Neuropeptide Archives - World Asthma Foundation

A Single-Nucleotide Polymorphism of Human Neuropeptide S Gene Originated from Europe Shows Decreased Bioactivity.

PLoS One. 2013;8(12):e83009

Authors: Deng C, He X, Hsueh AJ

Abstract
Using accumulating SNP (Single-Nucleotide Polymorphism) data, we performed a genome-wide search for polypeptide hormone ligands showing changes in the mature regions to elucidate genotype/phenotype diversity among various human populations. Neuropeptide S (NPS), a brain peptide hormone highly conserved in vertebrates, has diverse physiological effects on anxiety, fear, hyperactivity, food intake, and sleeping time through its cognate receptor-NPSR. Here, we report a SNP rs4751440 (L(6)-NPS) causing non-synonymous substitution on the 6(th) position (V to L) of the NPS mature peptide region. L(6)-NPS has a higher allele frequency in Europeans than other populations and probably originated from European ancestors ?25,000 yrs ago based on haplotype analysis and Approximate Bayesian Computation. Functional analyses indicate that L(6)-NPS exhibits a significant lower bioactivity than the wild type NPS, with ?20-fold higher EC50 values in the stimulation of NPSR. Additional evolutionary and mutagenesis studies further demonstrate the importance of the valine residue in the 6(th) position for NPS functions. Given the known physiological roles of NPS receptor in inflammatory bowel diseases, asthma pathogenesis, macrophage immune responses, and brain functions, our study provides the basis to elucidate NPS evolution and signaling diversity among human populations.

PMID: 24386135 [PubMed – as supplied by publisher]

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Multiple Polymorphisms Affect Expression and Function of the Neuropeptide S Receptor (NPSR1).

PLoS One. 2011;6(12):e29523

Authors: Anedda F, Zucchelli M, Schepis D, Hellquist A, Corrado L, D’Alfonso S, Achour A, McInerney G, Bertorello A, Lördal M, Befrits R, Björk J, Bresso F, Törkvist L, Halfvarson J, Kere J, D’Amato M

Abstract
BACKGROUND: neuropeptide S (NPS) and its receptor NPSR1 act along the hypothalamic-pituitary-adrenal axis to modulate anxiety, fear responses, nociception and inflammation. The importance of the NPS-NPSR1 signaling pathway is highlighted by the observation that, in humans, NPSR1 polymorphism associates with asthma, inflammatory bowel disease, rheumatoid arthritis, panic disorders, and intermediate phenotypes of functional gastrointestinal disorders. Because of the genetic complexity at the NPSR1 locus, however, true causative variations remain to be identified, together with their specific effects on receptor expression or function. To gain insight into the mechanisms leading to NPSR1 disease-predisposing effects, we performed a thorough functional characterization of all NPSR1 promoter and coding SNPs commonly occurring in Caucasians (minor allele frequency >0.02).
PRINCIPAL FINDINGS: we identified one promoter SNP (rs2530547 [-103]) that significantly affects luciferase expression in gene reporter assays and NPSR1 mRNA levels in human leukocytes. We also detected quantitative differences in NPS-induced genome-wide transcriptional profiles and CRE-dependent luciferase activities associated with three NPSR1 non-synonymous SNPs (rs324981 [Ile107Asn], rs34705969 [Cys197Phe], rs727162 [Arg241Ser]), with a coding variant exhibiting a loss-of-function phenotype (197Phe). Potential mechanistic explanations were sought with molecular modelling and bioinformatics, and a pilot study of 2230 IBD cases and controls provided initial support to the hypothesis that different cis-combinations of these functional SNPs variably affect disease risk.
SIGNIFICANCE: these findings represent a first step to decipher NPSR1 locus complexity and its impact on several human conditions NPS antagonists have been recently described, and our results are of potential pharmacogenetic relevance.

PMID: 22216302 [PubMed – in process]

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