Caspases from Scleractinian Coral Show Unique Regulatory Features

Abstract

AbstractDiseases affecting coral have led to massive decline and altered the community structure of reefs. In response to immune challenges, cnidaria activate apoptotic or autophagic pathways, and the particular pathway correlates with disease sensitivity (apoptosis) or resistance (autophagy). Although cnidaria contain complex apoptotic signaling pathways, similar to those in vertebrates, the mechanisms leading to cell death are largely unexplored. We identified and characterized two caspases each from Orbicella faveolata, a disease-sensitive stony coral, and Porites astreoides, a disease-resistant stony coral. The four caspases are predicted homologs of human caspases-3 and −7, but OfCasp3a and PaCasp7a contain an amino-terminal caspase activation and recruitment domain (CARD) similar to human initiator/inflammatory caspases. In contrast, OfCasp3b and PaCasp3 have short pro-domains, like human effector caspases. We show that OfCasp3a and PaCasp7a are DxxDases, like human caspases-3 and −7, while OfCasp3b and PaCasp3 are more similar to human caspase-6, with VxxDase activity. Our biochemical analyses suggest a mechanism in coral in which the CARD-containing DxxDase is activated on death platforms, but the protease does not directly activate the VxxDase. We also report the first X-ray crystal structure of a coral caspase, that of PaCasp7a determined at 1.57Å resolution. The structure reveals overall conservation of the caspase-hemoglobinase fold in coral as well as an N-terminal peptide bound near the active site that may serve as a regulatory exosite. The binding pocket has been observed in initiator caspases of other species, suggesting mechanisms for the evolution of substrate selection while maintaining common activation mechanisms of CARD-mediated dimerization.