Seed Longevity is Controlled by Metacaspases

Author:

Liu Chen,Hatzianestis Ioannis H.,Pfirrmann Thorsten,Reza Salim H.,Minina Elena A.ORCID,Moazzami Ali,Stael SimonORCID,Gutierrez-Beltran Emilio,Pitsili Evgenia,Dörmann Peter,D’ Andrea Sabine,Gevaert Kris,Romero-Campero FranciscoORCID,Ding PingtaoORCID,Nowack Moritz K.,Van Breusegem Frank,Jones Jonathan D. G.,Bozhkov Peter V,Moschou Panagiotis N.ORCID

Abstract

AbstractTo survive extreme desiccation, seeds enter dormancy that can last millennia. This dormancy involves the accumulation of protective but structurally disordered storage proteins through unknown adjustments of proteolytic surveillance mechanisms. Mutation of all six types II metacaspases (MCAs)-II in the model plant Arabidopsis revealed their essential role in modulating these proteolytic mechanisms. MCA-II mutant seeds fail to properly target at the endoplasmic reticulum (ER) the AAA ATPase Cell Division Cycle 48 (CDC48) to dispose of misfolded proteins. MCA-IIs cleave a CDC48 adaptor, the ubiquitination regulatory X domain-containing (PUX) responsible for localizing CDC48 to the lipid droplets. When cleaved, CDC48-PUX is inactivated and allows a lipid droplet-to-ER shuttling of CDC48, an important step in the regulation of seeds’ lifespan. In sum, we uncover antagonism between proteolytic pathways bestowing longevity.One-Sentence SummaryMetacaspase proteases confer seed longevity by antagonizing CDC48 activity.

Publisher

Cold Spring Harbor Laboratory

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