药物重新定位
相互作用体
重新调整用途
计算生物学
药物发现
生物
药品
杠杆(统计)
基因
精密医学
生物信息学
个性化医疗
药物开发
蛋白质基因组学
系统生物学
生物网络
药物靶点
系统药理学
人类基因组
人类遗传学
批准的药物
基因调控网络
基因表达谱
基因表达
药物基因组学
疾病
作者
Bnaya Gross,Joseph Ehlert,Vadim N. Gladyshev,Joseph Loscalzo,Albert-Ĺaszló Barabási
标识
DOI:10.1038/s43587-026-01161-8
摘要
Despite the thousands of genes implicated in age-related phenotypes, effective interventions for aging remain elusive, due to the multifactorial nature of longevity and the interconnectedness of molecular components involved. Here we introduce a network medicine framework to map 2,358 longevity-associated genes onto the human interactome to identify drug-repurposing candidates capable of modulating specific hallmarks of aging. We find that genes associated with each hallmark form a connected subgraph, or hallmark module, allowing us to measure the network proximity of 6,442 compounds to each hallmark. We then introduce a transcription-based metric, pAGE, which evaluates whether drug-induced expression shifts reinforce or counteract known age-related expression changes within each hallmark module. By integrating network proximity and pAGE, we identify drug-repurposing candidates targeting specific hallmarks and provide a falsifiable framework to leverage genomic discoveries for accelerating drug repurposing in longevity. Our findings are interpretable, revealing molecular mechanisms through which drugs modulate hallmarks.
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