Abstract
Nucleotide-binding and oligomerization domain (NOD)-like receptors (NLRs), the first line of defense, are the cytosolic pattern recognition receptors (PRRs) that regulate the inflammatory activity in response to invading pathogens. NLRs are the members of AAA+ ATPase superfamily that comprises of N-terminal EBD(s), a centrally positioned NOD/NACHT and varying range of LRRs towards the C-terminal end. Due to the lack of structural data, the functional aspects of NLRP-signaling mechanism, which includes pathogen recognition, nucleotide-binding, and sensor-adaptor-effector interactions, are not fully understood. In this study, we implemented structural bioinformatics approaches including protein modeling, docking, and molecular dynamics simulations to explore the structural-dynamic features of ADP-/ATP-Mg2+ binding in NLRPNACHT models. Our results indicate a similar mode of ATP-Mg2+ binding in all NLRPNACHT models and the interacting residues are found consistent with reported mutagenesis data. Accompanied by the key amino acids (proposed to be crucial for ATP-Mg2+ coordination), we further have noticed that some additional conserved residues (including ‘Trp’ of the PhhCW motif, and ‘Phe’ and ‘Tyr’ of the GFxxxxRxxYF motif) are potentially interacting with ATP during dynamics; which require further experimentation for legitimacy. Overall, this study will help in understanding the ADP-/ATP-Mg2+ binding mechanisms in NLRPs in a broader perspective and the proposed ATP-binding pocket will aid in designing novel inhibitors for the regulation of inflammasome activity.
Highlights
Innate immunity constitutes the first line of defense against infectious pathogens
Domain analysis of NLRPs (1–14) revealed that most of the receptors are comprised of three functional domains; N-terminal PYrin Domain (PYD), central NACHT and variable numbers of Leucine-rich repeats (LRRs) at the C-terminal end
Like Nlrc4/OcNOD2, we found the second helical domain (HD2) in all NLRP proteins residing between winged helix domain (WHD) and LRR (Fig 1A)
Summary
Innate immunity constitutes the first line of defense against infectious pathogens It is governed by several sets of germ-line encoded receptors, known as pattern recognition receptors (PRRs). A total of 22 and 34 members of NLRs have been reported in human and mice, respectively These receptors are classified into five major sub-groups according to their amino-terminal domain distribution; NLRA (CIITA), NLRB (NAIP), NLRC (NLRC1-5), NLRP (NLRP1-14) and NLRX (NLRX1) [5]. Apart from their role in the host-defense mechanism, most of the NLRs regulate gametogenesis [6,7,8,9]
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