Hydrokinetic pancreatic function and insulin secretion are moduled by Cl− uniporter Slc26a9 in mice

Hydrokinetic pancreatic function and insulin secretion are moduled by Cl− uniporter Slc26a9 in mice

Aim Slc26a9 is a member of the Slc26 multifunctional anion transporter family. Polymorphisms in Slc26a9 are associated with an increased incidence of meconium ileus and diabetes in cystic fibrosis patients. We investigated the expression of Slc26a9 in the murine pancreatic ducts, islets and parenchy...

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Bibliographic Details
Published in:Acta Physiologica Vol. 234; no. 1; pp. e13729 - n/a
Main Authors: Li, T., Stefano, G., Raza, G. S., Sommerer, I., Riederer, B., Römermann, D., Tan, X., Tan, Q., Pallagi, P., Hollenbach, M., Herzig, K.‐H., Seidler, U.
Format: Journal Article
Language:English
Published: England Wiley Subscription Services, Inc 01-01-2022
Subjects:
Aged
Animals
anion channel
Antiporters - genetics
Antiporters - metabolism
Bicarbonates
Cell culture
Cystic fibrosis
Cystic Fibrosis Transmembrane Conductance Regulator - genetics
Cystic Fibrosis Transmembrane Conductance Regulator - metabolism
diabetes
Diabetes mellitus
electrolyte transport
Female
Gene expression
Glucose
Glucose tolerance
Humans
Insulin
Insulin resistance
Insulin Secretion
Male
Meconium
Mice
Pancreas
Pancreas - physiology
Parenchyma
Sex
Statistical analysis
Sulfate Transporters - genetics
Sulfate Transporters - metabolism
diabetes
anion channel
cystic fibrosis
pancreas
electrolyte transport
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Summary:Aim Slc26a9 is a member of the Slc26 multifunctional anion transporter family. Polymorphisms in Slc26a9 are associated with an increased incidence of meconium ileus and diabetes in cystic fibrosis patients. We investigated the expression of Slc26a9 in the murine pancreatic ducts, islets and parenchyma, and elucidated its role in pancreatic ductal electrolyte and fluid secretion and endocrine function. Methods Pancreatic Slc26a9 and CFTR mRNA expression, fluid and bicarbonate secretion were assessed in slc26a9−/− mice and their age‐ and sex‐matched wild‐type (wt) littermates. Glucose and insulin tolerance tests were performed. Results Compared with stomach, the mRNA expression of Slc26a9 was low in pancreatic parenchyma, 20‐fold higher in microdissected pancreatic ducts than parenchyma, and very low in islets. CFTR mRNA was ~10 fold higher than Slc26a9 mRNA expression in each pancreatic cell type. Significantly reduced pancreatic fluid secretory rates and impaired glucose tolerance were observed in female slc26a9−/− mice, whereas alterations in male mice did not reach statistical significance. No significant difference was observed in peripheral insulin resistance in slc26a9−/− compared to sex‐ and aged‐matched wt controls. In contrast, isolated slc26a9−/− islets in short term culture displayed no difference in insulin content, but a significantly reduced glucose‐stimulated insulin secretion compared to age‐ and sex‐matched wt islets, suggesting that the impaired glucose tolerance in the absence of Slc26a9 expression these is a pancreatic defect. Conclusions Deletion of Slc26a9 is associated with a reduction in pancreatic fluid secretion and impaired glucose tolerance in female mice. The results underline the importance of Slc26a9 in pancreatic physiology.
Bibliography:See editorial article: Eliasson E. 2022. One more piece in the pancreatic chloride puzzle. Acta Physiol (Oxf). e13737.
T. Li and G. di Stefano contributed equally and share first authorship.
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SourceType-Scholarly Journals-1
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ISSN:1748-1708
1748-1716
DOI:10.1111/apha.13729