Abstract
Specific and coordinated regulation of innate immune receptor-driven signaling networks often determines the net outcome of the immune responses. Here, we investigated the cross-regulation of toll-like receptor (TLR)2 and nucleotide-binding oligomerization domain (NOD)2 pathways mediated by Ac2PIM, a tetra-acylated form of mycobacterial cell wall component and muramyl dipeptide (MDP), a peptidoglycan derivative respectively. While Ac2PIM treatment of macrophages compromised their ability to induce NOD2-dependent immunomodulators like cyclooxygenase (COX)-2, suppressor of cytokine signaling (SOCS)-3, and matrix metalloproteinase (MMP)-9, no change in the NOD2-responsive NO, TNF-α, VEGF-A, and IL-12 levels was observed. Further, genome-wide microRNA expression profiling identified Ac2PIM-responsive miR-150 and miR-143 to target NOD2 signaling adaptors, RIP2 and TAK1, respectively. Interestingly, Ac2PIM was found to activate the SRC-FAK-PYK2-CREB cascade via TLR2 to recruit CBP/P300 at the promoters of miR-150 and miR-143 and epigenetically induce their expression. Loss-of-function studies utilizing specific miRNA inhibitors establish that Ac2PIM, via the miRNAs, abrogate NOD2-induced PI3K-PKCδ-MAPK pathway to suppress β-catenin-mediated expression of COX-2, SOCS-3, and MMP-9. Our investigation has thus underscored the negative regulatory role of Ac2PIM-TLR2 signaling on NOD2 pathway which could broaden our understanding on vaccine potential or adjuvant utilities of Ac2PIM and/or MDP.
Highlights
Ac2PIM signals via TLR2 to direct both pro- and anti-inflammatory responses
We investigated the cross-regulation of toll-like receptor (TLR)2 and nucleotide-binding oligomerization domain (NOD)2 pathways mediated by Ac2PIM, a tetra-acylated form of mycobacterial cell wall component and muramyl dipeptide (MDP), a peptidoglycan derivative respectively
Deciphering the molecular mechanism, we found that Ac2PIM signals via the TLR2-SRC-focal adhesion kinase (FAK)-protein tyrosine kinase 2 (PYK2)-cAMP response element-binding protein (CREB) pathway to mediate the recruitment of a coactivator complex with intrinsic histone acetyltransferase (HAT) functions, CREB-binding protein (CBP)/P300 to the promoters of miR-150 and miR-143
Summary
Ac2PIM signals via TLR2 to direct both pro- and anti-inflammatory responses. Results: Ac2PIM induces miR-150/143 via SRC-FAK-PYK2-CREB-P300 signaling to target RIP2 and TAK1 and subdues MDPstimulated PI3K-PKC-MAPK--catenin axis. We investigated the cross-regulation of toll-like receptor (TLR) and nucleotide-binding oligomerization domain (NOD) pathways mediated by Ac2PIM, a tetra-acylated form of mycobacterial cell wall component and muramyl dipeptide (MDP), a peptidoglycan derivative respectively. Loss-of-function studies utilizing specific miRNA inhibitors establish that Ac2PIM, via the miRNAs, abrogate NOD2-induced PI3K-PKC␦-MAPK pathway to suppress -catenin-mediated expression of COX-2, SOCS-3, and MMP-9. We found that macrophages that were stimulated with Ac2PIM displayed marked reduction in its ability to express NOD2-responsive immunomodulators like COX-2, SOCS-3, and MMP-9 but not NO, TNF-␣, VEGF-A, or IL-12. This underscores the differential regulatory abilities of Ac2PIM-induced TLR2 pathway on NOD2 signaling. This study has generated avenues to evaluate the vaccine potential and adjuvant utilities of Ac2PIM and/or MDP
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