2014
DOI: 10.1038/cdd.2014.50
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The plant metacaspase AtMC1 in pathogen-triggered programmed cell death and aging: functional linkage with autophagy

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 p… Show more

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Cited by 134 publications
(116 citation statements)
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“…During hibiscus flower senescence, the nitrogen, phosphorus, potassium, and micro-nutrient content of petals and S-S+S is significantly reduced, supporting a possible role of autophagy in the degradation and remobilization of macromolecules during flower ageing (Trivellini et al , 2011 c ). These data support the previously documented role for autophagy in petal senescence (Yamada et al , 2009; Shibuya et al , 2013), pointing out also its role in senescing S-S+S as a major nutrient recycling mechanism in plants as suggested by Coll et al (2014). Many of the senescence upregulated genes that have been identified from petals and S-S+S tissues encode nucleases and proteases, which are catabolic enzymes involved in the breakdown of nucleic acids and proteins, respectively (Diaz-Mendoza et al , 2014; Sakamoto and Takami, 2014) (Supplementary Table S15).…”
Section: Resultssupporting
confidence: 87%
“…During hibiscus flower senescence, the nitrogen, phosphorus, potassium, and micro-nutrient content of petals and S-S+S is significantly reduced, supporting a possible role of autophagy in the degradation and remobilization of macromolecules during flower ageing (Trivellini et al , 2011 c ). These data support the previously documented role for autophagy in petal senescence (Yamada et al , 2009; Shibuya et al , 2013), pointing out also its role in senescing S-S+S as a major nutrient recycling mechanism in plants as suggested by Coll et al (2014). Many of the senescence upregulated genes that have been identified from petals and S-S+S tissues encode nucleases and proteases, which are catabolic enzymes involved in the breakdown of nucleic acids and proteins, respectively (Diaz-Mendoza et al , 2014; Sakamoto and Takami, 2014) (Supplementary Table S15).…”
Section: Resultssupporting
confidence: 87%
“…Several genes have been shown to modulate cell death and potentially alter immune responses in Arabidopsis, including LOL1 (Epple et al, 2003), LSD1 (Torres et al, 2005), and metacaspases (Coll et al, 2010). Premature senescence and spreading lesions also occur in autophagydeficient plants as a result of accumulation of ubiquitinated proteins and with ER stress (Coll et al, 2014;Munch et al, 2014). Therefore, these plants can be primed for pathogen compatibility (Hackenberg et al, 2013).…”
Section: Discussionmentioning
confidence: 99%
“…Using loss-of-function mutants of Arabidopsis thaliana AUTOPHAGY-RELATED (ATG) genes, we provided genetic evidence that HR conditioned by activated TIR-NB-LRR proteins (i.e., RPS4 and RECOGNITION OF PERONOSPORA PARASITICA1) largely depends on autophagy processes (Hofius et al, 2009). Autophagy components also contribute to HR mediated by RPM1, as do other PCD pathways involving metacaspases, cathepsins, and the proteasome (Hofius et al, 2009;Pajerowska-Mukhtar and Dong, 2009;Coll et al, 2010Coll et al, , 2014Hackenberg et al, 2013).…”
Section: Introductionmentioning
confidence: 99%