Coenzyme Q10 in neurodegenerative disorders: Potential benefit of Co Q10 supplementation for multiple system atrophy

Coenzyme Q10(Co Q10) is an essential cofactor in the mitochondrial respiratory pathway and also functions as a lipid-soluble antioxidant. Co Q10 deficiency has been implicated in many clinical disorders and aging. Primary Co Q10 deficiency is a group of recessively inherited diseases caused by mutations in any gene involved in the Co Q10 biosynthesis pathway. Although primary Co Q10 deficiency is rare, its diagnosis is important because it is potentially treatable with exogenous Co Q10. Multiple system atrophy(MSA) was recently shown to be linked to mutations in the COQ2 gene, one of the genes involved in the Co Q10 biosynthesis pathway. MSA is relatively common in adult-onset neurodegenerative diseases characterized by Parkinsonism, cerebellar ataxia and autonomic failures. Because COQ2 mutations are associated with an increased risk of MSA, oral Co Q10 supplementation may be beneficial for MSA, as for other primary Co Q10 deficiencies. Statins are 3-hydroxy-3-methylglutaryl coenzyme A inhibitors that inhibit the biosynthesis of cholesterol, as well as the synthesis of mevalonate, a critical intermediate in cholesterol synthesis. Statin therapy has been associ-ated with a variety of muscle complaints from myalgia to rhabdomyolysis. Statin treatment carries a potential risk of Co Q10 deficiency, although no definite evidence has implicated CQ10 deficiency as the cause of statinrelated myopathy.

原发性辅酶Q_(10)缺乏症临床、病理和基因分析(附1例报告)

目的探讨原发性辅酶Q_(10)缺乏症的临床病理和基因突变特征。方法回顾性分析1例原发性辅酶Q_(10)缺乏症的临床资料。结果患者25岁男性,出现反复肌阵挛性癫痫发作、共济失调、轻度认知能力下降。头颅MRI显示桥脑和小脑萎缩;EEG显示全导棘波和棘慢波;肌肉病理学表现为少许肌肉变性坏死、脂质沉积,肌肉组织辅酶Q_(10)浓度降低;辅酶Q_(10)基因检查发现COQ2基因存在2个杂合突变:c.1178T>C,p.Val393Ala;c.973A>G,p.Thr325 Ala。按照体质量30 mg/千克给予补充辅酶Q_(10),定期随访2年,认知和运动能力改善,癫痫基本控制。结论 COQ2基因突变所致的原发性辅酶Q_(10)缺乏症以癫痫、共济失调为主要特征,通过分子病理学和酶学检测可确定诊断,充分补充辅酶Q_(10)可使临床症状显著改善。

辅酶Q相关性肾病综合征4例报告并文献复习

目的了解儿童辅酶Q相关性肾病综合征的临床特征,提高对该疾病的认识。方法报告4例辅酶Q相关性肾病综合征病儿的临床资料;在PubMed数据库检索相关病例进行文献复习,总结其临床表现、病理特点、基因突变及药物治疗反应等。结果本文4例病儿均为男性,发病年龄10个月~10岁;1例表现为肾病综合征样蛋白尿,余3例均为糖皮质激素(激素)耐药型肾病综合征。基因检测显示2例为ADCK4基因突变,另2例为COQ2基因突变。3例病儿予辅酶Q10治疗后随访,尿蛋白均减少;另1例未予辅酶Q10治疗,病情进展迅速,最终死亡。PubMed数据库检索出55例ADCK4基因突变及25例COQ2基因突变相关性肾病综合征病儿,分析显示辅酶Q相关性肾病综合征病儿临床多表现为激素耐药型肾病综合征,肾脏病理活检主要为局灶性节段性肾小球硬化,早期口服辅酶Q10治疗可以减轻蛋白尿。结论辅酶Q相关性肾病综合征发病早,表现为肾病综合征或肾病样蛋白尿,早期应用辅酶Q10治疗有一定的效果;ADCK4基因c.826G>C和c.1035+8C>A复合杂合突变、COQ2基因c.518G>A和c.912+1(IVS5)de1G杂合突变在激素耐药型肾病综合征中均为首次报道。

布莱凯特黑牛CoQ_(10)合成相关基因COQ2 cDNA克隆及其多态性分析

COQ2基因是真核生物中对羟基苯甲酸聚异戊二烯焦磷酸转移酶的编码基因,该酶是CoQ10生物合成过程的主要限速酶。试验根据已公布的普通牛COQ2基因序列和其cDNA序列,对COQ2基因的7个外显子区域进行引物设计。PCR产物克隆测序后,使用生物信息学软件对测序结果进行比对和拼接,得到布莱凯特黑牛COQ2基因cDNA序列,并对其外显子3进行了PCR-SSCP分析。结果表明:布莱凯特黑牛COQ2基因cDNA序列长1 546 bp,由7个外显子组成,氨基酸编码序列为第46 bp至1 161 bp处,编码371个氨基酸;与普通牛相比,布莱凯特黑牛PPT氨基酸第324位由天冬氨酸(N)突变为组氨酸(H)。SSCP检测发现外显子3中存在一个多态位点,在102 bp处发生A→T的碱基突变,产生了AA、AB、BB三种基因型,分析发现AB基因型频率最高,B等位基因频率(0.533)比C等位基因(0.467)高,为优势等位基因。该位点多态信息含量(PIC=0.374)为中度多态。该结果为进一步分析COQ2基因SNP位点与布莱凯特黑牛CoQ10合成情况及肉质性状的关联性奠定了基础,对布莱凯特黑牛品种培育具有重要的指导意义。