Cystic fibrosis–related diabetes is caused by islet loss and inflammation
Nathaniel J. Hart, Radhika Aramandla, Gregory Poffenberger, Cody Fayolle, Ariel H. Thames, Austin Bautista, Aliya F. Spigelman, Jenny Aurielle B. Babon, Megan E. DeNicola, Prasanna K. Dadi, William S. Bush, Appakalai N. Balamurugan, Marcela Brissova, Chunhua Dai, Nripesh Prasad, Rita Bottino, David A. Jacobson, Mitchell L. Drumm, Sally C. Kent, Patrick E. MacDonald, Alvin C. Powers
Nathaniel J. Hart, Radhika Aramandla, Gregory Poffenberger, Cody Fayolle, Ariel H. Thames, Austin Bautista, Aliya F. Spigelman, Jenny Aurielle B. Babon, Megan E. DeNicola, Prasanna K. Dadi, William S. Bush, Appakalai N. Balamurugan, Marcela Brissova, Chunhua Dai, Nripesh Prasad, Rita Bottino, David A. Jacobson, Mitchell L. Drumm, Sally C. Kent, Patrick E. MacDonald, Alvin C. Powers
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Research Article Cell biology Endocrinology

Cystic fibrosis–related diabetes is caused by islet loss and inflammation

Abstract

Cystic fibrosis–related (CF-related) diabetes (CFRD) is an increasingly common and devastating comorbidity of CF, affecting approximately 35% of adults with CF. However, the underlying causes of CFRD are unclear. Here, we examined cystic fibrosis transmembrane conductance regulator (CFTR) islet expression and whether the CFTR participates in islet endocrine cell function using murine models of β cell CFTR deletion and normal and CF human pancreas and islets. Specific deletion of CFTR from murine β cells did not affect β cell function. In human islets, CFTR mRNA was minimally expressed, and CFTR protein and electrical activity were not detected. Isolated CF/CFRD islets demonstrated appropriate insulin and glucagon secretion, with few changes in key islet-regulatory transcripts. Furthermore, approximately 65% of β cell area was lost in CF donors, compounded by pancreatic remodeling and immune infiltration of the islet. These results indicate that CFRD is caused by β cell loss and intraislet inflammation in the setting of a complex pleiotropic disease and not by intrinsic islet dysfunction from CFTR mutation.

Authors

Nathaniel J. Hart, Radhika Aramandla, Gregory Poffenberger, Cody Fayolle, Ariel H. Thames, Austin Bautista, Aliya F. Spigelman, Jenny Aurielle B. Babon, Megan E. DeNicola, Prasanna K. Dadi, William S. Bush, Appakalai N. Balamurugan, Marcela Brissova, Chunhua Dai, Nripesh Prasad, Rita Bottino, David A. Jacobson, Mitchell L. Drumm, Sally C. Kent, Patrick E. MacDonald, Alvin C. Powers

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Figure 4

CF pancreata were severely remodeled, with ectopic adipose and fibrotic tissue deposition accompanied by β cell loss.

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CF pancreata were severely remodeled, with ectopic adipose and fibrotic ...
Characteristic CF-related pancreatic pathology observed in (A) donor 1: islet aggregations (black arrowhead) with inter-islet fibrosis (blue arrowhead) and islets in adipose niches (yellow arrowhead). Pathology observed in (B) donor 2: ectopic adipose (white arrowhead) and fibrotic deposition (red arrowhead). (C) Pathology observed in donor 3: formation of fibrotic cyst-like structures with embedded dilated duct-like structures (red arrowhead) and islets in fibrotic niches (black arrowhead). The pancreata from all donors lacked discernible exocrine tissue. Scale bars: 500 μm. (D) β Cell area of CF donors (n = 7) compared with healthy pancreatic donors (n = 7). Examples of abnormal islet morphology: (E, donor 1) islet aggregations and (F, donor 2) scattering of islet cells and dilated structures within and around islets. Scale bars: 100 μm. (G) Percentage of β, α, and δ cells relative to all β, α, and δ cells in the CF pancreas (n = 7) compared with healthy donors (n = 5). Additional islet abnormalities observed in a subset of CF pancreata in (H) donor 6: β cell apoptosis (scale bar: 100 μm; 20 μm [insets]) quantified in Supplemental Figure 7 and (I) intraislet amyloid, as detected by Thioflavin S in 2 of 7 donors (scale bar: 100 μm; 15 μm [insets]). Data represent mean ± SEM. Statistical significance (P < 0.05) was observed in β cell area and α cell ratio where noted by the asterisk. Unpaired 2-tailed Student’s t test was used for statistical analysis. The squares and dots represent individual donors and are color coded according to CF donor (Table 1).