The 52st Annual Meeting of Japanese Society of Pediatric Cardiology and Cardiac Surgery

Presentation information

要望演題

染色体・遺伝子診断

要望演題7(YB07)
染色体・遺伝子診断

Thu. Jul 7, 2016 4:40 PM - 5:20 PM 第B会場 (天空 センター)

座長:
市橋 光(自治医科大学附属さいたま医療センター 小児科)

YB07-01~YB07-04

4:40 PM - 5:20 PM

[YB07-01] Rapidly progressive infantile cardiomyopathy with mitochondrial respiratory chain complex V deficiency due to loss of ATP synthesis

今井 敦子1,4, 藤田 修平2, 中山 祐子2, 武田 充人3, 坂田 泰史4, 大竹 明5, 岡崎 康司6 (1.大阪大学 大学院医学系研究科 ゲノム情報学, 2.富山県立中央病院 小児科, 3.北海道大学医学部 小児科, 4.大阪大学 大学院医学系研究科 循環器内科学)

Keywords:mitochondrial cardiomyopathy、Infantile cardiomyopathy、mitochondrial respiratory chain complex V deficiency

[Background] A previous study described four infantile cardiomyopathy patients harboring an m.8528T>C mutation in the overlapping region of mitochondrial ATPase 6 and 8 genes with poor prognosis. However, the extent to which this mutation is heteroplasmic in heart tissue, or whether synthesis of both ATPase 6 and 8 proteins is impaired, hence causing mitochondrial respiratory chain complex V deficiency in the heart, was not evaluated in the previous study.
[Method] In a Japanese patient with the m.8528T>C mutation who died within 5.5 months of age from a rapidly progressive cardiomyopathy, we assessed the heteroplasmic status of the mutation in the autopsy heart tissue, ATPase 6 and 8 protein levels by SDS-PAGE/western blotting and the presence of complex V deficiency assessed by BN-PAGE/western blotting.
[Result] The patient showed a high-degree of heteroplasmic m.8528T>C mutation in the heart muscle (mean 90%). Compared with hearts from control patients, SDS-PAGE/western blotting analysis showed decreased protein levels of both ATPase 6 and 8 in the patient’s heart, and BN-PAGE/western blotting analysis demonstrated a complex V deficiency.
[Conclusion] In a Japanese infantile cardiomyopathy patient with the m.8528T>C mutation, we demonstrated the mutation is highly heteroplasmic in the patient’s heart and also protein synthesis of ATPase 6, 8 and complex V were impaired in the heart, which causes loss of ATP synthesis. Our findings support the importance of mitochondrial genome sequencing in infantile cardiomyopathy.