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Srinivasa T. Reddy, Ph.D., M.Sc.
Srinivasa T. Reddy, Ph.D., M.Sc.

Affiliation(s):

Professor, Department of Medicine, Department of Molecular and Medical Pharmacology, Department of Obstetrics and Gynecology
Member, ACCESS Department - Molecular and Medical Pharmacology
Member, JCCC Tumor Immunology Program Area

Contact Information:

Phone:
(310) 206-3915
Email:

Scientific Interest(s):

Dr. Srinivasa Reddy’s laboratory studies physiological and pathological phenomena mediated by arachidonic acid (AA) and its metabolites, which are implicated in a number of disease processes including acute and chronic inflammation, cardiovascular disease, immune response, arthritis, inflammatory bowel disease, respiratory disorders and cancer. Several projects are currently underway:
  1. Oxidized phospholipids and gene expression: Reddy’s laboratory identified several genes, whose expression is regulated by the biologically active oxidized lipids (AA-derived/mediated) in human aortic endothelial cells. Reddy’s laboratory has shown that one of these genes, MAP-Kinase Phosphatase-1 (MKP-1), is required for oxidized-lipid-induced monocyte/endothelial interactions (a critical step in the development of cardiovascular diseases). One of the main interests in Reddy’s laboratory is to determine the mechanism(s) of action of MKP-1 in atherosclerosis.
  2. HDL-associated enzymes and their cellular counterparts participate in the inactivation inflammatory responses initiated by oxidized phospholipids: HDL-associated enzymes possess anti-atherogenic properties that may be due, in part, to their interaction with oxidized LDL (source for oxidized phospholipids). One of these proteins, PON1, has been well-characterized for its anti-atherogenic properties; however, the mechanism of action of PON1 and its family members are unknown. Reddy’s laboratory has performed pioneering research in the cloning and characterization of PON2 and PON3 proteins. They have developed animal models to study the role of PON2 in atherosclerosis and to delineate the mechanism of action of PON proteins.
  3. COX-2 (a second, inducible form of COX) plays an anti-atherogenic role in the development of atherosclerosis in mouse models: COX-2 is the target for a class of non-steroidal anti-inflammatory drugs (NSAID) termed COX-2 selective inhibitors. Clinical applications for COX-2 selective inhibitors include pain management (e.g., arthritis) and the prevention of certain types of colon cancer; however, the cardiovascular side effects of COX-2 selective inhibitors caused a withdrawal of these important pharmacological agents from the market. Reddy’s laboratory, in collaboration with Dr. Harvey Herschman, has established several conditional COX-2 knockout mice to unravel the role of COX-2 in vascular biology and inflammation.
  4. ApoA-I mimetic peptides for the treatment of cardiovascular diseases: Over the last decade, Reddy’s laboratory, together with other researchers at UCLA and other institutions, have developed a class of anti-inflammatory agents based on Reddy’s work on oxidized lipids and HDL that show promise for the treatment of many inflammatory disorders including cancer.

Selected Cancer-Related Publications:

Imaizumi S, Grijalva V, Priceman S, Wu L, Su F, Farias-Eisner R, Hama S, Navab M, Fogelman AM, Reddy ST. Mitogen-activated protein kinase phosphatase-1 deficiency decreases atherosclerosis in apolipoprotein E null mice by reducing monocyte chemoattractant protein-1 levels. Mol Genet Metab. 2010 Sep;101(1):66-75. Epub 2010 Jun 9.

Devarajan A, Bourquard N, Hama S, Navab M, Grijalva VR, Morvardi S, Clarke CF, Vergnes L, Reue K, Teiber JF, Reddy ST. Paraoxonase 2 deficiency alters mitochondrial function and exacerbates the development of atherosclerosis. Antioxid Redox Signal. 2011 Feb 1;14(3):341-51. Epub 2010 Sep 6.

Watanabe J, Lin JA, Narasimha AJ, Shahbazian A, Ishikawa TO, Martin MG, Herschman HR, Reddy ST. Novel anti-inflammatory functions for endothelial and myeloid cyclooxygenase-2 in a new mouse model of Crohn's disease. Am J Physiol Gastrointest Liver Physiol. 2010 Jun;298(6):G842-50. Epub 2010 Mar 18.

Imaizumi S, Grijalva V, Navab M, Van Lenten BJ, Wagner AC, Anantharamiah GM, Fogelman AM, Reddy ST. L-4F differentially alters plasma levels of oxidized fatty acids resulting in more anti-inflammatory HDL in mice. Drug Metab Lett. 2010 Aug;4(3):139-48.

Narasimha AJ, Watanabe J, Ishikawa TO, Priceman SJ, Wu L, Herschman HR, Reddy ST. Absence of myeloid COX-2 attenuates acute inflammation but does not influence development of atherosclerosis in apolipoprotein E null mice. Arterioscler Thromb Vasc Biol. 2010 Feb;30(2):260-8. Epub 2009 Nov 19.