Willem Staels scite author profile

Willem Staels

2Publications

104Citation Statements Received

94Citation Statements Given

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Affiliations

Universitair Ziekenhuis Brussel, Vrije Universiteit Brussel, Ghent University Hospital

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Estrogen Receptor α Regulates β-Cell Formation During Pancreas Development and Following Injury

Yuchi

Cai

Legein

et al. 2015

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Identifying pathways for b-cell generation is essential for cell therapy in diabetes. We investigated the potential of 17b-estradiol (E 2 ) and estrogen receptor (ER) signaling for stimulating b-cell generation during embryonic development and in the severely injured adult pancreas. E 2 concentration, ER activity, and number of ERa transcripts were enhanced in the pancreas injured by partial duct ligation (PDL) along with nuclear localization of ERa in b-cells. PDL-induced proliferation of b-cells depended on aromatase activity. The activation of Neurogenin3 (Ngn3) gene expression and b-cell growth in PDL pancreas were impaired when ERa was turned off chemically or genetically (ERa 2/2 ), whereas in situ delivery of E 2 promoted b-cell formation. In the embryonic pancreas, b-cell replication, number of Ngn3 + progenitor cells, and expression of key transcription factors of the endocrine lineage were decreased by ERa inactivation. The current study reveals that E 2 and ERa signaling can drive b-cell replication and formation in mouse pancreas.Decreased functional b-cell mass is the major cause for hyperglycemia in diabetes. Restoration of the endogenous b-cell mass as a therapeutic strategy, however, requires a better understanding of signaling pathways that control b-cell growth and differentiation. Embryonic b-cells are generated by a developmental program executed through the timed action of a number of key transcription factors among which Neurogenin3 (Ngn3) is key for endocrine specification. Ngn3 + cells delaminate from pancreatic epithelium, are mitotically quiescent, and give rise to endocrine cells. Ngn3 cells appear maximally competent for driving b-cell formation at embryonic day (E) 14.5. Formed b-cells expand through self-replication, already evident at E18.5, and continue into early postnatal life (1). Also in adult mice with severely injured pancreas by partial duct ligation (PDL), Ngn3 + cells are generated near duct epithelium and can differentiate into b-cells (2). b-Cells are vastly generated through replication in PDL (3,4), but some derive from acinar (5) and duct (6) cells, apparently through an Ngn3 + stage (2,5) as in embryonic pancreas. How the numbers of Ngn3 + endocrine progenitors and replicating b-cells are controlled in the embryonic or mature pancreas is uncertain. Identifying factors that control these processes and manipulating them may be of therapeutic advantage. What is known is that 17b-estradiol (E 2 ) enhances b-cell survival and glycemic control in various animal models (7,8) by signaling through estrogen receptor (ER) a (8,9) and/or ERb (10).However, little is known about the importance of estrogen and ER signaling for b-cell proliferation and differentiation. So far, no in vivo effects on b-cell formation have been reported for the ER antagonist tamoxifen (TAM), although this compound is used to conditionally activate Cre recombinase activity (Cre ERT ) in genetic

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Purification of pancreatic endocrine subsets reveals increased iron metabolism in beta cells

Berthault

Staels

Scharfmann

2020

Molecular Metabolism

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Objectives The main endocrine cell types in pancreatic islets are alpha, beta, and delta cells. Although these cell types have distinct roles in the regulation of glucose homeostasis, inadequate purification methods preclude the study of cell type-specific effects. We developed a reliable approach that enables simultaneous sorting of live alpha, beta, and delta cells from mouse islets for downstream analyses. Methods We developed an antibody panel against cell surface antigens to enable isolation of highly purified endocrine subsets from mouse islets based on the specific differential expression of CD71 on beta cells and CD24 on delta cells. We rigorously demonstrated the reliability and validity of our approach using bulk and single cell qPCR, immunocytochemistry, reporter mice, and transcriptomics. Results Pancreatic alpha, beta, and delta cells can be separated based on beta cell-specific CD71 surface expression and high expression of CD24 on delta cells. We applied our new sorting strategy to demonstrate that CD71, which is the transferrin receptor mediating the uptake of transferrin-bound iron, is upregulated in beta cells during early postnatal weeks. We found that beta cells express higher levels of several other genes implicated in iron metabolism and iron deprivation significantly impaired beta cell function. In human beta cells, CD71 is similarly required for iron uptake and CD71 surface expression is regulated in a glucose-dependent manner. Conclusions This study provides a novel and efficient purification method for murine alpha, beta, and delta cells, identifies for the first time CD71 as a postnatal beta cell-specific marker, and demonstrates a central role of iron metabolism in beta cell function.

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Willem Staels

Estrogen Receptor α Regulates β-Cell Formation During Pancreas Development and Following Injury

Purification of pancreatic endocrine subsets reveals increased iron metabolism in beta cells

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