Functional Analysis of Interleukin 6 Response Elements (IL-6REs) on the Human γ-Fibrinogen Promoter: BINDING OF HEPATIC Stat3 CORRELATES NEGATIVELY WITH TRANSACTIVATION POTENTIAL OF TYPE II IL-6REs

Hai Ou Duan,Patricia J Simpson-Haidaris

doi:10.1074/jbc.m304210200

Hai Ou Duan, Patricia J Simpson-Haidaris

Open Access

https://doi.org/10.1074/jbc.m304210200

Copy DOI

Abstract

Several families of transcription factors play important roles in modulating liver-specific gene expression during an acute phase response (APR). Stat3/APR factor is the main transactivator of gene expression by the interleukin (IL)-6 family of cytokines signaling through gp130. During an APR, fibrinogen (FBG) genes are coordinately up-regulated by IL-6 and glucocorticoids. Except for rat gammaFBG, attempts to demonstrate direct binding of IL-6-activated Stat3 to FBG CTGGGAA promoter elements have not been successful. Herein we show the presence of three functional type II IL-6 response elements (IL-6REs) on the human gammaFBG promoter and that the magnitude of Stat3 binding to these elements correlates negatively with their functional activity in reporter gene assays. Stat3-specific binding to gammaFBG IL-6REs was confirmed by cross-competition with alpha2-macroglobulin IL-6RE and specific interactions with anti-Stat3 in electrophoretic mobility shift assays. All type II IL-6REs contributed to full promoter activity; however, transactivation from Site II at -306 to -301 was strongest. In contrast to a previous report, IL-6 failed to induce activation of serum amyloid A-activating factor-1/c-Myc-associated zinc finger protein (SAF-1/MAZ), and mutation of the SAF-1RE had little effect on IL-6 induction of gammaFBG promoter activity. In the absence of a functional glucocorticoid receptor response element, dexamethasone potentiated IL-6-induced gammaFBG promoter activity 2-fold, requiring promoter-proximal Site I and Site II; the promoter-distal Site III had no effect on dexamethasone potentiation of IL-6-induced promoter activity. Notably the propensity for Stat3 binding to human gammaFBG IL-6REs was low compared with Stat3 binding to the alpha2-macroglobulin IL-6RE. Together these data suggest that Stat3 transactivation via IL-6REs on FBG promoters likely involves participation of additional transcription factors and/or coactivators to achieve optimal coordinated up-regulation during an APR.

Highlights

Several families of transcription factors play important roles in modulating liver-specific gene expression during an acute phase response (APR)
4% promoter activity remained in response to IL-6 in pGL3-100 in which all putative IL-6-responsive elements were deleted. These results indicate that the three putative type II IL-6 response elements (IL-6REs) on the human ␥FBG 600-bp promoter show differing degrees of responsiveness to IL-6 induction; Site II plays the most significant role in IL-6-induced gene expression, which is consistent with previous data [13]
The results showed that the magnitude of luciferase activity promoted by each single or multiple site-deleted construct was responsive to increasing concentrations of IL-6; each IL-6RE on the ␥FBG promoter showed the same rank order of transactivation potential (Site II ϾϾ Site I Ͼ Site III) as determined by the data shown in Fig. 3B regardless of the IL-6 concentration

Summary

Introduction

Several families of transcription factors play important roles in modulating liver-specific gene expression during an acute phase response (APR). These results indicate that the three putative type II IL-6REs on the human ␥FBG 600-bp promoter show differing degrees of responsiveness to IL-6 induction; Site II plays the most significant role in IL-6-induced gene expression, which is consistent with previous data [13].

Results

Conclusion