Abstract
The NF-κB transcriptional response is tightly regulated by a number of processes including the phosphorylation, ubiquitination, and subsequent proteasomal degradation of NF-κB subunits. The IκB family protein BCL-3 stabilizes a NF-κB p50 homodimer·DNA complex through inhibition of p50 ubiquitination. This complex inhibits the binding of the transcriptionally active NF-κB subunits p65 and c-Rel on the promoters of NF-κB target genes and functions to suppress inflammatory gene expression. We have previously shown that the direct interaction between p50 and BCL-3 is required for BCL-3-mediated inhibition of pro-inflammatory gene expression. In this study we have used immobilized peptide array technology to define regions of BCl-3 that mediate interaction with p50 homodimers. Our data show that BCL-3 makes extensive contacts with p50 homodimers and in particular with ankyrin repeats (ANK) 1, 6, and 7, and the N-terminal region of Bcl-3. Using these data we have designed a BCL-3 mimetic peptide based on a region of the ANK1 of BCL-3 that interacts with p50 and shares low sequence similarity with other IκB proteins. When fused to a cargo carrying peptide sequence this BCL-3-derived peptide, but not a mutated peptide, inhibited Toll-like receptor-induced cytokine expression in vitro. The BCL-3 mimetic peptide was also effective in preventing inflammation in vivo in the carrageenan-induced paw edema mouse model. This study demonstrates that therapeutic strategies aimed at mimicking the functional activity of BCL-3 may be effective in the treatment of inflammatory disease.
Highlights
BCL-3 is an essential negative regulator of inflammation
Using these data we have designed a BCL-3 mimetic peptide based on a region of the ANK1 of BCL-3 that interacts with p50 and shares low sequence similarity with other IB proteins
Analysis of BCL-3/p50 Binding by Peptide Array—Previous models of BCL-3 and p50 homodimer interaction have relied on the independently resolved crystal structures of BCL-3 and p50 homodimers [15, 20]
Summary
BCL-3 is an essential negative regulator of inflammation. Results: A peptide derived from the ankyrin repeat 1 domain of BCL-3 has anti-inflammatory properties. The IB family protein BCL-3 stabilizes a NF-B p50 homodimer1⁄7DNA complex through inhibition of p50 ubiquitination This complex inhibits the binding of the transcriptionally active NF-B subunits p65 and c-Rel on the promoters of NF-B target genes and functions to suppress inflammatory gene expression. More recently a number of studies have identified critical regulatory mechanisms in the nucleus that control NF-B transcriptional activity Most prominent among these is the regulation of. The IB protein BCL-3 inhibits the ubiquitination and subsequent proteasomal degradation of p50 homodimers to limit the expression of pro-inflammatory cytokines following activation of Toll-like receptors [8]. BCL3-stabilized p50 homodimers form a stable repressor complex at NF-B binding sites that competes with transcriptionally active NF-B dimers composed of p65 or c-Rel to inhibit target gene expression. Our study demonstrates that mimicking BCL-3 function may represent an effective strategy for the inhibition of inflammation
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