PROJECT SUMMARY Human cytomegalovirus (CMV) is the most common viral infection to complicate cardiac transplantation and is an important risk factor for cellular rejection. While CMV causes damage to native organs through direct viral cytopathic effect, CMV-mediated cardiac allograft rejection is attributed to “immune dysregulation,” the mechanisms for which are not well understood. This information is critical to the field of transplantation, as treatment of cellular rejection, even in cases with concurrent CMV viremia, includes immunosuppression, an approach that confers risk of abrogation of viremic control and precipitation of CMV-related morbidity, including worsening rejection and other opportunistic infections. While cellular rejection is mediated by cytotoxic T lymphocytes (CTL), recent paradigm-shifting work has demonstrated that activated mononuclear-phagocytic (MP) cells also have a critical role in driving allograft rejection through trained immunity. These findings are intriguing in the context of CMV-mediated graft rejection as MP cells are an important CMV viral reservoir. The central hypothesis being tested in this proposal is that CMV-mediated dysregulation of the MP system triggers a unique rejection phenotype that drives the infiltration of distinctly proliferative and alloreactive CTL into cardiac allograft tissue. The objective of this proposal is to leverage multi-omics strategies, including scRNA-seq and CITE-seq, to decode the allograft tissue microenvironment in rejection during CMV viremia, with a focus on understanding how MP cells orchestrate alloreactive CTL responses (Aim 1) and determine if tissue MP and CTL cell states are reflected in the blood (Aim 2). To accomplish this, we will study endomyocardial tissue and paired blood from a cohort of 200 heart transplant recipients at the Massachusetts General Hospital (MGH) Transplant Center. These studies will distinguish CMV-mediated and CMV-independent mechanisms of cellular rejection, allowing for the development of diagnostic tools and rejection treatment strategies tailored to viral or non-viral causes, promoting precision medicine in cardiac transplantation. Dr. Sen will perform the work in this K08 proposal in the Center for Immunology and Inflammatory diseases (CIID) at MGH under the mentorship of Dr. Andrew Luster and Dr. Alexandra-Chloe Villani. The CIID is a state-of-the-art multidisciplinary research center focused on mechanisms of immune-mediated inflammatory diseases and is the foundation for immunology research at MGH. Dr. Sen has devised a career development plan consisting of coursework and hands-on training in single-cell ‘omics,’ bioinformatics, the biology of alloimmunity and tolerance, cardiac tissue microenvironments, in vivo host-pathogen interactions, and human subjects research, as well as organized a Training Advisory Committee, chaired by Dr. Joren Madsen, to provide expertise and assistance in these areas. The K08 award will provide Dr. Sen wi...