Names as CATERPILLER, NOD, NALP, PAN, NACHT, PYPAF were used to describe the NLRs family. The nomenclature was unified by the HUGO Gene Nomenclature Committee in 2008. The family was characterized as NLRs to provide description of the families features – NLR means nucleotide-binding domain and leucine-rich repeat containing gene family. This system divides NLRs into 4 subfamilies based on the type of N-terminal domain:
There is also an additional subfamily NLRX which doesn’t have significant homology to any N-terminal domain. A member of this subfamily is NLRX1. On the other hand, NLRs can be divided into 3 subfamilies with regard to their phylogenetic relationships:
NODs subfamily consists of NOD1, NOD2, NOD3, NOD4 with CARD domain, CIITA containing acidic transactivator domain and NOD5 without any N-terminal domain.
Signalling
The well-described receptors are NOD1 and NOD2. The recognition of their ligands recruits oligomerization of NACHT domain and CARD-CARD interaction with CARD-containing serine-threonin kinase RIP2 which leads to activation of RIP2. RIP2 mediates the recruitment of kinase TAK1 which phosphorylates and activates IκB kinase. The activation of IκB kinase results in the phosphorylation of inhibitor IκB which releases NF-κB and its nuclear translocation. NF-κB then activates expression of inflammatory cytokines. Mutations in NOD2 are associated with Crohn's disease or Blau syndrome.
NLRPs subfamily contains NLRP1-NLRP14 that are characterized by the presence of PYD domain. IPAF subfamily has two members – IPAF with CARD domain and NAIP with BIR domain.
Signalization
NLRPs and IPAF subfamilies are involved in the formation of the inflammasome. The best characterized inflammasome is NLRP3, the activation through PAMPs or DAMPs leads to the oligomerization. The pyrin domain of NLRs binds to an adaptor protein ASC via PYD-PYD interaction. ASC contains PYD and CARD domain and links the NLRs to inactive form of caspase 1 through the CARD domain. All these protein-protein interaction form a complex called the inflammasome. The aggregation of the pro-caspase-1 causes the autocleavage and formation of an active enzyme. Caspase-1 is important for the proteolytic processing of the pro-inflammatory cytokines IL-1β and IL-18. NLRP3 mutations are responsible for the autoinflammatory diseasefamilial cold autoinflammatory syndrome or Muckle–Wells syndrome.
Ligands
There are three well-characterized inflammasomes – NLRP1, NLRP3 and IPAF. The formation of NLRP3 inflammasome can be activated by PAMPs such as microbial toxins or whole pathogens, for instance Candida albicans, Saccharomyces cerevisiae, Sendai virus, Influenza. NLRP3 recognize also DAMPs which indicate stress in the cell. The danger molecule can be extracellular ATP, extracellular glucose, crystals of monosodium urate, calcium pyrophosphate dihydrate, alum, cholesterol or environmental irritants – silica, asbestos, UV irradiation and skin irritants. The presence of these molecules causes a production of ROS and K+ efflux. NLRP1 recognizes lethal toxin from Bacillus anthracis and muramyl dipeptide. IPAF senses flagellin from Salmonella typhimurium, Pseudomonas aeruginosa, Listeria monocytogenes.