Abstract
Treatment of human pancreatic non-endocrine tissue with Bone Morphogenetic Protein 7 (BMP-7) leads to the formation of glucose-responsive β-like cells. Here, we show that BMP-7 acts on extrainsular cells expressing PDX1 and the BMP receptor activin-like kinase 3 (ALK3/BMPR1A). In vitro lineage tracing indicates that ALK3+ cell populations are multipotent. PDX1+/ALK3+ cells are absent from islets but prominently represented in the major pancreatic ducts and pancreatic duct glands. We identified the purinergic receptor P2Y1 (P2RY1) as a surrogate surface marker for PDX1. Sorted P2RY1+/ALK3bright+ cells form BMP-7-expandable colonies characterized by NKX6.1 and PDX1 expression. Unlike the negative fraction controls, these colonies can be differentiated into multiple pancreatic lineages upon BMP-7 withdrawal. RNA-seq further corroborates the progenitor-like nature of P2RY1+/ALK3bright+ cells and their multilineage differentiation potential. Our studies confirm the existence of progenitor cells in the adult human pancreas and suggest a specific anatomical location within the ductal and glandular networks.
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•Multipotent cells expressing PDX1 and ALK3 reside in the human exocrine pancreas•PDX1+/ALK3bright+ cells are found mostly in major pancreatic ducts and duct glands•Surface markers ALK3 and P2RY1 can be used to sort and culture progenitor cells•BMP-7 stimulates pancreatic progenitor cell proliferation by binding to ALK3
Qadir et al. describe and characterize a population of multipotent, BMP-7-responsive progenitor-like cells within the human exocrine pancreas. These cells are characterized by the expression of PDX1 and ALK3, a canonical BMP receptor. Their findings shed new light on potential regenerative pathways in the human pancreas.