circadian clock protein Bmal1 的 O-GlcNAcylation 损害糖尿病小鼠的认知功能。

O-GlcNAcylation of circadian clock protein Bmal1 impairs cognitive function in diabetic mice.

机构信息

Department of Endocrinology and Metabolism, The Second Affiliated Hospital of Guilin Medical University, 541199, Guilin, Guangxi, P. R. China.

Guangxi Clinical Research Center for Diabetes and Metabolic Diseases, The Second Affiliated Hospital of Guilin Medical University, 541199, Guilin, Guangxi, P. R. China.

出版信息

EMBO J. 2024 Nov;43(22):5667-5689. doi: 10.1038/s44318-024-00263-6. Epub 2024 Oct 7.

DOI:10.1038/s44318-024-00263-6

PMID:39375536

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11574178/

Abstract

Neuronal damage in the hippocampus induced by high glucose has been shown to promote the onset and development of cognitive impairment in diabetes, but the underlying molecular mechanism remains unclear. Guided by single-cell RNA sequencing, we here report that high glucose increases O-GlcNAcylation of Bmal1 in hippocampal neurons. This glycosylation promotes the binding of Clock to Bmal1, resulting in the expression of transcription factor Bhlhe41 and its target Dnajb4. Upregulated Dnajb4 in turn leads to ubiquitination and degradation of the mitochondrial Na + /Ca2+ exchanger NCLX, thereby inducing mitochondrial calcium overload that causes neuronal damage and cognitive impairment in mice. Notably, Bhlhe41 downregulation or treatment with a short peptide that specifically blocks O-GlcNAcylation of Bmal1 on Ser424 mitigated these adverse effects in diabetic mouse models. These data highlight the crucial role of O-GlcNAcylation in circadian clock gene expression and may facilitate the design of targeted therapies for diabetes-associated cognitive impairment.

摘要

高血糖引起的海马神经元损伤已被证明可促进糖尿病患者认知障碍的发生和发展，但潜在的分子机制仍不清楚。在单细胞 RNA 测序的指导下，我们在这里报告高葡萄糖增加了海马神经元中 Bmal1 的 O-GlcNAc 化。这种糖基化促进 Clock 与 Bmal1 的结合，导致转录因子 Bhlhe41 及其靶基因 Dnajb4 的表达。上调的 Dnajb4 反过来导致线粒体 Na+/Ca2+交换蛋白 NCLX 的泛素化和降解，从而导致线粒体钙超载，引起小鼠神经元损伤和认知障碍。值得注意的是，Bhlhe41 的下调或用特异性阻断 Bmal1 上 Ser424 的 O-GlcNAc 化的短肽处理可减轻糖尿病小鼠模型中的这些不良影响。这些数据强调了 O-GlcNAc 化在生物钟基因表达中的关键作用，并可能有助于设计针对糖尿病相关认知障碍的靶向治疗。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b421/11574178/71450319c778/44318_2024_263_Fig1_HTML.jpg

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circadian clock protein Bmal1 的 O-GlcNAcylation 损害糖尿病小鼠的认知功能。

O-GlcNAcylation of circadian clock protein Bmal1 impairs cognitive function in diabetic mice.

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