Yuan Rui, Zhao Guorui, Lu Zhe, Zhu Yunqing, Kang Zhewei, Zhang Yuyanan, Sun Yaoyao, Yang Yang, Liao Yundan, Feng Xiaoyang, Sun Junyuan, Guo Jing, Yue Weihua
Peking University Sixth Hospital, Peking University Institute of Mental Health, NHC Key Laboratory of Mental Health (Peking University), National Clinical Research Center for Mental Disorders (Peking University Sixth Hospital), Beijing, China.
PKU-IDG/McGovern Institute for Brain Research, Peking University, Beijing, China.
Schizophrenia (Heidelb). 2025 Aug 25;11(1):116. doi: 10.1038/s41537-025-00664-4.
Psychiatric disorders present a significant global health burden with limited effective medications. Observing the widespread comorbidities between diabetes and psychiatric disorders, we explored the potential of repurposing antidiabetic drug targets for psychiatric treatments. We identified 32 target genes of 60 antidiabetics and performed Mendelian randomization analyses using expression and protein quantitative trait loci data from brain tissues alongside summary data for seven psychiatric disorders. Additionally, we conducted colocalization analyses, replication analyses in blood and at the single-cell level, single-cell gene annotation, developmental trajectory analysis, and various functional assessments. We found that elevated GANC expression in the putamen basal ganglia, nucleus accumbens basal ganglia, cortex, and whole blood was associated with a reduced risk of bipolar disorder (OR, 0.532-0.877; P, 4.04 × 10 to 1.45 × 10), implying that antagonism of GANC by the antidiabetic drug miglitol could increase bipolar risk. Conversely, increased ABCC8 expression in the cortex, cerebellum, cerebellar hemisphere, and VIP- and LAMP5-expressing inhibitory neurons was linked to a higher risk of schizophrenia (OR, 1.054-1.119; P, 1.46 × 10 to 4.42 × 10), suggesting that ABCC8 inhibition by sulfonylureas or glinides may lower the risk of schizophrenia. Colocalization analysis further confirmed the above associations. GANC and ABCC8 displayed specific developmental trajectories, and functional analyses revealed that they affected psychiatric risk through pathways related to potassium ion channels, insulin secretion, and glucose metabolism. Our findings highlight GANC and ABCC8 as potential targets, suggesting caution in miglitol use for bipolar disorder and the potential repurposing of sulfonylureas and glinides for schizophrenia.
精神疾病给全球健康带来了重大负担,而有效的药物却很有限。鉴于观察到糖尿病与精神疾病之间广泛存在共病现象,我们探索了将抗糖尿病药物靶点重新用于精神疾病治疗的潜力。我们确定了60种抗糖尿病药物的32个靶基因,并利用来自脑组织的表达和蛋白质数量性状位点数据以及七种精神疾病的汇总数据进行孟德尔随机化分析。此外,我们还进行了共定位分析、血液和单细胞水平的重复分析、单细胞基因注释、发育轨迹分析以及各种功能评估。我们发现,壳核基底神经节、伏隔核基底神经节、皮质和全血中GANC表达升高与双相情感障碍风险降低相关(比值比,0.532 - 0.877;P值,4.04×10至1.45×10),这意味着抗糖尿病药物米格列醇对GANC的拮抗作用可能会增加双相情感障碍风险。相反,皮质、小脑、小脑半球以及表达血管活性肠肽和溶酶体相关膜蛋白5的抑制性神经元中ABCC8表达增加与精神分裂症风险较高相关(比值比,1.054 - 1.119;P值,1.46×10至4.42×10),这表明磺脲类药物或格列奈类药物对ABCC8的抑制作用可能会降低精神分裂症风险。共定位分析进一步证实了上述关联。GANC和ABCC8显示出特定的发育轨迹,功能分析表明它们通过与钾离子通道、胰岛素分泌和葡萄糖代谢相关的途径影响精神疾病风险。我们的研究结果突出了GANC和ABCC8作为潜在靶点,提示在双相情感障碍中使用米格列醇时需谨慎,以及磺脲类药物和格列奈类药物用于精神分裂症治疗的潜在重新用途。
