Biosynthesis of neuroprotective melatonin is dysregulated in Huntington's disease

IF 8.3 1区医学 Q1 ENDOCRINOLOGY & METABOLISM

Journal of Pineal Research Pub Date : 2023-09-18 DOI:10.1111/jpi.12909

Jinho Kim, Wei Li, Jingjing Wang, Sergei V. Baranov, Brianna E. Heath, Jiaoying Jia, Yalikun Suofu, Oxana V. Baranova, Xiaomin Wang, Timothy M. Larkin, William R. Lariviere, Diane L. Carlisle, Robert M. Friedlander

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Abstract

Huntington's disease (HD) is a progressive neurodegenerative brain disorder associated with uncontrolled body movements, cognitive decline, and reduced circulating melatonin levels. Melatonin is a potent antioxidant and exogenous melatonin treatment is neuroprotective in experimental HD models. In neurons, melatonin is exclusively synthesized in the mitochondrial matrix. Thus, we investigated the integrity of melatonin biosynthesis pathways in pineal and extrapineal brain areas in human HD brain samples, in the R6/2 mouse model of HD and in full-length mutant huntingtin knock-in cells. Aralkylamine N-acetyltransferase (AANAT) is the rate-limiting step enzyme in the melatonin biosynthetic pathway. We found that AANAT expression is significantly decreased in the pineal gland and the striatum of HD patients compared to normal controls. In the R6/2 mouse forebrain, AANAT protein expression was decreased in synaptosomal, but not nonsynaptosomal, mitochondria and was associated with decreased synaptosomal melatonin levels compared to wild type mice. We also demonstrate sequestration of AANAT in mutant-huntingtin protein aggregates likely resulting in decreased AANAT bioavailability. Paradoxically, AANAT mRNA expression is increased in tissues where AANAT protein expression is decreased, suggesting a potential feedback loop that is, ultimately unsuccessful. In conclusion, we demonstrate that pineal, extrapineal, and synaptosomal melatonin levels are compromised in the brains of HD patients and R6/2 mice due, at least in part, to protein aggregation.

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神经保护性褪黑激素的生物合成在亨廷顿舞蹈症中失调

亨廷顿舞蹈症（HD）是一种进行性神经退行性脑疾病，与身体运动失控、认知能力下降和循环褪黑素水平降低有关。褪黑素是一种强效抗氧化剂，外源性褪黑素治疗对实验性HD模型具有神经保护作用。在神经元中，褪黑激素仅在线粒体基质中合成。因此，我们研究了人类HD脑样本、HD的R6/2小鼠模型和全长突变亨廷顿蛋白敲除细胞中松果体和线外脑区域褪黑素生物合成途径的完整性。阿拉伯烷基胺N-乙酰转移酶（AANAT）是褪黑激素生物合成途径中的限速步进酶。我们发现，与正常对照组相比，HD患者松果体和纹状体中AANAT的表达显著降低。在R6/2小鼠前脑中，与野生型小鼠相比，AANAT蛋白在突触体、线粒体中的表达减少，但在非突触体和线粒体中没有，并且与突触体褪黑素水平降低有关。我们还证明了AANAT在突变亨廷顿蛋白聚集体中的螯合可能导致AANAT生物利用度降低。矛盾的是，在AANAT蛋白表达降低的组织中，AANAT mRNA表达增加，这表明潜在的反馈回路最终是不成功的。总之，我们证明HD患者和R6/2小鼠大脑中的松果体、松果体外和突触体褪黑素水平受损，至少部分原因是蛋白质聚集。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Pineal Research 医学-内分泌学与代谢

CiteScore

17.70

自引率

4.90%

发文量

审稿时长

1 months

期刊介绍： The Journal of Pineal Research welcomes original scientific research on the pineal gland and melatonin in vertebrates, as well as the biological functions of melatonin in non-vertebrates, plants, and microorganisms. Criteria for publication include scientific importance, novelty, timeliness, and clarity of presentation. The journal considers experimental data that challenge current thinking and welcomes case reports contributing to understanding the pineal gland and melatonin research. Its aim is to serve researchers in all disciplines related to the pineal gland and melatonin.