Gut Microbiota and Cardiometabolic Diseases. Abstract: The overarching mission of our Program is to generate critical scientific discoveries in the field of gut microbiome and cardiometabolic diseases that lead to potential improvements in human health, wellbeing, and patient care. Substantial evidence has accrued demonstrating a critical role for gut microbiota in both human health and disease. Our Program will advance the concept of metaorganismal endocrinology ? specifically ? that gut microbes organize to form a key endocrine organ that converts nutritional cues from the environment into hormone-like signals that impact cardiovascular and metabolic phenotypes in the human host. Our Program is comprised of 3 Projects and 4 Cores. Project 1, seeks to discover and functionally interrogate novel gut microbial pathways linked to the development of CVD and its adverse events, with initial focus on the metaorganismal PhenylAcetyGlutamine (PAGln) pathway. Preliminary studies show PAGln is gut microbiota generated metabolite whose levels are strikingly linked to CVD that through numerous preliminary cellular, microbiota and animal model studies, contributes to CVD pathogenesis. Analytical, biochemical and disease model studies in mice and humans explore the functional impact of PAGln on in vivo thrombosis and atherosclerosis. Project 2 is thematically linked to Projects 1 and 3, and tests the hypothesis that the gut microbial co-metabolites TMA and TMAO are unique hormone-like drivers of high fat diet induced obesity and atherosclerosis. Through use of tools generated with Project 1 and 3, the role of microbial choline TMA lyase activity in enhancing susceptibility for high fat diet-driven obesity via a host TMA - Taar5 receptor signaling axis will be tested. The hypothesis that FXR-driven hepatobiliary secretion of TMAO initiates a newly discovered enterohepatic TMAO signaling axis that regulates gut microbiome community structure and host bile acid/sterol metabolism will also be explored. Project 3 is similarly interrelated to Projects 1 and 2, and leverages both human untargeted metabolomics data collaboratively discovered with Project 1, animal cardiometabolic disease phenotyping expertise of Project 2 investigators, and metabolic pathway discovery and microbiome gene editing expertise of Project 3 investigators to enabled studies of causality and mechanism for structurally specific members of two key classes of gut microbe-derived molecules, aryl sulfates and secondary bile acids. The role of specific microbial genes responsible for forming candidate CVD- and diabetes-associated metabolites will be examined for their involvement in enhanced thrombosis, atherosclerosis, obesity and other metabolic phenotypes. Four cores (Analytical/Clinical/Bioinformatics; Analytical and Chemical Synthesis; Microbial Engineering and Transplantation; and Cardiometabolic Disease Phenotyping) provide multi-project support, significantly strengthening the research Program. The proposed Program Project will yield greater understanding of the participation of the gut microbiome in cardiometabolic diseases, and help advance our long-term goal of developing potential improvements in human health, wellbeing, and patient care.

Public Health Relevance

Gut Microbiota and Cardiometabolic Diseases Project Narrative The overarching mission of our Program is to generate critical scientific discoveries in the field of gut microbiome and cardiometabolic diseases that lead to potential improvements in human health, wellbeing, and patient care. Each integrated Project within the Program explores the complex interactions between distinct gut microbiota dependent pathways and host physiological processes critical to cardiometabolic diseases.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Program Projects (P01)
Project #
1P01HL147823-01
Application #
9790523
Study Section
Heart, Lung, and Blood Initial Review Group (HLBP)
Program Officer
Hasan, Ahmed a K
Project Start
2019-09-01
Project End
2024-07-31
Budget Start
2019-09-01
Budget End
2020-07-31
Support Year
1
Fiscal Year
2019
Total Cost
Indirect Cost
Name
Cleveland Clinic Lerner
Department
Other Basic Sciences
Type
Schools of Medicine
DUNS #
135781701
City
Cleveland
State
OH
Country
United States
Zip Code
44195