Jeon, S. G.; Bae, D. H.; Park, J.-Y.; Yong, M.; Nguyen, T. T. V.; Lee, K. J.; Lee, S.-H.; Lim, Y. C.; Bae, E. J.; Son, M.-Y.; Yoo, J.

Severe salivary gland injury can cause chronic xerostomia and persistent secretory dysfunction, yet the epithelial populations that support repair remain poorly defined. Here, we identify NGFR/Ngfr as a conserved surface marker for isolating organoid-forming epithelial stem/progenitor cells from human and mouse salivary glands and show that mouse Ngfr-lineage cells contribute to ductal--acinar regeneration after injury. Single-cell transcriptomic analysis of human salivary gland tissue identified a restricted NGFR-expressing basal duct epithelial subpopulation with progenitor-like features and early positions along inferred epithelial differentiation trajectories. Functionally, NGFR-expressing cells showed enhanced primary and secondary organoid-forming capacity, and NGFR-enriched human organoids engrafted after transplantation into injured salivary glands of immunodeficient mice. In mouse salivary glands, isolated Ngfr-expressing cells showed enriched organoid-forming activity, and Ngfr expression localized to injury-associated ductal regions after duct ligation and local inflammatory injury. Ngfr-CreERT2 lineage tracing further showed that Ngfr-lineage cells contribute to ductal and acinar compartments during post-injury regeneration. Together, these findings establish NGFR/Ngfr as a conserved surface marker for prospectively isolating basal duct epithelial stem/progenitor populations with organoid-forming activity and injury-responsive ductal-acinar regenerative potential.