Richard Kibbey, MD/PhD
Ensign Professor of Medicine (Endocrinology and Metabolism), and Professor of Molecular and Cellular PhysiologyCards
About
Research
Overview
Dr. Kibbey is a clinically-active physician scientist dedicated to the treatment of diabetes and other metabolic diseases. Mitochondria, as the primary sites of consumption and production of metabolites and energy, are central to regulation of insulin secretion, glucose production, nerve transmission, muscular contraction and normal and cancer cell growth. Mitochondria, therefore, require mechanisms to ‘sense’ their own metabolic environment in order to efficiently respond to supply and demand termed ‘metabolic equilibrioception.’ In order to better understand these and other important mitochondrial metabolic fluxes, methods to discriminate between oxidative, exchange, anaplerotic, and cataplerotic fluxes were developed. Consequently, the LC/MS/MS method Mass Isotopomeric Multi-Ordinate Spectroscopic Analysis (MIMOSA) follows the step-wise flow of mass isotopomers along these intersecting metabolic pathways. It captures both steady state and dynamic metabolic fluxes by resolving positional isotopomers of the TCA cycle. As a consequence, MIMOSA not only can determine the rates of individual intracellular fluxes but, when more than one pathway compete for a reaction, the relative flow of each contribution.
From the study of a rare condition of congenital hypoglycemia, the Kibbey lab identified mitochondrial GTP (mtGTP) as an important equilibrioceptive indicator involved in glucose homeostasis and ascribed the first physiological activity of the mitochondria GTP cycle as a “metabolic tachometer.” In tissues such as pancreatic b-cells and hepatocytes, the mtGTP is hydrolyzed by the mitochondrial isoform of phosphoenolpyruvate carboxykinase (PEPCK-M) to generate PEP that is essential for insulin secretion, while in hepatocytes it catalyzes this crucial step of gluconeogenesis. Finally, it also regulates glucagon secretion from a-cells.
His laboratory has developed a unique experience with mitochondrial, cellular, tissues-specific and whole body metabolism needed to advance mtGTP understanding. It is strongly vested in both understanding intracellular and inter-tissue metabolic flux associated with metabolic human disease. Differences in equilibrioception and responses to pharmacologic therapy are used to identify defects in metabolism as novel therapeutic targets for humans. While Dr. Kibbey’s graduate studies were NMR protein structure, his expertise now lies in 13C mass spectrometry, insulin resistance and secretion, bioenergetics, and applications to cellular, cancer and animal preclinical models.
Medical Research Interests
Academic Achievements & Community Involvement
News & Links
Media
- Mass Isotopomer MultiOrdinate Spectral Analysis.
News
- December 12, 2024Source: Yale Ventures
Yale Life Science PitchFest 2024 Showcases Groundbreaking Research and Innovation
- August 07, 2024Source: Yale News
Richard Kibbey Is Named Ralph H. Ensign Professor of Medicine
- January 31, 2024
New Professors in the Department of Internal Medicine
- January 02, 2024
Building Community to Advance Metabolic Science