Dendritic cells (DCs) in lymphoid and non-lymphoid tissues are professional antigen-presenting cells that are essential for effective immunity and tolerance. However, the presence and characteristics of DCs in steady-state salivary glands (SGs) currently remain unknown. We herein identified CD64- CD11c+ classical DCs (cDCs) as well as CD64+ macrophages among CD45+ MHC class II+ antigen-presenting cells in steady-state murine SGs. SG cDCs were divided into CD103+ CD11b- and CD103- CD11b+ cDCs. CD103+ CD11b- cDCs expressed XCR1, CLEC9A, and interferon regulatory factor 8, whereas CD103- CD11b+ cDCs strongly expressed CD172a. Both cDC subsets in SGs markedly expanded in response to the Flt3 ligand (Flt3L), were replenished by bone marrow-derived precursors, and differentiated from common DC precursors, but not monocytes. Furthermore, ovalbumin-pulsed SG CD103+ CD11b- cDCs induced the proliferation of naïve ovalbumin-specific CD8+ T cells and production of interferon-γ from proliferating T cells. SG CD103+ CD11b- cDCs expanded by Flt3L in vivo exhibited the same properties. These results indicate that bona fide cDCs reside in steady-state murine SGs and cDCs with the CD103+ CD11b- phenotype possess antigen cross-presenting capacity. Moreover, Flt3L enhances protective immunity by expanding cDCs. Taken together, SG cDCs might play an important role in maintaining immune homeostasis in the tissues.
Keywords: Cross-presentation; Dendritic cells; Host defense; Immune homeostasis; Progenitors; Salivary glands.
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