B lymphocytes protect islet β cells in diabetes-prone NOD mice treated with imatinib
Christopher S. Wilson, … , Roland W. Stein, Daniel J. Moore
Christopher S. Wilson, … , Roland W. Stein, Daniel J. Moore
Published April 9, 2019
Citation Information: JCI Insight. 2019;4(9):e125317. https://doi.org/10.1172/jci.insight.125317.
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Research Article Metabolism

B lymphocytes protect islet β cells in diabetes-prone NOD mice treated with imatinib

Abstract

Imatinib (Gleevec) reverses type 1 diabetes (T1D) in NOD mice and is currently in clinical trials in individuals with recent-onset disease. While research has demonstrated that imatinib protects islet β cells from the harmful effects of ER stress, the role the immune system plays in its reversal of T1D has been less well understood, and specific cellular immune targets have not been identified. In this study, we demonstrate that B lymphocytes, an immune subset that normally drives diabetes pathology, are unexpectedly required for reversal of hyperglycemia in NOD mice treated with imatinib. In the presence of B lymphocytes, reversal was linked to an increase in serum insulin concentration, but not an increase in islet β cell mass or proliferation. However, improved β cell function was reflected by a partial recovery of expression of the transcription factor MafA, a sensitive marker of islet β cell stress that is important for adult β cell function. Imatinib treatment was found to increase the antioxidant capacity of B lymphocytes, improving ROS handling in NOD islets. This study reveals a mechanism through which imatinib enables B lymphocytes to orchestrate functional recovery of T1D β cells.

Authors

Christopher S. Wilson, Jason M. Spaeth, Jay Karp, Blair T. Stocks, Emilee M. Hoopes, Roland W. Stein, Daniel J. Moore

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Figure 4

Imatinib therapy restores β cell function but not β cell mass in mice with B lymphocytes.

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Imatinib therapy restores β cell function but not β cell mass in mice wi...
(A) Pancreatic sections from WT, newly diabetic (2 consecutive blood glucose readings > 200 mg/dl), and imatinib-treated (Imatinib tx) mice with or without B lymphocytes (4 days after treatment initiated) were evaluated for β cell area and α cell area by staining with insulin- or glucagon-specific antibodies. (B and C) Neither β cell nor α cell area increased following imatinib treatment. n = 3 in each group; 2-way ANOVA followed by Šidák’s multiple-comparisons test. (D) Serum insulin levels were partially restored in NOD mice following imatinib treatment. **P = 0.0032, *P = 0.022, 2-way ANOVA followed by Šidák’s multiple-comparisons test. n = 3 control, n = 7 diabetic control, n = 5 imatinib + B lymphocytes, and n = 4 imatinib – B lymphocytes. (E) MafA and insulin staining of pancreatic sections reveals loss of MafA from insulin+ cells in newly diabetic mice. Only imatinib-treated mice with B lymphocytes restored MafA in insulin+ cells. (F) Quantification of MafA+insulin+ cells revealed partial recovery in imatinib-treated mice with B lymphocytes as compared to newly diabetic mice or imatinib-treated mice with no B lymphocytes. (****P < 0.0001; ***P < 0.0005, 2-way ANOVA followed by Šidák’s multiple-comparisons test. n = 3 in each group. Scale bars: 20 μm.