Abstract 467: Exosomes Derived From Podoplanin Positive Cells Alter Physiology and Structure of Healthy Mouse Heart

Superseding fibrosis through paracrine signals enhances the ventricular dysfunction aftermyocardial infarction (MI). We have earlier reported that within 2 days post-MI a cohort ofpodoplanin (PDPN), a platelet aggregation-inducing type I transmembrane glycoprotein,positive cells populate injured heart and enhance inflammatory response by physicalinteractions with monocytes. Here we explored whether exosomes from these cells couldindependently alter healthy heart physiology and structure. PDPN+ cells were isolated 2 daysafter MI, cultured expanded and activated with TNFα and AngiotensinII. Exosomes derivedfrom activated PDPN+ cells conditioned media were used in vitro treatment of mouse cardiacendothelial cells (mCECs), mouse embryonic fibroblast (MEF) and monocytes and in vivo forthe treatment of healthy mouse hearts. PDPN+ cells derived exosomes (PDPN-exo)reprogramed mCECs to the lymphatic phenotype enhancing the expression of the majorlymphatic lineage markers and upregulated the expression of fibrotic markers suggesting anendothelial-mesenchymal transition. Furthermore, PDPN-exo drove the MEF to myo-fibroblastphenotype and monocytes toward pro-inflammatory phenotype. Proteomic analysis of PDPN-exo suggest these transitions may depend on NOTCH cleavage trough β-γSecretase andSerum Amyloid A3 protein accumulation/mis-folding. In vivo, PDPN-exo were initially injectedinto the left ventricle of healthy mouse hearts followed with exosomes boosters delivered byretro-orbital vein injection. Treated mice developed an extended epicardial fibrosis andamyloidosis with a subsequent impairment in the contractility and increase of the end diastolicand systolic volumes. The fibrotic area was characterized by vessels double positive toendothelial and lymphatic endothelial markers, and infiltrating CD45+ cells. In conclusionthese data suggest that PDPN-exo alter the biology of mCECs, fibroblast and monocytes andparticipate in adverse remodeling after MI; their specific cargo may represent a cohort oftargets for the treatment of cardiac fibrosis.