效力
药理学
化学
药代动力学
敌手
体内
苯扎溴铵
角膜
结膜
角膜上皮
细胞
眼药水
分布(数学)
受体
体外
医学
毒性
受体拮抗剂
离体
生物活性
眼病
作者
Manman Sun,Jie Zhang,Aohui Hu,Jiacheng Wang,Kaile Yao,Xuebo Yang,Wanxing Ni,Lingchen Tan,Y ZHANG,Linxiang Zhao,Min Huang
标识
DOI:10.1021/acs.jmedchem.5c02250
摘要
Dry eye disease (DED) is a chronic inflammatory disorder in which the LFA-1/ICAM-1 interaction plays a central immunopathological role. Lifitegrast, the first approved LFA-1 antagonist for DED treatment, is limited by suboptimal efficacy and notable ocular irritation, highlighting the need for further optimization. Here, we designed and synthesized a series of novel LFA-1 inhibitors and identified compound 25 as the most potent candidate. Compound 25 demonstrated stronger LFA-1 binding affinity than Lifitegrast, and potently inhibited ICAM-1-mediated cell adhesion. Compound 25 protected human corneal epithelial cells from inflammatory hyperosmotic stress. Pharmacokinetic studies showed that it possessed a favorable ocular tissue distribution with negligible systemic exposure. In a benzalkonium chloride-induced DED rat model, compound 25 significantly improved corneal repair, tear secretion, and reduced pro-inflammatory cytokines. Furthermore, it exhibited excellent ocular safety under both single and repeated dosing. These findings suggest compound 25 as a promising next-generation LFA-1 inhibitor for DED treatment.
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