PROJECT SUMMARY/ABSTRACT The proposed career development award will foster and promote the candidate’s training and evolution toward independent investigator. Candidate: Dr. Kenneth Lim is Assistant Professor of Medicine in the Division of Nephrology at Indiana University. The proposed study integrates patient-oriented research, cardiopulmonary exercise testing (CPET) technology, proteomics and computational biology embedded in a rigorous training plan. Mentorship: Dr. Sharon Moe (Primary Mentor) is Past President of the American Society of Nephrology (ASN), Associate Dean of Clinical and Translational Research and Director of the Division of Nephrology at Indiana University. Dr. Ravi Thadhani (Secondary Mentor) is Chief Academic Officer at MassGeneralBrigham and Faculty Dean at Harvard Medical School. Research: Age-associated changes of the cardiovascular system and its complications are the leading cause of death in patients with chronic kidney disease (CKD). Despite this, there are currently no direct therapies available to treat this condition today. Klotho is a protein present in circulation that exerts highly pleiotropic aging suppressive effects. Animal studies have demonstrated promising therapeutic properties of Klotho that could be used for the treatment of cardiovascular disease in CKD. However, several fundamental problems must first be overcome before future human interventional studies can proceed: Firstly, published studies examining circulating Klotho with cardiovascular outcomes to-date have focused mainly on morphological alterations, while clear evidence has shown that aging is tightly associated with reduced cardiovascular functional reserve. Secondly, the precise levels of the various circulating isoforms of Klotho and the nature of their specific roles in cardiovascular health are still undefined. The overall aim of the proposed study is therefore to bridge a critical gap in our understanding of the role of circulating Klotho in the regulation of the cardiovascular aging response in CKD. We hypothesize that circulating Klotho deficiency is a major determinant of premature cardiovascular aging in CKD. In specific aim 1, we will characterize the relationship of the various Klotho isoforms with cardiovascular structure and functional reserve using state-of-the-art CPET technology. We will define levels of circulating Klotho isoforms in health and advanced CKD (cross-sectional), and after kidney transplantation (prospectively). Circulating Klotho isoform levels will be assessed using an established immunoprecipitation and western blotting method. In specific aim 2, we will conduct a cross-section study to characterize the relationship of circulating Klotho with premature vascular changes using human arteries from healthy and CKD patients. To further determine therapeutic properties of Klotho, we will conduct an interventional study using arterial explant organ cultures.