Human Pancreatic Microenvironment Promotes β-cell Differentiation Via Non-canonical WNT5A/JNK and BMP Signaling

Overview

Journal Nat Commun

Specialty Biology

Date 2022 Apr 13

PMID 35414140

Authors

Jolanta Chmielowiec

Wojciech J Szlachcic

Diane Yang

Marissa A Scavuzzo

Katrina Wamble

Alejandro Sarrion-Perdigones

Omaima M Sabek

Koen J T Venken

Malgorzata Borowiak

Affiliations

Soon will be listed here.

Abstract

In vitro derivation of pancreatic β-cells from human pluripotent stem cells holds promise as diabetes treatment. Despite recent progress, efforts to generate physiologically competent β-cells are still hindered by incomplete understanding of the microenvironment's role in β-cell development and maturation. Here, we analyze the human mesenchymal and endothelial primary cells from weeks 9-20 fetal pancreas and identify a time point-specific microenvironment that permits β-cell differentiation. Further, we uncover unique factors that guide in vitro development of endocrine progenitors, with WNT5A markedly improving human β-cell differentiation. WNT5A initially acts through the non-canonical (JNK/c-JUN) WNT signaling and cooperates with Gremlin1 to inhibit the BMP pathway during β-cell maturation. Interestingly, we also identify the endothelial-derived Endocan as a SST+ cell promoting factor. Overall, our study shows that the pancreatic microenvironment-derived factors can mimic in vivo conditions in an in vitro system to generate bona fide β-cells for translational applications.

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