Abstract
Protection or restoration of pancreatic β-cell mass as a therapeutic treatment for type 1 diabetes requires understanding of the mechanisms that drive the specification and development of pancreatic endocrine cells. Septins are filamentous small GTPases that function in the regulation of cell division, cytoskeletal organization and membrane remodeling, and are involved in various tissue-specific developmental processes. However, their role in pancreatic endocrine cell differentiation remains unknown. Here we show by functional manipulation techniques in transgenic zebrafish lines that suppression of sept7b, the zebrafish ortholog of human SEPT7, profoundly increases the number of endocrine progenitors but limits their differentiation, leading to reduction in β- and α-cell mass. Furthermore, we discovered that shh (sonic hedgehog) expression in the endoderm, essential for the development of pancreatic progenitors of the dorsal pancreatic bud, is absent in larvae depleted of sept7b. We also discovered that sept7b is important for the differentiation of ventral pancreatic bud-derived cells: sept7b-depleted larvae exhibit downregulation of Notch receptors notch1a and notch1b and show precocious differentiation of NeuroD-positive endocrine cells in the intrapancreatic duct and gut epithelium. Collectively, this study provides a novel insight into the development of pancreatic endocrine progenitors, revealing an essential role for sept7b in endocrine progenitor differentiation.
Highlights
Septin 7, is essential for zebrafish kidney function and development of left-right asymmetry due to its role in ciliogenesis[15]
Endocrine and exocrine compartments were visualised in the longitudinal section of a 4 days post fertilization zebrafish larvae stained with haematoxylin-eosin (Fig. 1A)
Double labelling of 4 dpf zebrafish larvae for insulin and septin 7 revealed that septin 7 is localized in the cytoplasm in both exocrine and endocrine cells (Fig. 1B)
Summary
Septin 7, is essential for zebrafish kidney function and development of left-right asymmetry due to its role in ciliogenesis[15]. We showed previously that septin 7 regulates glucose transporter trafficking in the kidney glomerular epithelial cells[13] It is not known whether septin 7 regulates glucose metabolism in vivo and plays a role in the development of pancreas. We elucidated the role of sept7b in the specification and differentiation of pancreatic progenitors during the development of pancreas using both transgenic reporter zebrafish models expressing pancreatic markers and wild type zebrafish. The data suggest that sept7b is required for both early pancreas development, correlating with downregulation of Shh signalling during development of the dorsal pancreatic bud, and the secondary endocrine differentiation, correlating with downregulation of Notch signalling, which is important in ductal cells derived from the ventral pancreatic bud
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