Thatte U, Dahanukar S
Department of Pharmacology, Seth GS Medical College, Mumbai, India.
Drugs. 1997 Oct;54(4):511-32. doi: 10.2165/00003495-199754040-00002.
Apoptosis, often synonymously used with the term 'programmed cell death', is an active, genetically controlled process that removes unwanted or damaged cells. Suppression, overexpression or mutation of a number of genes which orchestrate the apoptotic process are associated with disease. The diseases in which apoptosis has been implicated can be grouped into 2 broad groups: those in which there is increased cell survival (i.e. associated with inhibition of apoptosis) and those in which there is excess cell death (where apoptosis is overactive). Diseases in which there is an excessive accumulation of cells include cancer, autoimmune disorders and viral infections. Deprivation of trophic factors is known to induce apoptosis in cells dependent on them for survival. This fact has been exploited in the use of antiandrogens or antiestrogens in the management of prostate or breast cancer. Haemopoietic growth factors like granulocyte-macrophage colony stimulating factor (GM-CSF) or interleukin-3 prevent apoptosis in target cells and modulation of levels of these factors has been tried in the prevention of chemotherapy-induced myelosuppression. Until recently, it was thought that cytotoxic drugs killed target cells directly by interfering with some life-maintaining function. However, of late, it has been shown that exposure to several cytotoxic drugs with disparate mechanisms of action induces apoptosis in both malignant and normal cells. Physiological regulation of cell death is essential for the removal of potentially autoreactive lymphocytes during development and the removal of excess cells after the completion of an immune response. Recent work has clearly demonstrated that dysregulation of apoptosis may underlie the pathogenesis of autoimmune diseases by allowing abnormal autoreactive lymphocytes to survive. AIDS and neurodegenerative disorders like Alzheimer's or Parkinson's disease represent the most widely studied group of disorders where an excess of apoptosis has been implicated. Amyotrophic lateral sclerosis, retinitis pigmentosa, epilepsy and alcoholic brain damage are other neurological disorders in which apoptosis has been implicated. Apoptosis has been reported to occur in conditions characterised by ischaemia, e.g. myocardial infarction and stroke. The liver is a site where apoptosis occurs normally. This process has also been implicated in a number of liver disorders including obstructive jaundice. Hepatic damage due to toxins and drugs is also associated with apoptosis in hepatocytes. Apoptosis has also been identified as a key phenomenon in some diseases of the kidney, i.e. polycystic kidney, as well as in disorders of the pancreas like alcohol-induced pancreatitis and diabetes.
凋亡,常与“程序性细胞死亡”一词同义使用,是一个活跃的、受基因控制的过程,可清除不需要的或受损的细胞。许多协调凋亡过程的基因的抑制、过表达或突变与疾病相关。与凋亡有关的疾病可分为两大类:一类是细胞存活增加(即与凋亡抑制相关)的疾病,另一类是细胞死亡过多(凋亡过度活跃)的疾病。细胞过度积累的疾病包括癌症、自身免疫性疾病和病毒感染。已知营养因子的剥夺会诱导依赖它们存活的细胞发生凋亡。这一事实已被用于在前列腺癌或乳腺癌的治疗中使用抗雄激素或抗雌激素。粒细胞-巨噬细胞集落刺激因子(GM-CSF)或白细胞介素-3等造血生长因子可防止靶细胞凋亡,并且已经尝试调节这些因子的水平来预防化疗引起的骨髓抑制。直到最近,人们还认为细胞毒性药物通过干扰某些维持生命的功能直接杀死靶细胞。然而,最近研究表明,暴露于几种作用机制不同的细胞毒性药物会诱导恶性细胞和正常细胞发生凋亡。细胞死亡的生理调节对于在发育过程中清除潜在的自身反应性淋巴细胞以及在免疫反应完成后清除多余细胞至关重要。最近的研究清楚地表明,凋亡失调可能是自身免疫性疾病发病机制的基础,因为它会使异常的自身反应性淋巴细胞存活下来。艾滋病和神经退行性疾病,如阿尔茨海默病或帕金森病,是研究最广泛的一类疾病,其中凋亡过多被认为与之有关。肌萎缩侧索硬化症、视网膜色素变性、癫痫和酒精性脑损伤是其他与凋亡有关的神经系统疾病。据报道,凋亡发生在以缺血为特征的情况下,如心肌梗死和中风。肝脏是正常发生凋亡的部位。这个过程也与包括梗阻性黄疸在内的许多肝脏疾病有关。毒素和药物引起的肝损伤也与肝细胞凋亡有关。凋亡也被确定为一些肾脏疾病(如多囊肾)以及胰腺疾病(如酒精性胰腺炎和糖尿病)中的关键现象。
