Sirtuin 1 is a Key Regulator of the Interleukin-12 P70/interleukin-23 Balance in Human Dendritic Cells

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2012 Aug 16

PMID 22893703

Citations 16

Authors

Yolanda Alvarez

Mario Rodriguez

Cristina Municio

Etzel Hugo

Sara Alonso

Nieves Ibarrola

Nieves Fernandez

Mariano Sanchez Crespo

Affiliations

Soon will be listed here.

Abstract

Stimulation of human dendritic cells with the fungal surrogate zymosan produces IL-23 and a low amount of IL-12 p70. Trans-repression of il12a transcription, which encodes IL-12 p35 chain, by proteins of the Notch family and lysine deacetylation reactions have been reported as the underlying mechanisms, but a number of questions remain to be addressed. Zymosan produced the location of sirtuin 1 (SIRT1) to the nucleus, enhanced its association with the il12a promoter, increased the nuclear concentration of the SIRT1 co-substrate NAD(+), and decreased chromatin accessibility in the nucleosome-1 of il12a, which contains a κB-site. The involvement of deacetylation reactions in the inhibition of il12a transcription was supported by the absence of Ac-Lys-14-histone H3 in dendritic cells treated with zymosan upon coimmunoprecipitation of transducin-like enhancer of split. In contrast, we did not obtain evidence of a possible effect of SIRT1 through the deacetylation of c-Rel, the central element of the NF-κB family involved in il12a regulation. These data indicate that an enhancement of SIRT1 activity in response to phagocytic stimuli may reduce the accessibility of c-Rel to the il12a promoter and its transcriptional activation, thus regulating the IL-12 p70/IL-23 balance and modulating the ongoing immune response.

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