The Contribution of Pdx1-Bound Chromatin Remodelers in Controlling β-Cell Differentiation and Function

Davidson, Rebecca Kelly

12 1900

Indiana University-Purdue University Indianapolis (IUPUI) / Understanding β-cell development and function is essential for generating more effective treatment options for individuals with diabetes. A key player in pancreatogenesis, islet development, and mature β-cell function is the Pdx1 transcription factor (TF). Pdx1 activity is modulated through interactions with various coregulators, including the Swi/Snf chromatin remodeling and Nucleosome Remodeling and Deacetylase (NuRD) complexes. Loss of one Swi/Snf ATPase subunit, Brg1, in early pancreatogenesis reduces final pancreas mass, and β-cell-specific deletion of both subunits, Brg1 and Brm, leads to glucose intolerance and loss of insulin production in the β-cell. Here, we hypothesized Swi/Snf governs endocrine progenitor cell development and postnatal islet function. To test this, we generated conditional murine knockouts of Brg1 (Brg1Δendo;Brm+/-), Brm (Brg1Δendo/+;Brm-/-), or both subunits (DKOΔendo) during endocrine cell development. No DKOΔendo mice were recovered at weaning, and loss of Brg1 but not Brm led to severe glucose intolerance, ad-lib fed hyperglycemia, and reduced insulin levels by four weeks of age. Brg1Δendo;Brm+/- mice had fewer islets and compromised insulin secretion. Together, these data suggest that loss of Brg1 during endocrine cell development has negative impacts on postnatal islet function, with loss of both Brg1 and Brm being early postnatal lethal. Pdx1 has been shown to also interact with the Chd4 helicase subunit of the NuRD complex. Here, we demonstrate Pdx1:Chd4 interactions are increased under stimulatory conditions and hypothesize that Chd4 modulates expression of Pdx1-bound genes critical for β-cell function. To test this, we generated a tamoxifen inducible, β-cell-specific Chd4 knockout mouse model (Chd4Δβ). Four weeks following Chd4 removal, Chd4Δβ mutants were glucose intolerant with severe insulin secretion defects. Additionally, Chd4Δβ islets contained fewer mature insulin granules and secreted more proinsulin. RNA-sequencing from Chd4Δβ β-cells identified numerous upregulated (eg Hk2, Mycl) and downregulated genes (eg MafA, Chga, Chgb, Slc2a2). Through ATAC-sequencing, we discovered several differentially accessible genomic regions, including Chd4-bound and Pdx1-controlled MafA Region 3, which had reduced accessibility in Chd4Δβ β-cells. Lastly, we demonstrate that CHD4 impacts human β-cell function and PDX1:CHD4 interactions were reduced in human donor β-cells with type 2 diabetes, demonstrating loss of these interactions is a significant feature of diabetes pathogenesis.

Chd4

Swi/Snf

Beta cell

Coregulator

Diabetes

Transcription factor

REGULATION OF LUNG EPITHELIAL DIFFERENTIATION ALVEOLARIZATION AND GENE EXPRESSION BY GATA-6 <i>IN VITRO</i> AND <i>IN VIVO</i>

LIU, CONG

16 September 2002

No description available.

GATA-6

lung development

transcription factor

gene regulation

CRITICAL ROLES OF FORKHEAD BOX A2 DURING LUNG DEVELOPMENT

WAN, HUAJING

07 October 2004

No description available.

Lung

forkhead

winged helix

transcription factor

development

pulmonary epithelium

surfactant

REGULATION OF THE KLF2 TRANSCRIPTION FACTOR GENE IN ENDOTHELIAL CELLS BY FLUID SHEAR STRESS

HUDDLESON, JUSTIN PHILIP

03 April 2006

No description available.

Gene regulation

Transcription Factor

Shear Stress

Endothelial Cells

Discovery and Analysis of Genomic Patterns: Applications to Transcription Factor Binding and Genome Rearrangement

SINHA, AMIT U.

22 April 2008

No description available.

Bioinformatics

computational biology

bioinformatics

transcription factor

genome rearrangement

Reduced PU.1 concentrations lead to hematopoietic stem cell defects and lineage-inappropriate gene expression

Kamath, Meghana B.

17 April 2009

No description available.

Genetics

Immunology

Molecular Biology

PU.1

transcription factor

hematopoiesis

Transcription Factor Regulation of Olfactory Bulb Interneuron Heterogeneity

Allen, Zegary J.

09 August 2010

No description available.

Molecular Biology

Olfactory bulb

interneurons

brain

development

mouse

transcription factor

Elucidating transcription factor regulation by TCDD within the hs1,2 enhancer

Ochs, Sharon D.

13 April 2012

No description available.

Immunology

Toxicology

TCDD

hs1,2 enhancer

transcription factor binding sites

FUNCTIONAL CHARACTERIZATION OF FLP, A MYB TRANSCRIPTION FACTOR INVOLVED IN ARABIDOPSIS STOMATAL DEVELOPMENT

Xie, Zidian

24 September 2009

No description available.

Biology

Arabidopsis

stomata

cell division

transcription factor

MYB protein

Discovery of LEAFY Transcriptional Complex Components Necessary for Flower Formation in <i>Arabidopsis thaliana</i>

Siriwardana, Nirodhini Srimali

21 October 2011

No description available.

Molecular Biology

Plant Biology

LEAFY

LFY

Flowering

Transcription Factor