Breaking the Cycle: Matrix Metalloproteinase Inhibitors as an Alternative Approach in Managing Tuberculosis Pathogenesis and Progression.

IF 4 2区医学 Q2 CHEMISTRY, MEDICINAL

ACS Infectious Diseases Pub Date : 2024-08-09 Epub Date: 2024-07-22 DOI:10.1021/acsinfecdis.4c00385

Agrim Jhilta, Krishna Jadhav, Raghuraj Singh, Eupa Ray, Alok Kumar, Amit Kumar Singh, Rahul Kumar Verma

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Abstract

Mycobacterium tuberculosis (Mtb) has long posed a significant challenge to global public health, resulting in approximately 1.6 million deaths annually. Pulmonary tuberculosis (TB) instigated by Mtb is characterized by extensive lung tissue damage, leading to lesions and dissemination within the tissue matrix. Matrix metalloproteinases (MMPs) exhibit endopeptidase activity, contributing to inflammatory tissue damage and, consequently, morbidity and mortality in TB patients. MMP activities in TB are intricately regulated by various components, including cytokines, chemokines, cell receptors, and growth factors, through intracellular signaling pathways. Primarily, Mtb-infected macrophages induce MMP expression, disrupting the balance between MMPs and tissue inhibitors of metalloproteinases (TIMPs), thereby impairing extracellular matrix (ECM) deposition in the lungs. Recent research underscores the significance of immunomodulatory factors in MMP secretion and granuloma formation during Mtb pathogenesis. Several studies have investigated both the activation and inhibition of MMPs using endogenous MMP inhibitors (i.e., TIMPs) and synthetic inhibitors. However, despite their promising pharmacological potential, few MMP inhibitors have been explored for TB treatment as host-directed therapy. Scientists are exploring novel strategies to enhance TB therapeutic regimens by suppressing MMP activity to mitigate Mtb-associated matrix destruction and reduce TB induced lung inflammation. These strategies include the use of MMP inhibitor molecules alone or in combination with anti-TB drugs. Additionally, there is growing interest in developing novel formulations containing MMP inhibitors or MMP-responsive drug delivery systems to suppress MMPs and release drugs at specific target sites. This review summarizes MMPs' expression and regulation in TB, their role in immune response, and the potential of MMP inhibitors as effective therapeutic targets to alleviate TB immunopathology.

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打破循环：基质金属蛋白酶抑制剂作为治疗结核病发病和进展的替代方法。

长期以来，结核分枝杆菌（Mtb）一直是全球公共卫生面临的重大挑战，每年造成约 160 万人死亡。由 Mtb 引发的肺结核（TB）的特点是广泛的肺组织损伤，导致病变并在组织基质内扩散。基质金属蛋白酶（MMPs）具有内肽酶活性，可造成炎性组织损伤，从而导致肺结核患者的发病率和死亡率。结核病中的 MMP 活性受到细胞因子、趋化因子、细胞受体和生长因子等各种成分通过细胞内信号通路的复杂调控。受 Mtb 感染的巨噬细胞主要诱导 MMP 的表达，破坏 MMP 与组织金属蛋白酶抑制剂（TIMPs）之间的平衡，从而影响肺部细胞外基质（ECM）的沉积。最新研究强调了在 Mtb 发病过程中免疫调节因子在 MMP 分泌和肉芽肿形成中的重要作用。一些研究利用内源性 MMP 抑制剂（即 TIMPs）和合成抑制剂对 MMPs 的激活和抑制进行了调查。然而，尽管 MMP 抑制剂具有良好的药理潜力，但很少有 MMP 抑制剂作为宿主导向疗法用于结核病治疗。科学家们正在探索新的策略，通过抑制 MMP 的活性来减轻与 Mtb 相关的基质破坏，减少结核病引起的肺部炎症，从而加强结核病的治疗方案。这些策略包括单独使用 MMP 抑制剂分子或与抗结核药物联合使用。此外，人们对开发含有 MMP 抑制剂的新型制剂或 MMP 响应型给药系统以抑制 MMPs 并在特定靶点释放药物的兴趣日益浓厚。本综述概述了 MMPs 在结核病中的表达和调控、它们在免疫反应中的作用以及 MMP 抑制剂作为有效治疗靶点缓解结核病免疫病理的潜力。

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来源期刊

ACS Infectious Diseases CHEMISTRY, MEDICINALINFECTIOUS DISEASES&nb-INFECTIOUS DISEASES

CiteScore

9.70

自引率

3.80%

发文量

213

期刊介绍： ACS Infectious Diseases will be the first journal to highlight chemistry and its role in this multidisciplinary and collaborative research area. The journal will cover a diverse array of topics including, but not limited to: * Discovery and development of new antimicrobial agents — identified through target- or phenotypic-based approaches as well as compounds that induce synergy with antimicrobials. * Characterization and validation of drug target or pathways — use of single target and genome-wide knockdown and knockouts, biochemical studies, structural biology, new technologies to facilitate characterization and prioritization of potential drug targets. * Mechanism of drug resistance — fundamental research that advances our understanding of resistance; strategies to prevent resistance. * Mechanisms of action — use of genetic, metabolomic, and activity- and affinity-based protein profiling to elucidate the mechanism of action of clinical and experimental antimicrobial agents. * Host-pathogen interactions — tools for studying host-pathogen interactions, cellular biochemistry of hosts and pathogens, and molecular interactions of pathogens with host microbiota. * Small molecule vaccine adjuvants for infectious disease. * Viral and bacterial biochemistry and molecular biology.