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REACTIVE OXYGEN SPECIES AS MEDIATORS OF SIGNAL TRANSDUCTION

$0Z01FY2000HLNIH

Heart, Lung, And Blood Institute

Investigators

Linked publications & trials

Abstract

We have continued to explore the role that reactive oxygen species (ROS)play in signal transduction pathways. We have previously shown that a variety of growth factors and cytokines induce the generation of ROS following ligand binding. Our studies suggest that the pathway leading to ROS generation involves the activation of the small GTP-binding proteins rac1. This has led us to explore the role of this family of proteins in redox regulation. We have also explored the role that ROS play in apoptosis, and more recently in replicative senescence and aging. In the last year we have been able to demonstrate that mitochondrial oxidants also stimulate signaling pathways. We have proposed that mitochondrial oxidants may function physiologically to regulate cellular metabolism. In this scenario the release of mitochondrial oxidants stimulated by an increase in metabolism would activate a pathway , that in turn , would feedback and inhibit metabolism, and hence oxidant generation. We have also derived a genomic screening strategy to isolate gene products that regulate mitochondrial oxidant production and potentially regulate cellular and organismal life span. In addition, this year we have establish a in vitro system to explore the relationship between caloric intake and aging. Finally, we have attempted to identify direct targets of oxidant stress. We have developed a new assay to allow for the rapid isolation and subsequent identification by mass spectroscopy of proteins in which glutathione has been added in a covalent fashion. We are attempting to understand the physiological relevance of glutathiolation in various signaling pathways. Using this system we have demonstrated that both apoptotic and growth factor stimulation leads to accumulation of a discrete set of proteins in which the reactive cysteine has been covalently modified by glutathione addition. The further identification of these proteins should provide important information on the specificity of oxidant signalling.

View original record on NIH RePORTER →