Abstract

Principal Investigator/Program Director (Last, First, Middle): Michel, Thomas PROJECT 3: """"""""Regulation of Vascular Redox State byThioredoxin."""""""" Richard Lee,Project Leader Abstract: Thioredoxin is a powerful scavenger of reactive oxygen species. Thioredoxin-interacting protein (Txnip; also known as VDUP1 or Vitamin D3 Up-regulated Protein 1) binds to thioredoxin and is now known to be an important inhibitor of thioredoxin activity. We have previously shown that Txnip is itself a redox-sensitive gene with a protein product that impairs cell survival. Furthermore, Txnip overexpression blocks cellular growth responses, and growth factor signals such as PDGF require degradation of Txnip in order to allow thioredoxin- mediated transcriptional activity. Thus, compelling evidence has now emerged that Txnip, an obscure orphan gene product only a few years ago, is a critical regulator of diverse signaling events due to its direct inhibition of thioredoxin activity. Because intracellular thioredoxin levels tend to be constant, Txnip may therefore be a key mechanism for controlling intracellular redox state. Reactive oxygen species participate in many stages of atherosclerosis. Here we present preliminary data on the potential importance of Thioredoxin/Txnip in vascular disease and describe its potential role in accelerating atherosclerosis. An intriguing new finding is that while many stimuli suppress Txnip and thus increase thioredoxin activity, glucose robustly induces Txnip and inhibits thioredoxin activity both in vitro and in vivo. We propose exploration of the central hypothesis that regulation of Txnip impairs vascular thioredoxin activity, leading to increased oxidative stress and promoting atherosclerosis. Because glucose induces Txnip, these experiments have particular relevance to diabetic vascular disease. We describe three hypothesis-driven Aims that will explore the role of Txnip in vascular pathophysiology in vitro and in vivo.
The Aims are:
Aim 1. To test the hypothesis that the induction of Txnip by glucose promotes a pro-apoptotic state in vascular cells through blockade of thioredoxin's antioxidant function.
Aim 2. To test the hypothesis that Txnip regulates redox state in diabetic arteries in mice using tissue-specific targeted gene deletion approaches.
Aim 3. To test the hypothesis that regulation of Txnip participates in the promotion of atherosclerosis.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Program Projects (P01)
Project #
5P01HL048743-16
Application #
7612716
Study Section
Heart, Lung, and Blood Initial Review Group (HLBP)
Project Start
Project End
Budget Start
2008-04-01
Budget End
2009-03-31
Support Year
16
Fiscal Year
2008
Total Cost
$338,482
Indirect Cost

  Institution

Name
Brigham and Women's Hospital
Department
Type
DUNS #
030811269
City
Boston
State
MA
Country
United States
Zip Code
02115

  Publications

Steinhorn, Benjamin; Sorrentino, Andrea; Badole, Sachin et al. (2018) Chemogenetic generation of hydrogen peroxide in the heart induces severe cardiac dysfunction. Nat Commun 9:4044
Brown, Jonathan D; Feldman, Zachary B; Doherty, Sean P et al. (2018) BET bromodomain proteins regulate enhancer function during adipogenesis. Proc Natl Acad Sci U S A 115:2144-2149
Samokhin, Andriy O; Stephens, Thomas; Wertheim, Bradley M et al. (2018) NEDD9 targets COL3A1 to promote endothelial fibrosis and pulmonary arterial hypertension. Sci Transl Med 10:
Pang, Paul; Abbott, Molly; Abdi, Malyun et al. (2018) Pre-clinical model of severe glutathione peroxidase-3 deficiency and chronic kidney disease results in coronary artery thrombosis and depressed left ventricular function. Nephrol Dial Transplant 33:923-934
Steinhorn, Benjamin; Sartoretto, Juliano L; Sorrentino, Andrea et al. (2017) Insulin-dependent metabolic and inotropic responses in the heart are modulated by hydrogen peroxide from NADPH-oxidase isoforms NOX2 and NOX4. Free Radic Biol Med 113:16-25
Handy, Diane E; Loscalzo, Joseph (2017) Responses to reductive stress in the cardiovascular system. Free Radic Biol Med 109:114-124
Garmaroudi, Farshid S; Handy, Diane E; Liu, Yang-Yu et al. (2016) Systems Pharmacology and Rational Polypharmacy: Nitric Oxide-Cyclic GMP Signaling Pathway as an Illustrative Example and Derivation of the General Case. PLoS Comput Biol 12:e1004822
Keating, Samuel T; Plutzky, Jorge; El-Osta, Assam (2016) Epigenetic Changes in Diabetes and Cardiovascular Risk. Circ Res 118:1706-22
Ghiassian, Susan Dina; Menche, Jörg; Chasman, Daniel I et al. (2016) Endophenotype Network Models: Common Core of Complex Diseases. Sci Rep 6:27414
Maron, Bradley A; Stephens, Thomas E; Farrell, Laurie A et al. (2016) Elevated pulmonary arterial and systemic plasma aldosterone levels associate with impaired cardiac reserve capacity during exercise in left ventricular systolic heart failure patients: A pilot study. J Heart Lung Transplant 35:342-351

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