Suppressive role of neddylation in dendritic cells during Mycobacterium tuberculosis infection.

Multiple strategies evolved by Mycobacterium tuberculosis (M. tb) have contributed to its successful prevalence. We previously identified specific genes in the cysteine protease and calcium-calmodulin pathways that regulated immune responses from dendritic cells (DCs). In this study we have characterized the role of neddylation in regulating various defense responses from DCs during mycobacterial infection. Neddylation is a process that is similar to ubiquitination. It however has its own enzyme machinery. It is coupled to ubiquitination and is important for maintaining cellular homeostasis. Here we show that stimulation of DCs with M. tb antigens Rv2463 and Rv3416 as well as infection with live M. tb modulates the expression levels of key proteins in the neddylation pathway. Further, stimulation with the two antigens promoted the association of NEDD8 with its target Cullin-1. The modulation in the expression levels of NEDD8 and SENtrin specific Protein 8 (SENP8) by the two antigens was in a calcium, MAPK and TLR dependent mechanism. Further, knockdown of specific genes of neddylation promoted the generation of oxidative burst, promoted phagolysosome fusion in mycobacteria infected DCs and induced higher expression of autophagy and apoptosis associated proteins in DCs. These results point toward a unique strategy employed by mycobacteria and its antigens towards immune suppression via modulating neddylation in DCs.