1. Mitochondrial Gene Mutations in the tRNALeu(UUR) Region and Diabetes: Prevalence and Clinical Phenotypes in Japan
- Author
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Keizo Anzai, Takashi Asano, Akinori Urae, Junko Ono, Yumiko Mori, Yuko Akehi, Kumiko Ohkubo, Akemi Yamano, Mariko Nagashima, and Riku Nomiyama
- Subjects
Adult ,Mitochondrial DNA ,RNA, Transfer, Leu ,Clinical Biochemistry ,Biology ,medicine.disease_cause ,DNA, Mitochondrial ,Polymerase Chain Reaction ,Sensitivity and Specificity ,Diabetes mellitus genetics ,Japan ,Polymorphism (computer science) ,Diabetes mellitus ,Diabetes Mellitus ,Prevalence ,medicine ,Humans ,Polymorphism, Single-Stranded Conformational ,Genetics ,Mutation ,Biochemistry (medical) ,Middle Aged ,medicine.disease ,Heteroplasmy ,Gestational diabetes ,Phenotype ,Female ,TCF7L2 ,Polymorphism, Restriction Fragment Length - Abstract
Background: Mitochondrial gene mutations play a role in the development of diabetes mellitus. We have assessed the frequency of the A3243G and other mitochondrial mutations in Japan and in the relationship to clinical features of diabetes. Methods: DNA was obtained from peripheral leukocytes of 240 patients with diabetes mellitus (39 with type 1; 188 with type 2; 13 with gestational diabetes) and 125 control subjects. We used PCR-restriction fragment length polymorphism analysis (ApaI) for A3243G and PCR-single-strand conformation polymorphism analysis to determine the mutations in the mitochondrial gene including nucleotide position 3243. Results: The A3243G mutation was found in seven patients, and an inverse relationship was observed between the degree of heteroplasmy and the age at onset of diabetes. A3156G, G3357A, C3375A, and T3394C were detected in addition. Those who shared the same mutation showed similar clinical characteristics, thus representing a putative clinical subtype. The patients with A3156G had a sudden onset of hyperglycemia and showed a rapid progression to an insulin-dependent state with positive anti-glutamic acid decarboxylase antibody. Those with T3394C showed a mild defect in glucose-stimulated insulin secretion, and hyperglycemia appeared after adding such factors as aging or obesity. Conclusions: The identification of mitochondrial gene mutations allows preclinical diagnosis of diabetes and prediction of the age at onset by evaluating the degree of heteroplasmy in cases with A3243G. Mutation detection may also be important for patient management and identification of affected family members.
- Published
- 2001
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