Human duct cells contribute to β cell compensation in insulin resistance
Ercument Dirice, … , Jiang Hu, Rohit N. Kulkarni
Ercument Dirice, … , Jiang Hu, Rohit N. Kulkarni
Published April 18, 2019
Citation Information: JCI Insight. 2019;4(8):e99576. https://doi.org/10.1172/jci.insight.99576.
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Research Article Cell biology Endocrinology

Human duct cells contribute to β cell compensation in insulin resistance

Abstract

The identification of new sources of β cells is an important endeavor with therapeutic implications for diabetes. Insulin resistance, in physiological states such as pregnancy or in pathological states such as type 2 diabetes (T2D), is characterized by a compensatory increase in β cell mass. To explore the existence of a dynamic β cell reserve, we superimposed pregnancy on the liver-specific insulin receptor–KO (LIRKO) model of insulin resistance that already exhibits β cell hyperplasia and used lineage tracing to track the source of new β cells. Although both control and LIRKO mice displayed increased β cell mass in response to the relative insulin resistance of pregnancy, the further increase in mass in the latter supported a dynamic source that could be traced to pancreatic ducts. Two observations support the translational significance of these findings. First, NOD/SCID-γ LIRKO mice that became pregnant following cotransplantation of human islets and human ducts under the kidney capsule showed enhanced β cell proliferation and an increase in ductal cells positive for transcription factors expressed during β cell development. Second, we identified duct cells positive for immature β cell markers in pancreas sections from pregnant humans and in individuals with T2D. Taken together, during increased insulin demand, ductal cells contribute to the compensatory β cell pool by differentiation/neogenesis.

Authors

Ercument Dirice, Dario F. De Jesus, Sevim Kahraman, Giorgio Basile, Raymond W.S. Ng, Abdelfattah El Ouaamari, Adrian Kee Keong Teo, Shweta Bhatt, Jiang Hu, Rohit N. Kulkarni

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Figure 4

β Cell proliferation is increased in response to pregnancy in human islets transplanted into NSG-LIRKO mice.

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β Cell proliferation is increased in response to pregnancy in human isle...
(A) Experimental strategy showing NSG mice crossed with LIRKO mice to generate NSG-Lox and NSG-LIRKO female mice, followed by transplantation of human islets (1,000 islet equivalents [IEQ]) under the kidney capsule. Ten days after transplantation, mice were rendered pregnant and then sacrificed at G15.5 following BrdU injection. Nonpregnant mice transplanted with human islets were used as controls. Tx, transplant. (B) Representative immunofluorescence images of kidney sections obtained from pregnant and nonpregnant NSG-Lox and NSG-LIRKO mice with human islet transplants. Sections were immunostained for insulin (shown in red), BrdU (shown in green, upper), Ki67 (shown in green, lower), and nuclear marker DAPI (shown in blue). Scale bar: 25 μm. (C) Quantification of proliferating β cells for BrdU and insulin (n = 4–5 mice per group, 1-way ANOVA) or (D) Ki67 and insulin (n = 4–5 mice per group, 1-way ANOVA) double-positive cells from human islet grafts from samples shown in B (for quantification, see Supplemental Table 3). Data are expressed as mean ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001.