The zinc matrix metalloproteinase ZMP-2 increases survival of Caenorhabditis elegans through interference with lipoprotein absorption.

ABSTRACT

Matrix metalloproteinases are zinc-dependent endopeptidases conserved throughout the animal kingdom which primarily degrade components of the extracellular matrix. In the nematode Caenorhabditis elegans, the zinc matrix metalloproteinase (ZMP-2) was demonstrated to increase resistance versus heat and bacterial pathogens. Here, we show that the survival reducing activities caused by the knockdown of zmp-2 in C. elegans essentially requires the presence of vitellogenin-6, a protein homologous to mammalian apolipoprotein B, and RME-2, a receptor mediating endocytosis of cholesterol particles. Measurements of reactive oxygen species inside and outside C. elegans revealed that knockdown of zmp-2 causes a prooxidative extracellular mileu which is a prerequisite for the reduction of survival. Interestingly, RNAi for the foxo transcription factor daf-16 completely prevented those survival reducing effects of zmp-2 RNAi, and RNAi in mutants of the steroid signalling pathway revealed that DAF-16 acts by inhibition of DAF-9 and DAF-12. In conclusion, our study demonstrates survival reducing activities caused by the functional loss of ZMP-2 in C. elegans. Those effects are mediated by the transport of oxidized cholesterol adducts which then trigger the inhibition of DAF-9 and DAF-12 through the activation of DAF-16.