Figure 1. Park8 mice exhibited diminished IL-1β secretion in response to priming with lipopolysaccharide (LPS) followed by nigericin treatment. IL-1β levels were determined by ELISA. Normalized data are shown. Abbreviations: WT, wild-type; REF, homozygous reference mice; HET, heterozygous variant mice; VAR, homozygous variant mice. Mean (μ) and standard deviation (σ) are indicated.

The Park8 phenotype was identified among N-nitroso-N-ethylurea (ENU)-mutagenized G3 mice of the pedigree R5051, some of which showed  reduced secretion of the proinflammatory cytokine interleukin (IL)-1β in response to priming with lipopolysaccharide (LPS) followed by nigericin treatment compared to wild-type littermates (Figure 1).

Figure 2. Linkage mapping of the reduced IL-1β secretion after nigericin treatment using a dominant model of inheritance. Manhattan plot shows -log10 P values (Y-axis) plotted against the chromosome positions of 54 mutations (X-axis) identified in the G1 male of pedigree R5051. Normalized phenotype data are shown for single locus linkage analysis with consideration of G2 dam identity.  Horizontal pink and red lines represent thresholds of P = 0.05, and the threshold for P = 0.05 after applying Bonferroni correction, respectively.

Whole exome HiSeq sequencing of the G1 grandsire identified 54 mutations. The impaired inflammasome response was linked by continuous variable mapping to a mutation in Nlrp3: a G to C transversion at base pair 59,566,199 (v38) on chromosome 11, or base pair 24,631 in the GenBank genomic region NC_000077. Linkage was found with a dominant model of inheritance (P = 6.751 x 10^-8), wherein four variant homozygotes and 16 heterozygotes departed phenotypically from 15 homozygous reference mice (Figure 2).  

The mutation corresponds to residue 3,264 in the mRNA sequence NM_145827 within exon 10 of 10 total exons.

The mutated nucleotide is indicated in red.  The mutation results in an arginine to proline substitution at position 1,013 (R1013P) in the NLRP3 protein, and is strongly predicted by PolyPhen-2 to be benign (score = 0.195).

The Nlrp3 gene encodes a 1,033 amino acid protein that is a member of the nucleotide-binding and oligomerization domain (NOD)-like receptor (NLR) or CATERPILLER [for CARD, transcription enhancer, R(purine)-binding, pyrin, lots of leucine repeats] family [Figure 3; (1)]. NLRP3 has a pyrin domain (PYD) at the N-terminus (amino acids 1-91). NLRP3 has a C-terminal leucine-rich repeat (LRR) domain (amino acids 739-988), a central oligomerization NACHT usually with a C-terminal extension known as the NACHT associated domain (NAD) that together comprise a nucleotide-binding domain (NBD; amino acids 216-532), and an N-terminal effector domain. The N-terminus of NLRP3 contains a pyrin domain (PYD; amino acids 1-91). The Park8 mutation results in an arginine to proline substitution at position 1,013 (R1013P); Arg1013 is within an undefined region following the LRR domains.

For more information about Nlrp3, please see the record for ND1.

NLRP3 is able to oligomerize through its NBD domain and assemble into large caspase-1-activating multiprotein complexes termed inflammasomes upon the detection of pathogenic or other danger signals in the cytoplasm. A large variety of agents have been shown to activate the NLRP3 inflammasome, and NLRP3 plays an important role in the innate immune response. Mutations within the NBD have been shown to reduce ATP binding, as well as NLRP3 protein function including caspase-1 activation, IL-1β production, cell death, macromolecular complex formation, self-association, and association with apoptosis-associated speck-like protein (ASC). The phenotype of the Park8 mice suggests that the mutated protein, if expressed, is inactive or has reduced activity.  

PCR program

1) 94°C 2:00
2) 94°C 0:30
3) 55°C 0:30
4) 72°C 1:00
5) repeat steps (2-4) 40x
6) 72°C 10:00
7) 4°C hold

The following sequence of 400 nucleotides is amplified (chromosome 11, + strand):

1   tgcctagagc ttctcatggg gtaggcgagc ggggtgctga ggggagggtg accacgggac
61  aaaagtcaga gtttctctgg attaatttgc agttttctga agagtccaac tcaaagcttc
121 ttttctgtgt tcacaggttg ggtgaaatgt acttaaatcg tgaaacaaaa cgtgccttag
181 aagcgctcca ggaagaaaag cctgagctga ctatagtctt cgagatttcc tggtaggcgt
241 ggaagcagga ccaccaggtg cctcggtcct gccccaagtc ctgccccaag ccccagtgcg
301 cactgctctt cactgctatc aagccctcct tcaccatcag gatcacagcc gaggctcttc
361 tggtataggg tctggagcaa aggcttgtgt gggaccaaat 

Primer binding sites are underlined and the sequencing primers are highlighted; the mutated nucleotide is shown in red.

1. Ting, J. P., Lovering, R. C., Alnemri, E. S., Bertin, J., Boss, J. M., Davis, B. K., Flavell, R. A., Girardin, S. E., Godzik, A., Harton, J. A., Hoffman, H. M., Hugot, J. P., Inohara, N., Mackenzie, A., Maltais, L. J., Nunez, G., Ogura, Y., Otten, L. A., Philpott, D., Reed, J. C., Reith, W., Schreiber, S., Steimle, V., and Ward, P. A. (2008) The NLR Gene Family: A Standard Nomenclature. Immunity. 28, 285-287.