Distinct Functions of Dispersed GATA Factor Complexes at an Endogenous Gene Locus

Author:

Grass Jeffrey A.1,Jing Huie2,Kim Shin-Il1,Martowicz Melissa L.1,Pal Saumen1,Blobel Gerd A.2,Bresnick Emery H.1

Affiliation:

1. University of Wisconsin Medical School, Department of Pharmacology, 1300 University Avenue, Madison, Wisconsin 53706

2. The Children's Hospital of Pennsylvania, Division of Hematology, Philadelphia, Pennsylvania 19104

Abstract

ABSTRACT The reciprocal expression of GATA-1 and GATA-2 during hematopoiesis is an important determinant of red blood cell development. Whereas Gata2 is preferentially transcribed early in hematopoiesis, elevated GATA-1 levels result in GATA-1 occupancy at sites upstream of the Gata2 locus and transcriptional repression. GATA-2 occupies these sites in the transcriptionally active locus, suggesting that a “GATA switch” abrogates GATA-2-mediated positive autoregulation. Chromatin immunoprecipitation (ChIP) coupled with genomic microarray analysis and quantitative ChIP analysis with GATA-1-null cells expressing an estrogen receptor ligand binding domain fusion to GATA-1 revealed additional GATA switches 77 kb upstream of Gata2 and within intron 4 at +9.5 kb. Despite indistinguishable GATA-1 occupancy at −77 kb and +9.5 kb versus other GATA switch sites, GATA-1 functioned uniquely at the different regions. GATA-1 induced histone deacetylation at and near Gata2 but not at the −77 kb region. The −77 kb region, which was DNase I hypersensitive in both active and inactive states, conferred equivalent enhancer activities in GATA-1- and GATA-2-expressing cells. By contrast, the +9.5 kb region exhibited considerably stronger enhancer activity in GATA-2- than in GATA-1-expressing cells, and other GATA switch sites were active only in GATA-1- or GATA-2-expressing cells. Chromosome conformation capture analysis demonstrated higher-order interactions between the −77 kb region and Gata2 in the active and repressed states. These results indicate that dispersed GATA factor complexes function via long-range chromatin interactions and qualitatively distinct activities to regulate Gata2 transcription.

Publisher

American Society for Microbiology

Subject

Cell Biology,Molecular Biology

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