Jude T. Deeney, PhD

Assistant Professor, Medicine

Jude Deeney
358.652.5

Biography

Dr. Deeney’s research is designed to discern the nutrient-derived metabolic signals leading to glucose- and fatty acid (FA)-induced insulin exocytosis from the pancreatic ß-cell. FA acutely stimulates glucose-induced insulin secretion (GSIS) while chronic exposure to elevated FA and glucose can result in glucolipotoxicity (GLT) with basal hypersecretion and inhibition of GSIS. Despite the adverse effects of chronic exposure, FA is known to be required for normal exocytosis from the ß-cell. Deciphering the dual effects of FA on GSIS will lead to the possible development of therapies that would reduce the inhibitory effects while sparing the stimulatory effects of FA on the ß-cell. Studies in his laboratory are aimed at identifying the lipids or lipid classes involved in enhancing and suppressing GSIS and assessing their effects on lipid-modulated or modulating proteins.

Other Positions

  • Member, Evans Center for Interdisciplinary Biomedical Research, Boston University
  • Associate Member, Boston Nutrition Obesity Research Center, Boston University Medical Center
  • Graduate Faculty (Primary Mentor of Grad Students), Boston University Chobanian & Avedisian School of Medicine, Graduate Medical Sciences

Education

  • Karolinska Institutet, PhD
  • Virginia Polytechnic Institute and State University, MS
  • Saint Joseph College, BS

Classes Taught

  • GMSFC706
  • GMSNU755
  • GMSNU756

Publications

  • Published on 9/28/2023

    Yuan M, Hu FB, Li Y, Cabral HJ, Das SK, Deeney JT, Zhou X, Paik JM, Moore LL. Types of dairy foods and risk of fragility fracture in the prospective Nurses' Health Study cohort. Am J Clin Nutr. 2023 Dec; 118(6):1172-1181. PMID: 37777015.

    Read at: PubMed
  • Published on 8/10/2023

    Zheng A, Huang N, Bean D, Rayapaneni S, Deeney J, Sagar M, Hamilton JA. Resolvin E1 heals injured cardiomyocytes: Therapeutic implications and H-FABP as a readout for cardiovascular disease & systemic inflammation. Prostaglandins Leukot Essent Fatty Acids. 2023 Oct; 197:102586. PMID: 37604082.

    Read at: PubMed
  • Published on 1/6/2023

    Yuan M, Hu FB, Li Y, Cabral HJ, Das SK, Deeney JT, Moore LL. Dairy Foods, Weight Change, and Risk of Obesity During the Menopausal Transition. J Nutr. 2023 Mar; 153(3):811-819. PMID: 36931753.

    Read at: PubMed
  • Published on 12/27/2022

    Yuan M, Hu FB, Li Y, Cabral HJ, Das SK, Deeney JT, Moore LL. Dairy Food Intakes, Postpartum Weight Retention, and Risk of Obesity. Nutrients. 2022 Dec 27; 15(1). PMID: 36615778.

    Read at: PubMed
  • Published on 10/1/2021

    Corkey BE, Deeney JT, Merrins MJ. What Regulates Basal Insulin Secretion and Causes Hyperinsulinemia? Diabetes. 2021 10; 70(10):2174-2182. PMID: 34593535.

    Read at: PubMed
  • Published on 10/15/2020

    Corkey BE, Deeney JT. The Redox Communication Network as a Regulator of Metabolism. Front Physiol. 2020; 11:567796. PMID: 33178037.

    Read at: PubMed
  • Published on 5/12/2020

    Bharath LP, Agrawal M, McCambridge G, Nicholas DA, Hasturk H, Liu J, Jiang K, Liu R, Guo Z, Deeney J, Apovian CM, Snyder-Cappione J, Hawk GS, Fleeman RM, Pihl RMF, Thompson K, Belkina AC, Cui L, Proctor EA, Kern PA, Nikolajczyk BS. Metformin Enhances Autophagy and Normalizes Mitochondrial Function to Alleviate Aging-Associated Inflammation. Cell Metab. 2020 07 07; 32(1):44-55.e6. PMID: 32402267.

    Read at: PubMed
  • Published on 1/22/2020

    Rumala CZ, Liu J, Locasale JW, Corkey BE, Deeney JT, Rameh LE. Exposure of Pancreatic ß-Cells to Excess Glucose Results in Bimodal Activation of mTORC1 and mTOR-Dependent Metabolic Acceleration. iScience. 2020 Feb 21; 23(2):100858. PMID: 32058969.

    Read at: PubMed
  • Published on 12/23/2019

    Thomas DD, Stockman MC, Yu L, Meshulam T, McCarthy AC, Ionson A, Burritt N, Deeney J, Cabral H, Corkey B, Istfan N, Apovian CM. Effects of medium chain triglycerides supplementation on insulin sensitivity and beta cell function: A feasibility study. PLoS One. 2019; 14(12):e0226200. PMID: 31869355.

    Read at: PubMed
  • Published on 10/30/2018

    Petcherski A, Trudeau KM, Wolf DM, Segawa M, Lee J, Taddeo EP, Deeney JT, Liesa M. Elamipretide Promotes Mitophagosome Formation and Prevents Its Reduction Induced by Nutrient Excess in INS1 ß-cells. J Mol Biol. 2018 12 07; 430(24):4823-4833. PMID: 30389435.

    Read at: PubMed

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