Kim SeJin, An Seong Soo A
Department of Bionano Technology, Gachon University, Gyeonggi-do, Republic of Korea.
Medicine (Baltimore). 2016 Jun;95(26):e3993. doi: 10.1097/MD.0000000000003993.
p53 is a master regulatory protein that is involved in diverse cellular metabolic processes such as apoptosis, DNA repair, and cell cycle arrest. The protective function of p53 (in its homotetrameric form) as a tumor suppressor is lost in more than 50% of human cancers.Despite considerable experimental evidence suggesting the presence of multiple p53 states, it has been difficult to correlate the status of p53 with cancer response to treatments and clinical outcomes, which suggest the importance of complex but essential p53 regulatory pathways.Recent studies have indicated that the expression pattern of p53 isoforms may play a crucial role in regulating normal and cancer cell fates in response to diverse stresses. The human TP53 gene encodes at least 12 p53 isoforms, which are produced in normal tissue through alternative initiation of translation, usage of alternative promoters, and alternative splicing. Furthermore, some researchers have suggested that the formation of mutant p53 aggregates may be associated with cancer pathogenesis due to loss-of function (LoF), dominant-negative (DN), and gain-of function (GoF) effects.As different isoforms or the aggregation state of p53 may influence tumorigenesis, this review aims to examine the correlation of p53 isoforms and aggregation with cancer.
p53是一种主要的调节蛋白,参与多种细胞代谢过程,如细胞凋亡、DNA修复和细胞周期阻滞。p53(以其四聚体形式)作为肿瘤抑制因子的保护功能在超过50%的人类癌症中丧失。尽管有大量实验证据表明存在多种p53状态,但很难将p53的状态与癌症对治疗的反应及临床结果相关联,这表明复杂但至关重要的p53调节途径的重要性。最近的研究表明,p53异构体的表达模式可能在应对各种应激时调节正常细胞和癌细胞命运方面发挥关键作用。人类TP53基因编码至少12种p53异构体,这些异构体在正常组织中通过翻译起始位点的选择、启动子的使用以及可变剪接产生。此外,一些研究人员认为,突变型p53聚集体的形成可能由于功能丧失(LoF)、显性负性(DN)和功能获得(GoF)效应而与癌症发病机制相关。由于p53的不同异构体或聚集状态可能影响肿瘤发生,本综述旨在探讨p53异构体和聚集与癌症的相关性。
