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Structural abnormalities in islets from very young children with cystic fibrosis may contribute to cystic fibrosis-related diabetes.

Citation
Bogdani, M., et al. “Structural Abnormalities In Islets From Very Young Children With Cystic Fibrosis May Contribute To Cystic Fibrosis-Related Diabetes.”. Scientific Reports, p. 17231.
Center Vanderbilt University University of Washington
Multicenter
Multicenter
Author Marika Bogdani, Scott M Blackman, Cecilia Ridaura, Jean-Pierre Bellocq, Alvin C Powers, Lydia Aguilar-Bryan
Abstract

Cystic fibrosis (CF)-related diabetes (CFRD) is thought to result from beta-cell injury due in part to pancreas exocrine damage and lipofibrosis. CFRD pancreata exhibit reduced islet density and altered cellular composition. To investigate a possible etiology, we tested the hypothesis that such changes are present in CF pancreata before the development of lipofibrosis. We evaluated pancreas and islet morphology in tissues from very young CF children (<4 years of age), and adult patients with CF and CFRD. The relative number of beta-cells in young CF tissues was reduced by 50% or more when compared to age-matched controls. Furthermore, young CF tissues displayed significantly smaller insulin-positive areas, lower proportion of beta-cells positive for the proliferation marker Ki67 or the ductal marker CK19 vs. control subjects, and islet inflammatory cell infiltrates, independently of the severity of the exocrine lesion and in the absence of amyloid deposits. CFRD pancreata exhibited greater islet injury with further reduction in islet density, decreased relative beta-cell number, and presence of amyloid deposits. Together, these results strongly suggest that an early deficiency in beta-cell number in infants with CF may contribute to the development of glucose intolerance in the CF pediatric population, and to CFRD, later in life.

Year of Publication
2017
Journal
Scientific reports
Volume
7
Issue
1
Number of Pages
17231
Date Published
12/2017
ISSN Number
2045-2322
DOI
10.1038/s41598-017-17404-z
Alternate Journal
Sci Rep
PMID
29222447
PMCID
PMC5722914
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