Abstract
Plant cells, like cells from other kingdoms, have the ability to self-destruct in a genetically controlled manner. This process is defined as Programmed cell death (PCD). PCD can be triggered by various stimuli in plants including by endoplasmic reticulum (ER) stress. Research in the past two decades discovered that disruption of protein homeostasis in the ER could cause ER stress, which when prolonged/unresolved leads cells into PCD. ER stress-induced PCD is part of several plant processes, for instance, drought and heat stress have been found to elicit ER stress-induced PCD. Despite the importance of ER stress-induced PCD in plants, its regulation remains largely unknown, when compared with its counterpart in animal cells. In mammalian cells, several pro-apoptotic proteases called caspases were found to play a crucial role in ER stress-induced PCD. Over the past decade, several key proteases with caspase-like enzymatic activity have been discovered in plants and implicated in PCD regulation. This review covers what is known about caspase-like enzymatic activities during plant ER stress-induced PCD and discusses possible regulation pathways leading to the activation of relevant proteases in plants.
Highlights
Plant cells have the ability to self-destruct in a controlled manner
When plants are challenged with biotic stress, for example a pathogen, endoplasmic reticulum (ER) stress is observed (Moreno et al, 2012) and this may contribute to the induction of Programmed cell death (PCD)
This review focuses on the caspase-like activities linked to ER-stress induced PCD and comments on the proteases involved
Summary
Plant cells have the ability to self-destruct in a controlled manner. This process is called programmed cell death (PCD). Overexpression of N-rich proteins NRP-A and NRP-B or of a NAC transcription factor GmNAC81 (former GmNAC6), resulted in the induction of UPR and an increase of caspase-1-like and caspase3-like activity (Costa et al, 2008; Faria et al, 2011) These few reports point out at caspases-like proteases being components of ER stress-induced PCD in plants. Blocking proteasome activity is believed to reduce the degradation of misfolded proteins, which in turn causes more burdens to the ER This implies that PBA1, as a proteasome subunit, may play a pro-survival role rather than a pro-cell death role in plant ER stress-induced PCD despite its caspase-3-like activity. Our unpublished results indicate that at least one other protease exhibit caspase-3-like activity in Arabidopsis
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