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Target Concepts:
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Query: UMLS:C0033377 (
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11,717
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We present the current knowledge on the genetic and phenotypic aspects of mitochondrial DNA depletion syndromes. The human mitochondrial DNA encodes 13 of the 82 structural proteins of the mitochondrial electron transport chain. The replication and maintenance of the mtDNA require a large number of nuclear encoded enzymes and balanced nucleotide pools. Mitochondrial nucleotide synthesis is of major importance because of the constant need for nucleotides for mtDNA maintenance even in quiescent cells. As de novo enzymes are not present in the mitochondria, synthesis is accomplished via the salvage pathway. Defective mtDNA synthesis and maintenance manifest by multiple deletions or by depletion of the mitochondrial genome. Patients with multiple deletions typically present with progressive external ophthalmoplegia,
ptosis
and, exercise intolerance after the first decade of life. mtDNA depletion is usually an infantile disease characterized by severe muscle weakness, hepatic failure, or renal tubulopathy with fatal outcome. Linkage analysis in families with multiple mtDNA deletions reveal mutations in proteins that participate in mtDNA replication, the mitochondrial DNA polymerase gene, and the Twinkle gene, a putative mitochondrial
helicase
and in factors which play a role in mitochondrial nucleotide metabolism, the adenine nucleotide translocator, and the thymidine phosphorylase gene. We have recently identified mutations in an additional two essential proteins in the nucleotide salvage pathway, the mitochondrial deoxyribonucleoside kinases. The phenotype was distinctive for each gene, with hepatic failure and encephalopathy associated with mutations in the deoxyguanosine kinase gene and isolated devastating myopathy as the sole manifestation of thymidine kinase 2 deficiency. The tissue selectivity of these disorders and especially the exclusive muscle involvement in thymidine kinase 2 mutations is puzzling. The normal sequence of the remaining mtDNA copies in spite of a serious mitochondrial nucleotide imbalance is also unexpected. We propose several tissue-specific protective mechanisms and a time window, likely encompassing fetal life and even early infancy, during which nuclear nucleotide synthesis provides mitochondrial needs in all organs. We also speculate on future genes to be discovered in other phenotypes of mtDNA depletion.
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PMID:Depletion of the other genome-mitochondrial DNA depletion syndromes in humans. 1211 Sep 44
Maintenance and replication of mitochondrial DNA require the concerted action of several factors encoded by nuclear genome. The mitochondrial
helicase
Twinkle is a key player of replisome machinery. Heterozygous mutations in its coding gene, PEO1, are associated with progressive external ophthalmoplegia (PEO) characterised by
ptosis
and ophthalmoparesis, with cytochrome c oxidase (COX)-deficient fibres, ragged-red fibres (RRF) and multiple mtDNA deletions in muscle. Here we describe clinical, histological and molecular features of two patients presenting with mitochondrial myopathy associated with PEO. PEO1 sequencing disclosed two novel mutations in exons 1 and 4 of the gene, respectively. Although mutations in PEO1 exon 1 have already been described, this is the first report of mutation occurring in exon 4.
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PMID:Two novel mutations in PEO1 (twinkle) gene associated with chronic external ophthalmoplegia. 2168 31
DNA2 encodes a protein with nuclease, ATPase, and
helicase
domains, and serves to maintain mitochondrial DNA integrity. Mutations in DNA2 cause autosomal dominant progressive ophthalmoplegia with mitochondrial DNA deletions. This disorder was first reported in four patients with heterozygous, missense mutations in DNA2. Clinical symptoms include limb-girdle and lower extremity weakness, myalgia, and ophthalmoplegia. All had a slowly progressive disease course and did not present for clinical evaluation until the fifth or sixth decade. We report a case of congenital-onset myopathy and
ptosis
in a child who was found to have a novel DNA2 variant resulting in a premature termination codon (p.Asn568Ilefs*4). Only one other case of a truncating mutation in DNA2 has been reported, and that patient also had early-onset, severe disease. We hypothesize that haploinsufficiency for the DNA2 protein due to truncating mutations results in mitochondrial genome instability and clinical symptoms of early-onset myopathy. Missense mutations that allow for residual protein function lead to a milder clinical phenotype.
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PMID:Novel truncating variant in DNA2-related congenital onset myopathy and ptosis suggests genotype-phenotype correlation. 2855 58
