Mouse genomic variation and its effect on phenotypes and gene regulation

We report genome sequences of 17 inbred strains of laboratory mice and identify almost ten times more variants than previously known. We use these genomes to explore the phylogenetic history of the laboratory mouse and to examine the functional consequences of allele-specific variation on transcript abundance, revealing that at least 12% of transcripts show a significant tissue-specific expression bias. By identifying candidate functional variants at 718 quantitative trait loci we show that the molecular nature of functional variants and their position relative to genes vary according to the effect size of the locus. These sequences provide a starting point for a new era in the functional analysis of a key model organism

Genetic variation in PCAF, a key mediator in epigenetics, is associated with reduced vascular morbidity and mortality: evidence for a new concept from three independent prospective studies

Aims This study was designed to investigate the counterbalancing influence of genetic variation in the promoter of the gene encoding P300/CBP associated factor (PCAF), a lysine acetyltransferase (KAT), on coronary heart disease (CHD) and mortality. Methods and results The association of genetic variation in the PCAF-gene with CHD, restenosis and mortality was investigated in three large cohorts. The results were combined to examine overall effects on CHD mortality and on restenosis risk. Compared with the homozygous -2481G allele in the PCAF promoter, a significant reduction in CHD mortality risk with the homozygous -2481C PCAF promoter allele was observed. A combined risk reduction for CHD death for the three studies was 21% (15-26%; p=8.13X10(-4)). In elderly patients (> 58 years) the effects were stronger. Furthermore, this PCAF allele was significantly associated with all-cause mortality (p=0.001). Functional analysis showed that nuclear factors interact in vitro with the oligonucleotides encompassing the -2481G/C polymorphism and that this interaction might be influenced by this polymorphism in the PCAF promoter. Moreover, modulation of PCAF gene expression was detectable upon cuff-placement in an animal model of reactive stenosis. Conclusion We showed in three large prospective studies that the -2481C allele in the PCAF promoter is associated with a significant survival advantage in elderly patients. Our observations promote the concept that epigenetic processes are under genetic control and that, other than environment, variation in genes encoding KATs may also determine susceptibility to CHD outcomes and mortalit

Csnk1e is a genetic regulator of sensitivity to psychostimulants and opioids

Csnk1e, the gene encoding casein kinase 1-epsilon, has been implicated in sensitivity to amphetamines. Additionally, a polymorphism in CSNK1E was associated with heroin addiction, suggesting that this gene may also affect opioid sensitivity. In this study, we first conducted genome-wide quantitative trait locus (QTL) mapping of methamphetamine (MA)-induced locomotor activity in C57BL/6J (B6) × DBA/2J (D2)-F(2) mice and a more highly recombinant F(8) advanced intercross line. We identified a QTL on chromosome 15 that contained Csnk1e (63–86 Mb; Csnk1e=79.25 Mb). We replicated this result and further narrowed the locus using B6.D2(Csnk1e) and D2.B6(Csnk1e) reciprocal congenic lines (78–86.8 and 78.7–81.6 Mb, respectively). This locus also affected sensitivity to the μ-opioid receptor agonist fentanyl. Next, we directly tested the hypothesis that Csnk1e is a genetic regulator of sensitivity to psychostimulants and opioids. Mice harboring a null allele of Csnk1e showed an increase in locomotor activity following MA administration. Consistent with this result, coadministration of a selective pharmacological inhibitor of Csnk1e (PF-4800567) increased the locomotor stimulant response to both MA and fentanyl. These results show that a narrow genetic locus that contains Csnk1e is associated with differences in sensitivity to MA and fentanyl. Furthermore, gene knockout and selective pharmacological inhibition of Csnk1e define its role as a negative regulator of sensitivity to psychostimulants and opioids