Reactive oxygen species-dependent wound responses in animals and plants

Abstract

Animals and plants evolved sophisticated mechanisms that regulate their responses to mechanical injury. Wound response in animals mainly promotes wound healing processes, nerve cell regeneration, and immune system responses at the vicinity of the wound site. In contrast, wound response in plants is primarily directed at sealing the wound site via deposition of various compounds and generating systemic signals that activate multiple defense mechanisms in remote tissues. Despite these differences between animals and plants, recent studies have shown that reactive oxygen species (ROS) play very common signaling and coordination roles in the wound responses of both systems. This review provides an update on recent findings related to ROS-regulated coordination of intercellular communications and signal transduction during wound response in plants and animals. In particular, differences and similarities in H2O2-dependent long-distance signaling between zebrafish and Arabidopsis thaliana are discussed.

Keywords: ABA; DPI; Duox; Free radicals; JA; Long-distance signaling; MAPK; NADPH oxidase; Nox; PDGF; ROS; Rboh; Reactive oxygen species; TF; VSMC; Wound response; abscisic acid; diphenyleneiodonium.; dual oxidase; jasmonic acid; mitogen-activated protein kinase; platelet-derived growth factor; reactive oxygen species; respiratory burst oxidase homolog; tissue factor; vascular smooth muscle cell.