A Defect in Nucleosome Remodeling Prevents IL-12(p35) Gene Transcription in Neonatal Dendritic Cells

To gain insight into the inability of newborns to mount efficient Th1 responses, we analyzed the molecular basis of defective IL-12(p35) expression in human neonatal monocyte-derived dendritic cells (DCs). Determination of IL-12(p35) pre-mRNA levels by real-time RT-PCR revealed that transcriptional activation of the gene in lipopolysaccharide-stimulated neonatal DCs was strongly impaired compared with adult DCs. We next showed that p50/p65 and p65/p65 dimers interact with kB#1 site, a critical cis-acting element of the IL-12(p35) promoter. We found that LPS-induced p65 activation was similar in adult and newborn DCs. Likewise, in vitro binding activity to the Sp1#1 site, previously shown to be critical for IL-12(p35) gene activation, did not differ in adults and newborns. Since the accessibility to this Sp1#1 site was found to depend on nucleosome remodeling, we used a chromatin accessibility assay to compare remodeling of the relevant nucleosome (nuc-2) in adult and neonatal DCs. We observed that nuc-2 remodeling in neonatal DCs was profoundly impaired in response to lipopolysaccharide. Both nuc-2 remodeling and IL-12(p35) gene transcription were restored upon addition of recombinant interferon-γ. We conclude that IL-12(p35) transcriptional repression in neonatal DCs takes place at the chromatin level.

Human IL-12(p35) gene activation involves selective remodeling of a single nucleosome within a region of the promoter containing critical Sp1-binding sites

To get insight into the regulation of human interleukin-12 (IL-12) synthesis, we determined the chromatin organization of the IL-12(p35) promoter region. First, we determined positioning of nucleosomes within the IL-12(p35) promoter using the indirect end-labeling technique in the THP-1 monocytic cell line. On stimulation with bacterial lipopolysaccharide (LPS) and interferon-γ (IFN-γ), hypersensitivity to digestion with DNase I, micrococcal nuclease, and specific restriction enzymes was detected in the region encompassing nucleotide (nt) –310 to –160, indicating selective inducible chromatin remodeling involving disruption of a single nucleosome (named nuc-2). Using p35 promoter deletion mutants and reporter gene assays, we demonstrated that the –396/–241 region contained critical cis-acting elements. Within this latter region, we characterized physically and functionally 2 Sp1-binding sites, which were acting as key regulatory elements for both basal and LPS/IFN-γ–inducible p35 gene expression: Sp1#1 lies within the remodeled nuc-2 region and Sp1#2 is located in the nucleosome-free region immediately upstream of nuc-2. Finally, we extended the chromatin structure analysis to dendritic cells (DCs) derived from human monocytes and observed the same nucleosomal organization and remodeling as in the THP-1 cell line. Moreover, we found that in DCs, LPS and IFN-γ synergized in the induction of nucleosomal remodeling and that chromatin remodeling at the p35 locus immediately preceded IL-12(p35) mRNA synthesis. Taken together, our results demonstrate that IL-12(p35) gene activation in the course of DC maturation involves selective and rapid remodeling of a single positioned nucleosome within a region of the promoter containing critical Sp1-binding sites.