Species-specific roles for the MAFA and MAFB transcription factors in regulating islet β cell identity
Jeeyeon Cha, … , Yuval Dor, Roland Stein
Jeeyeon Cha, … , Yuval Dor, Roland Stein
Published August 22, 2023
Citation Information: JCI Insight. 2023;8(16):e166386. https://doi.org/10.1172/jci.insight.166386.
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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 2

Islet Gast+ cells produced in insulin-resistant mice share molecular signatures with the broader MafA∆β islet population.

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Islet Gast+ cells produced in insulin-resistant mice share molecular sig...
(A) Administration of the S961 insulin receptor antagonist for 4 days elevated random blood glucose levels in relation to PBS-treated control mice. Data are shown as mean ± SEM. n = 2–3 animals/group. *P < 0.05 by Student’s t test. (B) MafA (red) protein levels were markedly reduced in S961-treated mice. Insulin (white). n = 2–4 animals/group. Scale bar, 50 μm. (C) UMAP analyses of the single-cell RNA-Seq data in male S961-treated islets. Left panel: Cluster annotation shows that ~80% of islet cells were Insulin+ β cells (left, circled in red). Right panels: Gast+ cells (blue dots) were enriched in the β cell population. (D) Heatmap showing the 20 upregulated genes found in S961 Gast+ cells by single-cell RNA sequencing (Supplemental Table 1) were also elevated in male MafA∆β islets. MafA∆β β cell RNA-Seq were was used in this analysis. n = 3 animals/experimental group. (E) Heatmap showing limited overlap between the upregulated genes found in S961 Gast+ cells and other exocrine and islet cell types.