Morphological alterations and gene expression levels in the cerebral cortex causally influence susceptibility to type 2 diabetes: A Mendelian randomization study

IF 3.9

Experimental gerontology Pub Date : 2025-05-19 DOI:10.1016/j.exger.2025.112789

Fanghang Ye , Yucheng Huang , Na Li , Liyuan Hao , Jiali Deng , Shenghao Li , Jiayun Yue , Fei Yu , Xiaoyu Hu

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引用次数: 0

Abstract

Background

The associations between type 2 diabetes (T2D) and neurological as well as psychiatric disorders have garnered growing interest. Previous evidence has indicated a correlation between the cerebral cortex and these conditions. However, the causal direction between the cerebral cortex and T2D remains ambiguous.

Methods

We conducted a cerebral cortex-focused systematic Mendelian randomization (MR) study based on multiple data sourced from genome-wide association studies and expression quantitative trait locus.

Results

The surficial area (SA) of Pars Opercularis and the thickness (TH) of the Supramarginal gyrus were found as significant contributors to the risk of T2D. Conversely, thickening in the Precentral area, Caudal Anterior Cingulate cortex, and banks of the Superior Temporal Sulcus, as well as SA amplification of the Precentral area, were associated with a reduced risk of T2D. There was no evidence of reverse causation. These alterations also have an impact on susceptibility to T2D complications. Combining the summary-data-based MR (SMR) analysis and colocalization analysis, we prioritized the expression of three causal genes in the cerebral cortex with genetic evidence for influencing T2D susceptibility. Elevated expression levels of NUDC and PACC1 increased susceptibility to T2D, whereas RAB29 expression exhibits an inverse association with T2D susceptibility. Mediation MR analysis revealed that TH of the Banks of the Superior Temporal Sulcus, SA of Precentral area, SA of Pars Opercularis, and SA of Supramarginal gyrus mediated the effect of RAB29 on T2D. Cross-tissue colocalization analysis demonstrated that the expression pattern of NUDC displayed brain tissue specificity. PACC1 and RAB29 also exhibited colocalization signals in several specific tissues beyond brain tissue. The phenome-wide association study suggested that these genes underscore the shared genetic burden of T2D with a range of disease phenotypes including mental disorders, cardiovascular disease, and malignancies.

Conclusions

These findings underscore the novel role of the central nervous system in genetic liability to T2D and provide valuable clues for future mechanism studies.

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大脑皮层的形态改变和基因表达水平对2型糖尿病的易感性有因果关系：一项孟德尔随机研究

背景：2型糖尿病（T2D）与神经和精神疾病之间的联系已经引起了越来越多的关注。先前的证据表明，大脑皮层与这些疾病之间存在关联。然而，大脑皮层与T2D之间的因果关系仍然不明确。方法基于来自全基因组关联研究和表达数量性状位点的多个数据，开展了以大脑皮层为中心的系统孟德尔随机化（MR）研究。结果贲门部的表面积（SA）和边缘上回的厚度（TH）是T2D发生的重要因素。相反，中央前区、尾侧前扣带皮层和颞上沟库增厚以及中央前区SA扩增与T2D风险降低相关。没有反向因果关系的证据。这些改变对T2D并发症的易感性也有影响。结合基于汇总数据的MR （SMR）分析和共定位分析，我们优先考虑了大脑皮层中影响T2D易感性的三个因果基因的表达。NUDC和PACC1表达水平升高会增加对T2D的易感性，而RAB29表达与T2D易感性呈负相关。调解MR分析显示，颞上沟库TH、中央前区SA、上盖部SA和边缘回SA介导了RAB29对T2D的影响。跨组织共定位分析表明，NUDC的表达模式具有脑组织特异性。PACC1和RAB29在脑组织以外的一些特定组织中也表现出共定位信号。全现象关联研究表明，这些基因强调了T2D与一系列疾病表型（包括精神障碍、心血管疾病和恶性肿瘤）共同的遗传负担。结论这些发现强调了中枢神经系统在T2D遗传易感性中的新作用，并为未来的机制研究提供了有价值的线索。

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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