Species-specific roles for the MAFA and MAFB transcription factors in regulating islet β cell identity
Jeeyeon Cha, Xin Tong, Emily M. Walker, Tehila Dahan, Veronica A. Cochrane, Sudipta Ashe, Ronan Russell, Anna B. Osipovich, Alex M. Mawla, Min Guo, Jin-hua Liu, Zachary A. Loyd, Mark O. Huising, Mark A. Magnuson, Matthias Hebrok, Yuval Dor, Roland Stein
Jeeyeon Cha, Xin Tong, Emily M. Walker, Tehila Dahan, Veronica A. Cochrane, Sudipta Ashe, Ronan Russell, Anna B. Osipovich, Alex M. Mawla, Min Guo, Jin-hua Liu, Zachary A. Loyd, Mark O. Huising, Mark A. Magnuson, Matthias Hebrok, Yuval Dor, Roland Stein
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Research Article Cell biology Endocrinology

Species-specific roles for the MAFA and MAFB transcription factors in regulating islet β cell identity

Abstract

Type 2 diabetes (T2D) is associated with compromised identity of insulin-producing pancreatic islet β cells, characterized by inappropriate production of other islet cell–enriched hormones. Here, we examined how hormone misexpression was influenced by the MAFA and MAFB transcription factors, closely related proteins that maintain islet cell function. Mice specifically lacking MafA in β cells demonstrated broad, population-wide changes in hormone gene expression with an overall gene signature closely resembling islet gastrin+ (Gast+) cells generated under conditions of chronic hyperglycemia and obesity. A human β cell line deficient in MAFB, but not one lacking MAFA, also produced a GAST+ gene expression pattern. In addition, GAST was detected in human T2D β cells with low levels of MAFB. Moreover, evidence is provided that human MAFB can directly repress GAST gene transcription. These results support a potentially novel, species-specific role for MafA and MAFB in maintaining adult mouse and human β cell identity, respectively. Here, we discuss the possibility that induction of Gast/GAST and other non–β cell hormones, by reduction in the levels of these transcription factors, represents a dysfunctional β cell signature.

Authors

Jeeyeon Cha, Xin Tong, Emily M. Walker, Tehila Dahan, Veronica A. Cochrane, Sudipta Ashe, Ronan Russell, Anna B. Osipovich, Alex M. Mawla, Min Guo, Jin-hua Liu, Zachary A. Loyd, Mark O. Huising, Mark A. Magnuson, Matthias Hebrok, Yuval Dor, Roland Stein

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Figure 3

MAFBKD, but not MAFAKD, induces non–β cell hormone expression in human β cells.

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MAFBKD, but not MAFAKD, induces non–β cell hormone expression in human β...
(AD) Analysis of MAFA/B protein (A and C) and hormone-related mRNA levels (B and D) in shControl (scrambled construct), shMAFA-, or shMAFB-treated EndoC-βH2 (i.e., only MAFB+) (A) and EndoC-βH1 (i.e., MAFA+MAFB+) cells (C). β-Actin served as the internal control and expression was normalized to shControl levels. MAFA knockdown in shMAFA-treated cells was reduced by ~55% of the control level, and shMAFB-treated cells decreased by ~71%. Data are shown as mean ± SEM. *P < 0.05, **P < 0.005 by Student’s t test in B. *P < 0.05 by 2-way ANOVA in D. n = 2–3 replicates/experiment, and experiments were repeated 4 times. (E) Immunostaining for SST (white) and GAST (green) in MAFBKD EndoC-βH2 cells. These proteins were undetectable in shControl-treated cells. Magnification, 20×. Left: Green arrows denote GAST+ SST cells, while red arrows denote GAST+ SST+ cells. Right: Quantification of hormone+ cells shown in MAFBKD EndoC-βH2 cells relative to the total β cell number compared with shControl. Data are shown as mean ± SEM. n = 2–3 replicates/experiment, and experiments were repeated 4 times.