BACKGROUND: Caspases are a family of aspartate-specific cysteine proteases that play an essential role in initiating and executing programmed cell death (PCD) in metazoans. Caspase-like activities have been shown to be required for the initiation of PCD in plants, but the genes encoding those activities have not been identified. VPEgamma, a cysteine protease, is induced during senescence, a form of PCD in plants, and is localized in precursor protease vesicles and vacuoles, compartments associated with PCD processes in plants. RESULTS: We show that VPEgamma binds in vivo to a general caspase inhibitor and to caspase-1-specific inhibitors, which block the activity of VPEgamma. A cysteine protease inhibitor, cystatin, accumulates to 20-fold higher levels in vpegamma mutants. Homologs of cystatin are known to suppress hypersensitive cell death in plant and animal systems. We also report that infection with an avirulent strain of Pseudomonas syringae results in an increase of caspase-1 activity, and this increase is partially suppressed in vpegamma mutants. Plants overexpressing VPEgamma exhibit a greater amount of ion leakage during infection with P. syringae, suggesting that VPEgamma may regulate cell death progression during plant-pathogen interaction. VPEgamma expression is induced after infection with P. syringae, Botrytis cinerea, and turnip mosaic virus, and knockout of VPEgamma results in increased susceptibility to these pathogens. CONCLUSIONS: We conclude that VPEgamma is a caspase-like enzyme that has been recruited in plants to regulate vacuole-mediated cell dismantling during cell death, a process that has significant influence in the outcome of a diverse set of plant-pathogen interactions.
BACKGROUND: Caspases are a family of aspartate-specific cysteine proteases that play an essential role in initiating and executing programmed cell death (PCD) in metazoans. Caspase-like activities have been shown to be required for the initiation of PCD in plants, but the genes encoding those activities have not been identified. VPEgamma, a cysteine protease, is induced during senescence, a form of PCD in plants, and is localized in precursor protease vesicles and vacuoles, compartments associated with PCD processes in plants. RESULTS: We show that VPEgamma binds in vivo to a general caspase inhibitor and to caspase-1-specific inhibitors, which block the activity of VPEgamma. A cysteine protease inhibitor, cystatin, accumulates to 20-fold higher levels in vpegamma mutants. Homologs of cystatin are known to suppress hypersensitive cell death in plant and animal systems. We also report that infection with an avirulent strain of Pseudomonas syringae results in an increase of caspase-1 activity, and this increase is partially suppressed in vpegamma mutants. Plants overexpressing VPEgamma exhibit a greater amount of ion leakage during infection with P. syringae, suggesting that VPEgamma may regulate cell death progression during plant-pathogen interaction. VPEgamma expression is induced after infection with P. syringae, Botrytis cinerea, and turnip mosaic virus, and knockout of VPEgamma results in increased susceptibility to these pathogens. CONCLUSIONS: We conclude that VPEgamma is a caspase-like enzyme that has been recruited in plants to regulate vacuole-mediated cell dismantling during cell death, a process that has significant influence in the outcome of a diverse set of plant-pathogen interactions.
Authors: Nina V Chichkova; Jane Shaw; Raisa A Galiullina; Georgina E Drury; Alexander I Tuzhikov; Sang Hyon Kim; Markus Kalkum; Teresa B Hong; Elena N Gorshkova; Lesley Torrance; Andrey B Vartapetian; Michael Taliansky Journal: EMBO J Date: 2010-01-28 Impact factor: 11.598
Authors: Willem Van de Velde; Juan Carlos Pérez Guerra; Annick De Keyser; Riet De Rycke; Stéphane Rombauts; Nicolas Maunoury; Peter Mergaert; Eva Kondorosi; Marcelle Holsters; Sofie Goormachtig Journal: Plant Physiol Date: 2006-04-28 Impact factor: 8.340
Authors: H Peter van Esse; John W Van't Klooster; Melvin D Bolton; Koste A Yadeta; Peter van Baarlen; Sjef Boeren; Jacques Vervoort; Pierre J G M de Wit; Bart P H J Thomma Journal: Plant Cell Date: 2008-07-25 Impact factor: 11.277