通过虚拟筛选进行药物再利用：鉴定新的已批准的ROCK抑制剂作为治疗神经退行性疾病的有前景药物。

Drug Repurposing by Virtual Screening: Identification of New Already Approved ROCK Inhibitors as Promising Drugs to Target Neurodegeneration.

作者信息

Silva Franco Lucas, Rodrigues Daniel Alencar, Baumart Gabriela Joras, de Jesus Bárbara da Silva Mascarenhas, Gomes Flávia Carvalho Alcantara, Lima Lídia Moreira, Fraga Carlos Alberto Manssour, Pinheiro Pedro de Sena Murteira

机构信息

Laboratório de Avaliação e Síntese de Substâncias Bioativas (LASSBio), Instituto de Ciências Biomédicas, Universidade Federal do Rio de Janeiro, 21941-902 Rio de Janeiro, Brazil.

Instituto Nacional de Ciência e Tecnologia de Fármacos e Medicamentos (INCT-INOFAR), Instituto de Ciências Biomédicas, Universidade Federal do Rio de Janeiro, 21941-902 Rio de Janeiro, Brazil.

出版信息

ACS Omega. 2025 Jun 26;10(26):28446-28465. doi: 10.1021/acsomega.5c04340. eCollection 2025 Jul 8.

ROCK kinases are key players in neurodegenerative diseases such as Alzheimer's disease (AD), making them attractive therapeutic targets. In this study, we developed a pharmacophoric map of ROCK inhibitors and highlighted the key affinity sites in ROCK1/2 through molecular modeling. Virtual screening led to the identification of six approved drugs as ROCK inhibitors: ruxolitinib (), baricitinib (), ponatinib (), tivozanib (), nialamide (), and tucatinib (). Ruxolitinib () (ROCK1 IC = 0.025 μM; ROCK2 IC = 0.007 μM) and baricitinib () (ROCK1 IC = 0.019 μM; ROCK2 IC = 0.011 μM) showed the highest potency, while tivozanib () displayed 15-fold selectivity for ROCK2 over ROCK1. Molecular dynamics revealed that ruxolitinib () forms stable bidentate hydrogen bonds with the ROCK hinge region and has selectivity across the AGC kinase family. Biological assays confirmed ruxolitinib's () safety in neuronal and glial cells and its ability to reduce C3 immunolabeling, a glial inflammation marker, in LPS-treated astrocytes. These findings not only highlight ruxolitinib () as a promising candidate for AD but also provide a structural basis for designing novel dual JAK-ROCK inhibitors and pave the way for further and studies. Moreover, the validated pharmacophoric map for ROCK inhibition highlights the identification of an affinity pocket that can be useful for the design of new ROCK inhibitors.

ROCK激酶是阿尔茨海默病（AD）等神经退行性疾病的关键参与者，使其成为有吸引力的治疗靶点。在本研究中，我们绘制了ROCK抑制剂的药效团图谱，并通过分子建模突出了ROCK1/2中的关键亲和位点。虚拟筛选鉴定出六种已批准的药物作为ROCK抑制剂：芦可替尼（ruxolitinib）、巴瑞替尼（baricitinib）、波纳替尼（ponatinib）、替沃扎尼（tivozanib）、尼亚酰胺（nialamide）和图卡替尼（tucatinib）。芦可替尼（ROCK1 IC50 = 0.025 μM；ROCK2 IC50 = 0.007 μM）和巴瑞替尼（ROCK1 IC50 = 0.019 μM；ROCK2 IC50 = 0.011 μM）显示出最高的效力，而替沃扎尼对ROCK2的选择性比对ROCK1高15倍。分子动力学表明，芦可替尼与ROCK铰链区形成稳定的双齿氢键，并在AGC激酶家族中具有选择性。生物学试验证实了芦可替尼在神经元和神经胶质细胞中的安全性，以及其在脂多糖处理的星形胶质细胞中降低C3免疫标记（一种神经胶质炎症标志物）的能力。这些发现不仅突出了芦可替尼作为AD有前景候选药物的地位，还为设计新型双JAK-ROCK抑制剂提供了结构基础，并为进一步的[此处原文缺失部分内容]和[此处原文缺失部分内容]研究铺平了道路。此外，经过验证的ROCK抑制药效团图谱突出了一个亲和口袋的鉴定，这对设计新的ROCK抑制剂可能有用。