A34 Mitochondrial respiration is limited by atp-production in the skeletal muscle of the R6/2 hd mouse model

Journal of Neurology, Neurosurgery & Psychiatry Pub Date : 2018-09-01 DOI:10.1136/jnnp-2018-EHDN.32

K. Lindenberg, Eva Buck, G. Landwehrmeyer, E. Calzia

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Abstract

Background Previous work has shown that mitochondrial respiration is not severely affected in the skeletal muscle of pre-symptomatic mHTT-mutation carriers.1 In contrast, patients with manifest HD exhibit a low anaerobic threshold and an increased skeletal muscle lactate production.2 This could result not only from a decreased capacity of the mitochondrial respiratory chain but also from a compromised ATP production process, which depends from the activity of the ATP-synthase and of the adenine nucleotide translocator. Aim The scope of the present study was therefore to compare ex-vivo the maximum respiratory activity in the coupled (OxPhos)-state and in the uncoupled (ETS)-state in skeletal muscle tissue samples from 12 weeks old R6/2 HD model male mice. Methods The mitochondrial respiratory activity in the homogenized tissue samples from 12 R6/2 mice and 11 wildtype controls were quantified according to previously published protocols.1 Results In the skeletal muscle from R6/2 mice we found a lower OxPhos-activity (118±47 [pmol O2/(s x mg tissue)]) compared to control (183±54 [pmol O2/(s x mg tissue)], p=0.006). The activity in the ETS-state did not show a statistically significant difference (148±59 [pmol O2/(s x mg tissue)] vs. 189±80 [pmol O2/(s x mg tissue)], p=0.21). The ratio of both capacities (OxPhos/ETS) was close to unity in the controls, but statistically significantly lower in the R6/2 mice (103±17 [%] vs. 82±6 [%], p=0.005) Conclusions We conclude that in HD, in addition to a possible reduction of the capacity of the mitochondrial respiratory chain, the ATP-production process may also assume a strong limiting role with regard to aerobic metabolism of the skeletal muscle. References . Buck, et al. PLoS One2017. https://doi.org/10.1371/journal.pone.0175248 . Ciammola, et al. Movement Disorders2011;26:130–7.

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R6/2 hd小鼠模型骨骼肌中atp的产生限制了线粒体呼吸

背景先前的研究表明，症状前mhtt突变携带者的骨骼肌线粒体呼吸没有受到严重影响相比之下，明显的HD患者表现为低无氧阈值和骨骼肌乳酸生成增加这不仅可能是由于线粒体呼吸链的能力下降，而且还可能是由于ATP生产过程受到损害，这取决于ATP合成酶和腺嘌呤核苷酸转位器的活性。因此，本研究的范围是比较12周龄R6/2 HD模型雄性小鼠骨骼肌组织样品在偶联(OxPhos)状态和非偶联(ETS)状态下的离体最大呼吸活性。方法12只R6/2小鼠和11只野生型对照小鼠均质化组织样本，定量测定线粒体呼吸活性结果R6/2小鼠骨骼肌oxphos活性(118±47 [pmol O2/(s × mg组织)])低于对照组(183±54 [pmol O2/(s × mg组织)]，p=0.006)。ets状态下的活性差异无统计学意义(148±59 [pmol O2/(s × mg组织)]vs. 189±80 [pmol O2/(s × mg组织)]，p=0.21)。两种能力的比值(OxPhos/ETS)在对照组中接近一致，但在R6/2小鼠中有统计学意义上显著降低(103±17[%]比82±6 [%]，p=0.005)。我们得出结论，在HD中，除了线粒体呼吸链的能力可能降低外，atp的产生过程也可能对骨骼肌的有氧代谢起强烈的限制作用。参考文献巴克等人。公共科学图书馆One2017。https://doi.org/10.1371/journal.pone.0175248。Ciammola等人。运动Disorders2011; 26:130-7。

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Journal of Neurology, Neurosurgery & Psychiatry

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