mutant mtDNAs between the daughters (p < 0.71). This difference in the mean proportion of mtDNA mutants between family members correlates with their clinical profiles; the mother had the latest onset of disease and lived longest, while the two daughters had a strikingly similar clinical course. In individual patients, the mean proportion of mutant mtDNAs was not different in tissues deriving from ectodermal, mesodermal, and endodermal germ layers. Variance in the mutant:wild-type mtDNA ratio was normally distributed about the mean, both when all tissues were considered together and when different regions of the CNS were considered separately. Thus, the proportion of mtDNAs carrying the tRNA(Leu(3243)) mutation was not uniform in members of this pedigree and did not undergo rapid mitotic segregation along germ-layer divisions. These findings are consistent with the hypothesis that the overall proportion of mtDNAs carrying this mutation is primarily determined by segregation during oogenesis or early embryologic development and that random replicative (mitotic) segregation, subsequent to the establishment of primary germ layers, is responsible for the variation between tissues.

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Neurobehavioral Abnormalities in First-Degree Relatives of Individuals With Autism

Mosconi¹,

Kay²,

D'Cruz³

et al. 2010

Arch Gen Psychiatry

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Context Studying sensorimotor and neurocognitive impairments in unaffected family members of individuals with autism may help identify familial pathophysiological mechanisms associated with the disorder. Objective To determine whether atypical sensorimotor or neurocognitive characteristics associated with autism are present in first-degree relatives of individuals with autism. Design Case-control comparison of neurobehavioral functions. Setting University medical center. Participants Fifty-seven first-degree relatives of individuals with autism and 40 age-, sex-, and IQ-matched healthy control participants (aged 8–54 years). Main Outcome Measures Oculomotor tests of sensorimotor responses (saccades and smooth pursuit); procedural learning and response inhibition; neuropsychological tests of motor, memory, and executive functions; and psychological measures of social behavior, communication skills, and obsessive-compulsive behaviors. Results On eye movement testing, family members demonstrated saccadic hypometria, reduced steady-state pursuit gain, and a higher rate of voluntary response inhibition errors relative to controls. They also showed lateralized deficits in procedural learning and open-loop pursuit gain (initial 100 milliseconds of pursuit) and increased variability in the accuracy of large-amplitude saccades that were confined to rightward movements. In neuropsychological studies, only executive functions were impaired relative to those of controls. Family members reported more communication abnormalities and obsessive-compulsive behaviors than controls. Deficits across oculomotor, neuropsychological, and psychological domains were relatively independent from one another. Conclusions Family members of individuals with autism demonstrate oculomotor abnormalities implicating pontocerebellar and frontostriatal circuits and left-lateralized alterations of frontotemporal circuitry and striatum. The left-lateralized alterations have not been identified in other neuropsychiatric disorders and are of interest given atypical brain lateralization and language development associated with the disorder. Similar oculomotor deficits have been reported in individuals with autism, suggesting that they may be familial and useful for studies of neurophysiological and genetic mechanisms in autism.

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Carol Macmillan

SURF1, encoding a factor involved in the biogenesis of cytochrome c oxidase, is mutated in Leigh syndrome

Eye movements in neurodevelopmental disorders

Homozygosity (E140K) in SCO2 causes delayed infantile onset of cardiomyopathy and neuropathy

Variable distribution of mutant mitochondria1 DNAs (tRNA ^Leu[3243]) in tissues of symptomatic relatives with MELAS

Neurobehavioral Abnormalities in First-Degree Relatives of Individuals With Autism

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About

Carol Macmillan

SURF1, encoding a factor involved in the biogenesis of cytochrome c oxidase, is mutated in Leigh syndrome

Eye movements in neurodevelopmental disorders

Homozygosity (E140K) in SCO2 causes delayed infantile onset of cardiomyopathy and neuropathy

Variable distribution of mutant mitochondria1 DNAs (tRNA Leu[3243]) in tissues of symptomatic relatives with MELAS

Neurobehavioral Abnormalities in First-Degree Relatives of Individuals With Autism

Contact Info

Product

Resources

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Variable distribution of mutant mitochondria1 DNAs (tRNA ^Leu[3243]) in tissues of symptomatic relatives with MELAS