Neuropeptide Y expression marks partially differentiated β cells in mice and humans
Pope Rodnoi, Mohan Rajkumar, Abu Saleh Md Moin, Senta K. Georgia, Alexandra E. Butler, Sangeeta Dhawan
Pope Rodnoi, Mohan Rajkumar, Abu Saleh Md Moin, Senta K. Georgia, Alexandra E. Butler, Sangeeta Dhawan
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Research Article Development Endocrinology

Neuropeptide Y expression marks partially differentiated β cells in mice and humans

Abstract

β Cells are formed in embryonic life by differentiation of endocrine progenitors and expand by replication during neonatal life, followed by transition into functional maturity. In this study, we addressed the potential contribution of neuropeptide Y (NPY) in pancreatic β cell development and maturation. We show that NPY expression is restricted from the progenitor populations during pancreatic development and marks functionally immature β cells in fetal and neonatal mice and humans. NPY expression is epigenetically downregulated in β cells upon maturation. Neonatal β cells that express NPY are more replicative, and knockdown of NPY expression in neonatal mouse islets reduces replication and enhances insulin secretion in response to high glucose. These data show that NPY expression likely promotes replication and contributes to impaired glucose responsiveness in neonatal β cells. We show that NPY expression reemerges in β cells in mice fed with high-fat diet as well as in diabetes in mice and humans, establishing a potential new mechanism to explain impaired β cell maturity in diabetes. Together, these studies highlight the contribution of NPY in the regulation of β cell differentiation and have potential applications for β cell supplementation for diabetes therapy.

Authors

Pope Rodnoi, Mohan Rajkumar, Abu Saleh Md Moin, Senta K. Georgia, Alexandra E. Butler, Sangeeta Dhawan

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Figure 2

NPY expression declines in postnatal β cell maturation.

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NPY expression declines in postnatal β cell maturation. (A) Immunostaini...
(A) Immunostaining of representative pancreatic sections from neonatal and adult mice (top) or humans (bottom) for NPY (red), Tuj1 or glucagon (Tuj1 or Glu; green), and insulin (Ins; cyan), with nuclei labeled by DAPI in blue. Neonatal mouse (P5), adult mouse (2 months), neonatal human (6 weeks; Mayo repository), adult human (6004, nPOD) samples are presented. (B) Representative pancreatic sections from Ngn3-Cre:Rosa26 mTmG (top) or RIP-Cre:Rosa26 YFP (bottom) mice at P5 (neonatal) and 2 months (adult) of age, stained for NPY (red) and YFP (green), overlaid with DAPI in blue. (C) Quantification of NPY expression in β cells shown as a percentage of β cells expressing NPY at different postnatal stages, namely P0, P7, P14, P21, and P30. P values shown mark the statistical significance of each sample compared with P0. (D) Immunostaining for insulin (green) and NPY (red) in neonatal human pancreatic section (6 weeks; Mayo repository), along with an image at higher magnification (original magnification, ×2.5). Scale bar: 50 μm. For A and B, n = 4 animals; for C, n = 5 animals. Error bars represent SEM of the mean. **P < 0.01, ***P < 0.005, 1-way ANOVA followed by Fisher’s LSD post-hoc test.