Revealing the Role of the Arg and Lys in Shifting Paradigm from BTK Selective Inhibition to the BTK/HCK Dual Inhibition - Delving into the Inhibitory Activity of KIN-8194 against BTK, and HCK in the Treatment of Mutated BTK^Cys481 Waldenström Macroglobulinemia: A Computational Approach.

IF 2.6 4区医学 Q3 CHEMISTRY, MEDICINAL

Anti-cancer agents in medicinal chemistry Pub Date : 2024-01-01 DOI:10.2174/1871520623666230208102609

Ghazi Elamin, Aimen Aljoundi, Mohamed I Alahmdi, Nader E Abo-Dya, Mahmoud E S Soliman

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引用次数: 0

Abstract

Background: Despite the early success of Bruton's tyrosine kinase (BTK) inhibitors in the treatment of Waldenström macroglobulinemia (WM), these single-target drug therapies have limitations in their clinical applications, such as drug resistance. Several alternative strategies have been developed, including the use of dual inhibitors, to maximize the therapeutic potential of these drugs.

Objective: Recently, the pharmacological activity of KIN-8194 was repurposed to serve as a 'dual-target' inhibitor of BTK and Hematopoietic Cell Kinase (HCK). However, the structural dual inhibitory mechanism remains unexplored, hence the aim of this study.

Methods: Conducting predictive pharmacokinetic profiling of KIN-8194, as well as demonstrating a comparative structural mechanism of inhibition against the above-mentioned enzymes.

Results: Our results revealed favourable binding affinities of -20.17 kcal/mol, and -35.82 kcal/mol for KIN-8194 towards HCK and BTK, respectively. Catalytic residues Arg137/174 and Lys42/170 in BTK and Arg303 and Lys75/173/244/247 in HCK were identified as crucial mediators of the dual binding mechanism of KIN-8194, corroborated by high per-residue energy contributions and consistent high-affinity interactions of these residues. Prediction of the pharmacokinetics and physicochemical properties of KIN-8194 further established its inhibitory potential, evidenced by the favourable absorption, metabolism, excretion, and minimal toxicity properties. Structurally, KIN-8194 impacted the stability, flexibility, solvent-accessible surface area, and rigidity of BTK and HCK, characterized by various alterations observed in the bound and unbound structures, which proved enough to disrupt their biological function.

Conclusion: These structural insights provided a baseline for the understanding of the dual inhibitory activity of KIN- 8194. Establishing the cruciality of the interactions between the KIN-8194 and Arg and Lys residues could guide the structure-based design of novel dual BTK/HCK inhibitors with improved therapeutic activities.

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揭示Arg和Lys在从BTK选择性抑制到BTK/HCK双重抑制范式转变中的作用--深入研究KIN-8194在治疗突变〖BTK〗^Cys481瓦尔登斯特伦巨球蛋白血症中对BTK和HCK的抑制活性：一种计算方法

背景：尽管布鲁顿酪氨酸激酶(BTK)抑制剂在治疗瓦尔登斯特伦巨球蛋白血症(WM)方面取得了早期成功，但这些单靶点药物疗法在临床应用中存在耐药性等局限性。目前已开发出几种替代策略，包括使用双重抑制剂，以最大限度地发挥这些药物的治疗潜力：最近，KIN-8194的药理活性被重新定位，成为BTK和造血细胞激酶（HCK）的 "双靶点 "抑制剂。然而，其结构上的双重抑制机制仍有待探索，因此本研究的目的就在于此：方法：对 KIN-8194 进行预测性药代动力学分析，并证明其对上述酶的结构性抑制机制：结果：KIN-8194与HCK和BTK的结合亲和力分别为-20.17 kcal/mol和-35.82 kcal/mol。BTK中的催化残基Arg137/174和Lys42/170以及HCK中的Arg303和Lys75/173/244/247被确定为KIN-8194双重结合机制的关键介质，这些残基的高每残基能量贡献和一致的高亲和力相互作用证实了这一点。对 KIN-8194 的药代动力学和理化特性的预测进一步证实了其抑制潜力，其良好的吸收、代谢、排泄和最小毒性特性证明了这一点。从结构上看，KIN-8194 影响了 BTK 和 HCK 的稳定性、灵活性、可溶解表面积和刚性，在结合和非结合结构中观察到了各种变化，这些变化足以破坏它们的生物功能：这些结构见解为了解 KIN-8194 的双重抑制活性提供了基线。确定 KIN-8194 与 Arg 和 Lys 残基之间相互作用的关键性，可以指导基于结构设计具有更好治疗活性的新型 BTK/HCK 双抑制剂。

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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来源期刊

Anti-cancer agents in medicinal chemistry ONCOLOGY-CHEMISTRY, MEDICINAL

CiteScore

5.10

自引率

3.60%

发文量

323

审稿时长

4-8 weeks

期刊介绍： Formerly: Current Medicinal Chemistry - Anti-Cancer Agents. Anti-Cancer Agents in Medicinal Chemistry aims to cover all the latest and outstanding developments in medicinal chemistry and rational drug design for the discovery of anti-cancer agents. Each issue contains a series of timely in-depth reviews and guest edited issues written by leaders in the field covering a range of current topics in cancer medicinal chemistry. The journal only considers high quality research papers for publication. Anti-Cancer Agents in Medicinal Chemistry is an essential journal for every medicinal chemist who wishes to be kept informed and up-to-date with the latest and most important developments in cancer drug discovery.