Inhibition of Notch activity promotes pancreatic cytokeratin 5-positive cell differentiation to beta cells and improves glucose homeostasis following acute pancreatitis.
Xiaoyi Zhang,Jing Tao,Jia Yu,Ning Hu,X. Zhang,Guirong Wang,Jiarui Feng,Xingcheng Xiong,Man Li,Dongqi Chai,Hanjun Li,Yuping Rong,Zhigang Tang,Weixing Wang,Zhiyong Peng,Qiao Shi +15 more
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In this paper, the authors examined whether Notch signaling inhibition could promote pancreatic Krt5+ cell differentiation into beta cells and improve glucose homeostasis following acute pancreatitis.Abstract:
Some individuals develop prediabetes and/or diabetes following acute pancreatitis (AP). AP-induced beta-cell injury and the limited regenerative capacity of beta cells might account for pancreatic endocrine insufficiency. Previously, we found that only a few pancreatic cytokeratin 5 positive (Krt5+) cells differentiated into beta cells in the murine AP model, which was insufficient to maintain glucose homeostasis. Notch signaling determines pancreatic progenitor differentiation in pancreas development. This study aimed to examine whether Notch signaling inhibition could promote pancreatic Krt5+ cell differentiation into beta cells and improve glucose homeostasis following AP. Pancreatic tissues from patients with acute necrotizing pancreatitis (ANP) were used to evaluate beta-cell injury, Krt5+ cell activation and differentiation, and Notch activity. The murine AP model was induced by cerulein, and the effect of Notch inhibition on Krt5+ cell differentiation was evaluated both in vivo and in vitro. The results demonstrated beta-cell loss in ANP patients and AP mice. Krt5+ cells were activated in ANP pancreases along with persistently elevated Notch activity, which resulted in the formation of massive duct-like structures. AP mice that received Notch inhibitor showed that impaired glucose tolerance was reversed 7 and 15 days following AP, and increased numbers of newborn small islets due to increased differentiation of Krt5+ cells to beta cells to some extent. In addition, Krt5+ cells isolated from AP mice showed increased differentiation to beta cells by Notch inhibition. Collectively, these findings suggest that beta-cell loss contributes to pancreatic endocrine insufficiency following AP, and inhibition of Notch activity promotes pancreatic Krt5+ cell differentiation to beta cells and improves glucose homeostasis. The findings from this study may shed light on the potential treatment of prediabetes/diabetes following AP.read more
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Notch signaling pathway: architecture, disease, and therapeutics
TL;DR: In this article , a review of the history, architecture, regulatory mechanisms, contributions to physiological development, related diseases, and therapeutic applications of the NOTCH pathway is presented. But, the authors emphasize that the outcomes of NOTCH signaling are changeable and highly dependent on context.
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A Novel Small Molecular Inhibitor of DNMT1 Enhances the Antitumor Effect of Radiofrequency Ablation in Lung Squamous Cell Carcinoma Cells
TL;DR: iDNMT-induced inhibition of DNMT-1 enhances miR-27-3p expression in LSCC to inhibit activation of the Notch pathway, suggesting that the combination of iDNMT and RFA may be a promising therapeutic strategy for LSCC.
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Evaluating the Immunopathogenesis of Diabetes After Acute Pancreatitis in the Diabetes RElated to Acute Pancreatitis and Its Mechanisms Study
TL;DR: The Diabetes RElated to Acute pancreatitis and its Mechanisms (DREAM) study is a multicenter clinical study designed to understand the frequency and phenotype of DM developing after AP as discussed by the authors .
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Inhibition of Notch activity suppresses hyperglycemia-augmented polarization of macrophages to the M1 phenotype and alleviates acute pancreatitis
Qiao Shi,Anne Montenach +1 more
TL;DR: In this article , the authors explored the relationship among hyperglycemia, macrophage polarization, and Notch signaling during acute pancreatitis and related mechanisms, and found that hyperglycemic conditions aggravated pancreatic injury, increased macrophages infiltration, and promoted macocyte polarization towards an M1 phenotype, and led to excessive up-regulation of Notch activity.
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Dysregulated insulin secretion is associated with pancreatic β‐cell hyperplasia and direct acinar‐β‐cell trans‐differentiation in partially eNOS‐deficient mice
Michela Novelli,Matilde Masini,Cecilia Vecoli,Stefania Moscato,Niccola Funel,Anna Pippa,Letizia Mattii,Chiara Ippolito,Daniela Campani,Danilo Neglia,Pellegrino Masiello +10 more
TL;DR: In inhibition of Notch‐1 signaling, likely due to a reduced NO availability, is proposed as a novel mechanism that could favor both β‐cell hyperplasia and acinar‐β‐cell transdifferentiation in eNOS‐deficient mice with impaired insulin response to a glucose load.
References
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Notch Signaling: Cell Fate Control and Signal Integration in Development
TL;DR: Notch signaling defines an evolutionarily ancient cell interaction mechanism, which plays a fundamental role in metazoan development, providing a general developmental tool to influence organ formation and morphogenesis.
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Notch signalling controls pancreatic cell differentiation
Åsa Apelqvist,Hao Li,Lukas Sommer,Paul Beatus,David J. Anderson,Tasuku Honjo,Martin Hrabě de Angelis,Urban Lendahl,Helena Edlund +8 more
TL;DR: Evidence is provided that ngn3 acts as pro-endocrine gene and that Notch signalling is critical for the decision between theendocrine and progenitor/exocrine fates in the developing pancreas.
Journal ArticleDOI
Control of endodermal endocrine development by Hes-1.
Jan Jensen,E E Pedersen,P Galante,Jacob Hald,R S Heller,Makoto Ishibashi,Ryoichiro Kageyama,François Guillemot,Palle Serup,Ole D. Madsen +9 more
TL;DR: It is shown that mice deficient in Hes1 (encoding Hes-1) display severe pancreatic hypoplasia caused by depletion of pancreatic epithelial precursors due to accelerated differentiation of post-mitotic endocrine cells expressing glucagon, and upregulation of several bHLH components is associated with precocious and excessive differentiation of multiple endocrine cell types in the developing stomach and gut, showing that Hes- 1 operates as a general negative regulator of endodermal endocrine differentiation.