Anxiety and Startle Phenotypes in and Mouse Mutants.

A GWAS study recently demonstrated single nucleotide polymorphisms (SNPs) in the human gene of individuals with a prevalence for agoraphobia. encodes the glycine receptor (GlyRs) β subunit. The identified SNPs are localized within the gene flanking regions (3' and 5' UTRs) and intronic regions. It was suggested that these nucleotide polymorphisms modify GlyRs expression and phenotypic behavior in humans contributing to an anxiety phenotype as a mild form of hyperekplexia. Hyperekplexia is a human neuromotor disorder with massive startle phenotypes due to mutations in genes encoding GlyRs subunits. mutations have been more commonly observed than mutations. If an anxiety phenotype contributes to the hyperekplexia disease pattern has not been investigated yet. Here, we compared two mouse models harboring either a mutation in the murine or gene with regard to anxiety and startle phenotypes. Homozygous animals carrying a point mutation (alanine 52 to serine) displayed abnormally enhanced startle responses. Moreover, mice exhibited significant changes in fear-related behaviors (freezing, rearing and time spent on back) analyzed during the startle paradigm, even in a neutral context. mice exhibit reduced expression levels of the full-length GlyRs β subunit due to aberrant splicing of the gene. Heterozygous animals appear normal without an obvious behavioral phenotype and thus might reflect the human situation analyzed in the GWAS study on agoraphobia and startle. In contrast to mice, heterozygous animals revealed no startle phenotype in a neutral as well as a conditioning context. Other mechanisms such as a modulatory function of the GlyRs β subunit within glycinergic circuits in neuronal networks important for fear and fear-related behavior may exist. Possibly, in human additional changes in fear and fear-related circuits either due to gene-gene interactions e.g., with genes or epigenetic factors are necessary to create the agoraphobia and in particular the startle phenotype.