Abstract
The cytokine TGFβ1 induces epidermal Langerhans cell (LC) differentiation from human precursors, an effect mediated through BMPR1a/ALK3 signaling, as revealed from ectopic expression and receptor inhibition studies. Whether TGFβ1‒BMPR1a signaling is required for LC differentiation invivo remained incompletely understood. We found that TGFβ1-deficient mice show defective perinatal expansion and differentiation of LCs. LCs can be identified within the normal healthy human epidermis by anti-BMPR1a immunohistology staining. Deletion of BMPR1a in all (vav+) hematopoietic cells revealed that BMPR1a is required for the efficient TGFβ1-dependent generation of CD207+ LC-like cells from CD11c+ intermediates invitro. Similarly, BMPR1a was required for the optimal induction of CD207 by preformed major histocompatibility complex II‒positive epidermal resident LC precursors in the steady state. BMPR1a expression is strongly upregulated in epidermal cells in psoriatic lesions, and BMPR1aΔCD11c mice showed a defect in the resolution phase of allergic and psoriatic skin inflammation. Moreover, whereas LCs from these mice expressed CD207, BMPR1a counteracted LC activation and migration from skin explant cultures. Therefore, TGFβ1‒BMPR1a signaling seems to be required for the efficient induction of CD207 during LC differentiation in the steady state, and bone marrow‒derived lesional CD11c+ cells may limit established skin inflammation through enhanced BMPR1a signaling.
Highlights
Epidermal Langerhans cells (LCs) represent highly abundant evolutionary conserved dendritic cells (DCs) located in stratified epithelia
We recently showed that BMPR1aDCD11c mice show enhanced psoriasis-like skin inflammation in response to toll-like receptor 7 ligand imiquimod (IMQ) (Sconocchia et al, 2021)
We showed that TGFb1 signals through BMPR1a to induce efficient CD207þ LC differentiation from their precursors
Summary
Epidermal Langerhans cells (LCs) represent highly abundant evolutionary conserved dendritic cells (DCs) located in stratified epithelia. We show that BMPR1a is required for the efficient TGFb1-dependent LC differentiation in vitro and that both TGFb1 and BMPR1a are required for the optimal intraepidermal differentiation of CD207þ LCs. BMPR1a was required in CD11cþ cells for terminating established skin lesions. TGFb1 processing in mice lacking avb or avb in keratinocytes resulted in a loss of LCs in vivo (Mohammed et al., 2016) Together, these studies showed a key role of constitutive-active canonical TGFb1 signaling in the maintenance of epidermal resident nonactivated LCs in the steady state. Evidence from in vitro studies suggested that TGFb1-dependent LC lineage instruction relies on BMP receptor rather than on canonical TGFbR1/ALK5 signaling (Yasmin et al, 2013). TGFb1 is partially required for the neonatal presence of dendritic-shaped epidermal LC precursors and for MHCII expression by these cells. TGFb1 drives postnatal LC differentiation, and neonatal LC precursors are partially dependent on TGFb1 in vivo
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