L-arginine metabolism in experimental Chagas disease: role of arginase I and iNOS in heart tissue=Metabolismo de la L-arginina en la enfermedad de Chagas experimental: papel de la arginasa I y la iNOS en tejido cardiaco

Tesis doctoral inédita. Universidad Autónoma de Madrid, Facultad de Ciencias, Departamento de Biología Molecular . Fecha de lectura: 25-04-200

Vascular biology 2014 in Monterey, California: celebrating 20 years of NAVBO

A meeting report for Vascular Biology 2014, held in Monterey, California and organized by the North American Vascular Biology Organization (NAVBO)

Redox Regulation of Mitochondrial Fission Protein Drp1 by Protein Disulfide Isomerase Limits Endothelial Senescence.

Mitochondrial dynamics are tightly controlled by fusion and fission, and their dysregulation and excess reactive oxygen species (ROS) contribute to endothelial cell (EC) dysfunction. How redox signals regulate coupling between mitochondrial dynamics and endothelial (dys)function remains unknown. Here, we identify protein disulfide isomerase A1 (PDIA1) as a thiol reductase for the mitochondrial fission protein Drp1. A biotin-labeled Cys-OH trapping probe and rescue experiments reveal that PDIA1 depletion in ECs induces sulfenylation of Drp1 at Cys644, promoting mitochondrial fragmentation and ROS elevation without inducing ER stress, which drives EC senescence. Mechanistically, PDIA1 associates with Drp1 to reduce its redox status and activity. Defective wound healing and angiogenesis in diabetic or PDIA1+/- mice are restored by EC-targeted PDIA1 or the Cys oxidation-defective mutant Drp1. Thus, this study uncovers a molecular link between PDIA1 and Drp1 oxidoreduction, which maintains normal mitochondrial dynamics and limits endothelial senescence with potential translational implications for vascular diseases associated with diabetes or aging.This research was supported by NIH R01HL135584 (to M.U.-F.), NIH R21HL112293 (to M.U.-F.), NIH R01HL133613 (to T.F. and M.U.-F.), NIH R01HL116976 (to T.F. and M.U.-F.), NIH R01HL070187 (to T.F.), NIH R01HL112626 (to J.K.), Department of Veterans Affairs Merit Review Grant 2I01BX001232 (to T.F.), AHA 16GRNT31390032 (to M.U.-F.), AHA 15SDG25700406 (to S.V.), AHA 16POST27790038 (to A.D.), and NIH T32HL07829 (to R.C.). We thank Mr. Kyle Taylor at Keyence Corporation for assisting with taking images using the Keyence microscope; Dr. John O’Bryan at UIC for assisting with the BiFC assays; Dr. Leslie Poole at Wake Forest University for providing DCP-Bio1, as well as Dr. Jody Martin and the Center for Cardiovascular Research-supported Vector Core Facility at UIC for amplifying adenoviruses.S