Parab Asmita, Bhatt Lokesh Kumar
Department of Pharmacology, SVKM's Dr. Bhanuben Nanavati College of Pharmacy, Mumbai, India.
Immunopharmacol Immunotoxicol. 2024 Jun;46(3):378-384. doi: 10.1080/08923973.2024.2330645. Epub 2024 Mar 19.
Rheumatoid arthritis (RA) is a chronic inflammatory disease characterized by immune cell dysregulation, synovial hyperplasia, and progressive cartilage destruction. The loss of immunological self-tolerance against autoantigens is the crucial insult responsible for the pathogenesis of RA. These immune abnormalities are experienced many years before the onset of clinical arthritis.
This review aims to discuss the metabolic status of T-cells in RA and focuses mainly on mitochondrial and lysosomal dysfunctions involved in altering the T-cell metabolism.
T-cells are identified as the primary initiators of immunological abnormalities in RA. These RA T-cells show a distinct metabolic pattern compared to the healthy individuals. Dampened glycolytic flux, poor ATP production, and shifting of glucose to the pentose phosphate pathway resulting in increased NADPH and decreased ROS levels are the common metabolic patterns observed in RA T-cells. Defective mtDNA due to lack of MRE11A gene, a key molecular actor for resection, and inefficient lysosomal function due to misplacement of AMPK on the lysosomal surface were found to be responsible for mitochondrial and lysosome dysfunction in RA. Targeting this mechanism in RA can alleviate aggressive T-cell phenotype and may control the severity of RA.
类风湿性关节炎(RA)是一种慢性炎症性疾病,其特征为免疫细胞失调、滑膜增生和进行性软骨破坏。对自身抗原免疫自稳的丧失是RA发病机制中的关键损伤。这些免疫异常在临床关节炎发作前许多年就已出现。
本综述旨在讨论RA中T细胞的代谢状态,主要关注参与改变T细胞代谢的线粒体和溶酶体功能障碍。
T细胞被认为是RA免疫异常的主要启动者。与健康个体相比,这些RA T细胞表现出独特的代谢模式。糖酵解通量降低、ATP生成不足以及葡萄糖向磷酸戊糖途径的转移导致NADPH增加和ROS水平降低是RA T细胞中常见的代谢模式。发现由于缺乏作为切除关键分子的MRE11A基因导致线粒体DNA缺陷,以及由于AMPK在溶酶体表面错位导致溶酶体功能低效,是RA中线粒体和溶酶体功能障碍的原因。针对RA中的这一机制可以减轻侵袭性T细胞表型,并可能控制RA的严重程度。
