COQ4 杂合性缺失导致辅酶 Q10 缺乏。

Haploinsufficiency of COQ4 causes coenzyme Q10 deficiency.

机构信息

Clinical Genetics Unit, Department of Pediatrics, University of Padova, Padova, Italy.

出版信息

J Med Genet. 2012 Mar;49(3):187-91. doi: 10.1136/jmedgenet-2011-100394.

DOI:10.1136/jmedgenet-2011-100394

PMID:22368301

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3983946/

Abstract

BACKGROUND

COQ4 encodes a protein that organises the multienzyme complex for the synthesis of coenzyme Q(10) (CoQ(10)). A 3.9 Mb deletion of chromosome 9q34.13 was identified in a 3-year-old boy with mental retardation, encephalomyopathy and dysmorphic features. Because the deletion encompassed COQ4, the patient was screened for CoQ(10) deficiency.

METHODS

A complete molecular and biochemical characterisation of the patient's fibroblasts and of a yeast model were performed.

RESULTS

The study found reduced COQ4 expression (48% of controls), CoQ(10) content and biosynthetic rate (44% and 43% of controls), and activities of respiratory chain complex II+III. Cells displayed a growth defect that was corrected by the addition of CoQ(10) to the culture medium. Knockdown of COQ4 in HeLa cells also resulted in a reduction of CoQ(10.) Diploid yeast haploinsufficient for COQ4 displayed similar CoQ deficiency. Haploinsufficency of other genes involved in CoQ(10) biosynthesis does not cause CoQ deficiency, underscoring the critical role of COQ4. Oral CoQ(10) supplementation resulted in a significant improvement of neuromuscular symptoms, which reappeared after supplementation was temporarily discontinued.

CONCLUSION

Mutations of COQ4 should be searched for in patients with CoQ(10) deficiency and encephalomyopathy; patients with genomic rearrangements involving COQ4 should be screened for CoQ(10) deficiency, as they could benefit from supplementation.

摘要

背景

COQ4 编码一种蛋白，可将多酶复合物组织起来合成辅酶 Q(10)(CoQ(10))。在一名 3 岁男孩中发现了染色体 9q34.13 的 3.9 Mb 缺失，该男孩患有智力迟钝、脑肌病和发育异常。由于缺失包括 COQ4，因此对该患者进行了 CoQ(10)缺乏症筛查。

方法

对患者的成纤维细胞和酵母模型进行了全面的分子和生化特征分析。

结果

研究发现 COQ4 表达降低（对照组的 48%），CoQ(10)含量和生物合成率降低（对照组的 44%和 43%），呼吸链复合物 II+III 的活性降低。细胞表现出生长缺陷，在培养基中添加 CoQ(10)可纠正该缺陷。HeLa 细胞中 COQ4 的敲低也导致 CoQ(10)的减少。其他参与 CoQ(10)生物合成的基因的单倍不足不会导致 CoQ 缺乏，这突显了 COQ4 的关键作用。口服 CoQ(10)补充可显著改善神经肌肉症状，补充暂时停止后症状再次出现。

结论

应在 CoQ(10)缺乏和脑肌病患者中寻找 COQ4 突变；应筛查涉及 COQ4 的基因组重排患者是否存在 CoQ(10)缺乏症，因为他们可能受益于补充治疗。

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