Early apelin receptor activation attenuates elastase-induced emphysema and preserves endothelial apelin receptor signaling in mice

Alveolar capillary endothelial cells are positioned adjacent to the alveolar epithelium and contribute to lung homeostasis and injury responses. Single-cell studies have identified aerocyte capillary endothelial cells (aCap), which are specialized for gas exchange, and general capillary endothelial cells (gCap), which contribute to endothelial maintenance and inflammatory signaling. Apelin and its receptor are differentially enriched across these endothelial compartments, but their roles in emphysema development remain incompletely understood. Using an elastase-induced emphysema model in male C57BL/6J mice, we combined bulk RNA sequencing, CIBERSORTx-based cell-type deconvolution, histology, inflammatory assays, pulmonary function testing, and pharmacologic activation of the apelin receptor with [Pyr1]-Apelin-13. At 24 hours after elastase exposure, the inferred fraction of gCap was reduced, and lung expression of apelin and the apelin receptor was decreased. Early [Pyr1]-Apelin-13 administration reduced lung inflammatory mediator expression, Ly6G-positive neutrophil accumulation, bronchoalveolar lavage neutrophil counts, and matrix metalloproteinase-9 activity. Early treatment also attenuated subsequent airspace enlargement, whereas treatment initiated after emphysema was established did not improve physiological or histological outcomes. In a chronic {beta}ENaC-transgenic mouse model, the inferred gCap fraction was maintained, the aCap fraction was reduced, and apelin receptor activation did not improve disease phenotypes. These findings suggest that early activation of the apelin receptor modifies acute inflammatory and endothelium-associated responses following elastase injury and limits emphysematous remodeling in mice. Together, these results support a time-sensitive role for apelin-APJ signaling during the early phase of emphysema development.