Mechanisms Establishing TLR4-Responsive Activation States of Inflammatory Response Genes

Laure Escoubet-Lozach,Sven Heinz,Colleen Ludka,Shankar Subramaniam,Serena Ghisletti,Gary Hardiman,Donna Reichart,Alexander Hoffmann,Christopher K Glass,Minna U Kaikkonen,Andrea Crotti,Michael G Rosenfeld,Jean Lozach,Christine S Cheng,Rosa Luna,Josh Stender,Roman Šášik ,Ivan García-Bassets ,Nathan Spann ,Chris Benner

doi:10.1371/journal.pgen.1002401

Abstract

Precise control of the innate immune response is required for resistance to microbial infections and maintenance of normal tissue homeostasis. Because this response involves coordinate regulation of hundreds of genes, it provides a powerful biological system to elucidate the molecular strategies that underlie signal- and time-dependent transitions of gene expression. Comprehensive genome-wide analysis of the epigenetic and transcription status of the TLR4-induced transcriptional program in macrophages suggests that Toll-like receptor 4 (TLR4)-dependent activation of nearly all immediate/early- (I/E) and late-response genes results from a sequential process in which signal-independent factors initially establish basal levels of gene expression that are then amplified by signal-dependent transcription factors. Promoters of I/E genes are distinguished from those of late genes by encoding a distinct set of signal-dependent transcription factor elements, including TATA boxes, which lead to preferential binding of TBP and basal enrichment for RNA polymerase II immediately downstream of transcriptional start sites. Global nuclear run-on (GRO) sequencing and total RNA sequencing further indicates that TLR4 signaling markedly increases the overall rates of both transcriptional initiation and the efficiency of transcriptional elongation of nearly all I/E genes, while RNA splicing is largely unaffected. Collectively, these findings reveal broadly utilized mechanisms underlying temporally distinct patterns of TLR4-dependent gene activation required for homeostasis and effective immune responses.

Highlights

Precise control of gene expression in response to external cues is essential for normal development, homeostasis and immunity
We provide evidence that basal expression of I/E and late genes is initially established by signal-independent transcription factors, exemplified by PU.1, that we suggest are involved in the initial recruitment of histone-modifying machinery
The present studies indicate that most immediate/early and late Toll-like receptor 4 (TLR4)-responsive promoters direct expression of measurable levels of mature mRNA transcripts under basal conditions and exhibit basal patterns of histone modifications (H3K4me3, H3K9/ 14ac and H4K5/8/12ac) that are associated with actively transcribed genes

Summary

Introduction

Precise control of gene expression in response to external cues is essential for normal development, homeostasis and immunity. TLR4 signaling in macrophages activates hundreds of genes that contribute to anti-microbial activity and initiate secondary inflammatory signaling pathways that amplify acute inflammatory responses and contribute to the development of acquired immunity. TLR4 regulates gene expression of numerous transcription factors that drive inflammatory responses, including NF-kB, AP-1 and interferon regulatory factors (IRFs) [2,3]. These factors function in a combinatorial manner to activate so-called immediate-early (I/E) genes in a protein synthesis-independent manner. The production of type I interferons leads to secondary activation of late genes containing gamma-activated sites (GAS elements) recognized by STAT1 homodimers and genes containing interferon-stimulated response elements (ISREs) recognized by

Author Summary

Results

Discussion

Materials and Methods