Mur Luis A J, Kenton Paul, Lloyd Amanda J, Ougham Helen, Prats Elena
University of Wales Aberystwyth, Institute of Biological Sciences, Aberystwyth, Ceredigion SY23 2DA, UK.
J Exp Bot. 2008;59(3):501-20. doi: 10.1093/jxb/erm239. Epub 2007 Dec 12.
With the centenary of the first descriptions of 'hypersensitiveness' following pathogenic challenge upon us, it is appropriate to assess our current understanding of the hypersensitive response (HR) form of cell death. In recent decades our understanding of the initiation, associated signalling, and some important proteolytic events linked to the HR has dramatically increased. Genetic approaches are increasingly elucidating the function of the HR initiating resistance genes and there have been extensive analyses of death-associated signals, calcium, reactive oxygen species (ROS), nitric oxide, salicylic acid, and now sphingolipids. At the same time, attempts to draw parallels between mammalian apoptosis and the HR have been largely unsuccessful and it may be better to consider the HR to be a distinctive form of plant cell death. We will consider if the HR form of cell death may occur through metabolic dysfunction in which malfunctioning organelles may play a major role. This review will highlight that although our knowledge of parts of the HR is excellent, a comprehensive molecular model is still to be attained.
随着首次描述病原体攻击后“超敏反应”百年之际的到来,评估我们目前对细胞死亡的超敏反应(HR)形式的理解是恰当的。近几十年来,我们对HR的起始、相关信号传导以及一些与HR相关的重要蛋白水解事件的理解有了显著增加。遗传学方法越来越多地阐明了引发HR的抗性基因的功能,并且对与死亡相关的信号、钙、活性氧(ROS)、一氧化氮、水杨酸以及现在的鞘脂进行了广泛分析。与此同时,试图将哺乳动物细胞凋亡与HR进行类比的尝试大多没有成功,或许最好将HR视为植物细胞死亡的一种独特形式。我们将探讨细胞死亡的HR形式是否可能通过代谢功能障碍发生,其中功能失调的细胞器可能起主要作用。本综述将强调,尽管我们对HR的部分知识掌握得很好,但仍未获得一个全面的分子模型。
