Alexa K. Wade scite author profile

Edited by Joel M. Gottesfeld Diabetes is characterized by a loss of ␤-cell mass, and a greater understanding of the transcriptional mechanisms governing ␤-cell function is required for future therapies. Previously, we reported that a complex of the Islet-1 (Isl1) transcription factor and the co-regulator single-stranded DNA-binding protein 3 (SSBP3) regulates the genes necessary for ␤-cell function, but few proteins are known to interact with this complex in ␤-cells. To identify additional components, here we performed SSBP3 reverse-cross-linked immunoprecipitation (ReCLIP)-and MSbased experiments with mouse ␤-cell extracts and compared the results with those from our previous Isl1 ReCLIP study. Our analysis identified the E3 ubiquitin ligases ring finger protein 20 (RNF20) and RNF40, factors that in nonpancreatic cells regulate transcription through imparting monoubiquitin marks on histone H2B (H2Bub1), a precursor to histone H3 lysine 4 trimethylation (H3K4me3). We hypothesized that RNF20 and RNF40 regulate similar genes as those regulated by Isl1 and SSBP3 and are important for ␤-cell function. We observed that Rnf20 and Rnf40 depletion reduces ␤-cell H2Bub1 marks and uncovered several target genes, including glucose transporter 2 (Glut2), MAF BZIP transcription factor A (MafA), and uncoupling protein 2 (Ucp2). Strikingly, we also observed that Isl1 and SSBP3 depletion reduces H2Bub1 and H3K4me3 marks, suggesting that they have epigenetic roles. We noted that the RNF complex is required for glucose-stimulated insulin secretion and normal mitochondrial reactive oxygen species levels. These findings indicate that RNF20 and RNF40 regulate ␤-cell gene expression and insulin secretion and establish a link between Isl1 complexes and global cellular epigenetics.

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The islet-expressed Lhx1 transcription factor interacts with Islet-1 and contributes to glucose homeostasis

Bethea

Liu

Wade

et al. 2019

American Journal of Physiology-Endocrinology and Metabolism

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The LIM-homeodomain (LIM-HD) transcription factor Islet-1 (Isl1) interacts with the LIM domain-binding protein 1 (Ldb1) coregulator to control expression of key pancreatic β-cell genes. However, Ldb1 also has Isl1-independent effects, supporting that another LIM-HD factor interacts with Ldb1 to impact β-cell development and/or function. LIM homeobox 1 (Lhx1) is an Isl1-related LIM-HD transcription factor that appears to be expressed in the developing mouse pancreas and in adult islets. However, roles for this factor in the pancreas are unknown. This study aimed to determine Lhx1 interactions and elucidate gene regulatory and physiological roles in the pancreas. Co-immunoprecipitation using β-cell extracts demonstrated an interaction between Lhx1 and Isl1, and thus we hypothesized that Lhx1 and Isl1 regulate similar target genes. To test this, we employed siRNA-mediated Lhx1 knockdown in β-cell lines and discovered reduced Glp1R mRNA. Chromatin immunoprecipitation revealed Lhx1 occupancy at a domain also known to be occupied by Isl1 and Ldb1. Through development of a pancreas-wide knockout mouse model ( Lhx1∆Panc), we demonstrate that aged Lhx1∆Panc mice have elevated fasting blood glucose levels, altered intraperitoneal and oral glucose tolerance, and significantly upregulated glucagon, somatostatin, pancreatic polypeptide, MafB, and Arx islet mRNAs. Additionally, Lhx1∆Panc mice exhibit significantly reduced Glp1R, an mRNA encoding the insulinotropic receptor for glucagon-like peptide 1 along with a concomitant dampened Glp1 response and mild glucose intolerance in mice challenged with oral glucose. These data are the first to reveal that the Lhx1 transcription factor contributes to normal glucose homeostasis and Glp1 responses.

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Loss of skeletal muscle estrogen-related receptors leads to severe exercise intolerance

Wattez¹,

Eury²,

Hazen³

et al. 2023

Molecular Metabolism

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The Ldb1 transcriptional co‐regulator is required for establishment and maintenance of the pancreatic endocrine lineage

et al. 2022

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Pancreatic islet cell development is regulated by transcription factors (TFs) that mediate embryonic progenitor differentiation toward mature endocrine cells. Prior studies from our lab and others showed that the islet‐enriched TF, Islet‐1 (Isl1), interacts with the broadly‐expressed transcriptional co‐regulator, Ldb1, to regulate islet cell maturation and postnhyperatal function (by embryonic day (E)18.5). However, Ldb1 is expressed in the developing pancreas prior to Isl1 expression, notably in multipotent progenitor cells (MPCs) marked by Pdx1 and endocrine progenitors (EPs) expressing Neurogenin‐3 (Ngn3). MPCs give rise to the endocrine and exocrine pancreas, while Ngn3+ EPs specify pancreatic islet endocrine cells. We hypothesized that Ldb1 is required for progenitor identity in MPC and EP populations during development to impact islet appearance and function. To test this, we generated a whole‐pancreas Ldb1 knockout, termed Ldb1ΔPanc, and observed severe developmental and postnatal pancreas defects including disorganized progenitor pools, a significant reduction of Ngn3‐expressing EPs, Pdx1HI β‐cells, and early hormone+ cells. Ldb1ΔPanc neonates presented with severe hyperglycemia, hypoinsulinemia, and drastically reduced hormone expression in islets, yet no change in total pancreas mass. This supports the endocrine‐specific actions of Ldb1. Considering this, we also developed an endocrine‐enriched model of Ldb1 loss, termed Ldb1ΔEndo. We observed similar dysglycemia in this model, as well as a loss of islet identity markers. Through in vitro and in vivo chromatin immunoprecipitation experiments, we found that Ldb1 occupies key Pdx1 and Ngn3 promoter domains. Our findings provide insight into novel regulation of endocrine cell differentiation that may be vital toward improving cell‐based diabetes therapies.

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Alexa K. Wade

LIM-domain transcription complexes interact with ring-finger ubiquitin ligases and thereby impact islet β-cell function

The islet-expressed Lhx1 transcription factor interacts with Islet-1 and contributes to glucose homeostasis

Loss of skeletal muscle estrogen-related receptors leads to severe exercise intolerance

The Ldb1 transcriptional co‐regulator is required for establishment and maintenance of the pancreatic endocrine lineage

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