Pearl-Yafe Michal, Kaminitz Ayelet, Yolcu Esma S, Yaniv Isaac, Stein Jerry, Askenasy Nadir
Center for Stem Cell Research, Schneider Children's Medical Center of Israel, Petach Tikva, Israel.
Curr Pharm Des. 2007;13(7):749-60. doi: 10.2174/138161207780249155.
Abundant information is available on the involvement of various cellular and molecular mechanisms in beta cell apoptosis. The experimental evidence is controversial and difficult to reconcile, and the mechanisms of evasion of the autoreactive clones from immune surveillance are poorly understood. Multiple apoptotic pathways play a role in destructive insulitis, including perforin/granzyme, Fas/Fas-ligand (FasL), and other members of the necrosis factor superfamily. These pathways present redundant behaviors in both the initial and late stages of beta cell injury, and at the same time, each molecular mechanism is dispensable in the evolution of autoimmune diabetes. There may be a preferential use of perforin/granzyme in CD8(+) T cell-mediated lysis, which participates in onset of autoimmunity, and a predominance of FasL in CD4(+) T cell-mediated insulitis. Several cytokines released in the inflammatory infiltrate induce Fas expression in beta cells, priming them to FasL-mediated apoptosis. In this review, we focus on the possible participation of multiple cell subsets and molecular mechanisms in the pathogenesis of diabetes to the point where inflammation incites an irreversible vicious cycle that perpetuates beta cell death.
关于各种细胞和分子机制参与β细胞凋亡的信息十分丰富。实验证据存在争议且难以协调统一,同时,自身反应性克隆逃避免疫监视的机制也了解甚少。多种凋亡途径在破坏性胰岛炎中发挥作用,包括穿孔素/颗粒酶、Fas/Fas配体(FasL)以及坏死因子超家族的其他成员。这些途径在β细胞损伤的初始和晚期阶段均表现出冗余行为,同时,每种分子机制在自身免疫性糖尿病的发展过程中并非不可或缺。在CD8(+) T细胞介导的裂解中可能优先使用穿孔素/颗粒酶,其参与自身免疫的发病过程,而在CD4(+) T细胞介导的胰岛炎中FasL占主导地位。炎症浸润中释放的几种细胞因子可诱导β细胞中Fas表达,使其对FasL介导的凋亡敏感。在本综述中,我们重点关注多种细胞亚群和分子机制在糖尿病发病机制中的可能作用,直至炎症引发不可逆转的恶性循环,导致β细胞持续死亡。
