The plant metacaspase AtMC1 in pathogen-triggered programmed cell death and aging: functional linkage with autophagy

NS Coll, A Smidler, M Puigvert, C Popa… - Cell Death & …, 2014 - nature.com
NS Coll, A Smidler, M Puigvert, C Popa, M Valls, JL Dangl
Cell Death & Differentiation, 2014nature.com
Autophagy is a major nutrient recycling mechanism in plants. However, its functional
connection with programmed cell death (PCD) is a topic of active debate and remains not
well understood. Our previous studies established the plant metacaspase AtMC1 as a
positive regulator of pathogen-triggered PCD. Here, we explored the linkage between plant
autophagy and AtMC1 function in the context of pathogen-triggered PCD and aging. We
observed that autophagy acts as a positive regulator of pathogen-triggered PCD in a parallel …
Abstract
Autophagy is a major nutrient recycling mechanism in plants. However, its functional connection with programmed cell death (PCD) is a topic of active debate and remains not well understood. Our previous studies established the plant metacaspase AtMC1 as a positive regulator of pathogen-triggered PCD. Here, we explored the linkage between plant autophagy and AtMC1 function in the context of pathogen-triggered PCD and aging. We observed that autophagy acts as a positive regulator of pathogen-triggered PCD in a parallel pathway to AtMC1. In addition, we unveiled an additional, pro-survival homeostatic function of AtMC1 in aging plants that acts in parallel to a similar pro-survival function of autophagy. This novel pro-survival role of AtMC1 may be functionally related to its prodomain-mediated aggregate localization and potential clearance, in agreement with recent findings using the single budding yeast metacaspase YCA1. We propose a unifying model whereby autophagy and AtMC1 are part of parallel pathways, both positively regulating HR cell death in young plants, when these functions are not masked by the cumulative stresses of aging, and negatively regulating senescence in older plants.
nature.com
以上显示的是最相近的搜索结果。 查看全部搜索结果