Reactive oxygen species ( ROS ) and IRF 1 stimulate IFN α production by 1 proximal tubules during ischemic AKI

Reactive oxygen species (ROS) and IRF1 stimulate IFNα production by 1 proximal tubules during ischemic AKI. 2 Pamela D. Winterberg, Yanxia Wang, Keng-Mean Lin, John R. Hartono, Glenn T. Nagami, Xin J. Zhou, 3 John M. Shelton, James A. Richardson, and Christopher Y. Lu . 4 5 Author Contributions: PDW and YW contributed equally to the majority of experimental data presented; PDW 6 participated in the writing of the manuscript; JRH assisted in CD45-bead isolation experiments; KML performed 7 the assays of PKTPS stimulation by α-IFNs versus β-IFN; GTN contributed the S3 murine renal tubular cell 8 line; XJZ evaluated and scored histologic sections; JMS and JAR performed the in situ hybridizations, CYL 9 supervised the planning and interpretation of the experiments, and the writing of the manuscript. 10 Affiliations: From the Departments of Pediatrics (Nephrology Division) (1), Internal Medicine [Nephrology 11 Division (2), and Cardiology Division (3)], Pathology (4), and Graduate School of Biomedical Sciences 12 (Immunology) (5), UT Southwestern Medical Center, Dallas, TX; Nephrology Section, VA Greater Los Angeles 13 and University of California, Los Angeles, Los Angeles, CA (5). 14 Running head (60 character limit): ROSand IRF1-induced IFNα during ischemic AKI (37 characters) 15 16 Corresponding author: Christopher Y. Lu, M.D. Dept. Internal Medicine (Nephrology Division), UT 17 Southwestern Medical Center, 5323 Harry Hines Blvd, Dallas, TX 75390-8856. FAX 214-648-2071, phone 21418 648-3959/ email: [email protected] 19 20 Articles in PresS. Am J Physiol Renal Physiol (May 8, 2013). doi:10.1152/ajprenal.00487.2012