Abstract
Catechol-O-methyltransferase (COMT) modulates dopamine levels in the prefrontal cortex. The human gene contains a polymorphism (Val158Met) that alters enzyme activity and influences PFC function. It has also been linked with cognition and anxiety, but the findings are mixed. We therefore developed a novel mouse model of altered COMT activity. The human Met allele was introduced into the native mouse COMT gene to produce COMT-Met mice, which were compared with their wild-type littermates. The model proved highly specific: COMT-Met mice had reductions in COMT abundance and activity, compared with wild-type mice, explicitly in the absence of off-target changes in the expression of other genes. Despite robust alterations in dopamine metabolism, we found only subtle changes on certain cognitive tasks under baseline conditions (eg, increased spatial novelty preference in COMT-Met mice vs wild-type mice). However, genotype differences emerged after administration of the COMT inhibitor tolcapone: performance of wild-type mice, but not COMT-Met mice, was improved on the 5-choice serial reaction time task after tolcapone administration. There were no changes in anxiety-related behaviors in the tests that we used. Our findings are convergent with human studies of the Val158Met polymorphism, and suggest that COMT's effects are most prominent when the dopamine system is challenged. Finally, they demonstrate the importance of considering COMT genotype when examining the therapeutic potential of COMT inhibitors.
Highlights
Catechol-O-methyltransferase (COMT) metabolizes dopamine: genetic and pharmacological reductions in COMT activity increase prefrontal dopamine transmission (Kaenmaki et al, 2010; Lapish et al, 2009; Tunbridge et al, 2004; Yavich et al, 2007)
COMT activity and protein abundance was reduced in COMT-Met mice, compared with wild-type mice
In a highly specific mouse model of altered COMT activity, COMT genotype has little impact on memory and attentional performance at baseline, but that genotype differences emerge following administration of the brain-penetrant COMT inhibitor tolcapone
Summary
Catechol-O-methyltransferase (COMT) metabolizes dopamine: genetic and pharmacological reductions in COMT activity increase prefrontal dopamine transmission (Kaenmaki et al, 2010; Lapish et al, 2009; Tunbridge et al, 2004; Yavich et al, 2007). Findings from humans (Apud et al, 2007; Farrell et al, 2012; Giakoumaki et al, 2008) and mouse models (Risbrough et al, 2014) suggest that the impact of COMT inhibition depends on functional variation within the COMT gene, consistent with the proposed inverted-Ushaped relationship between dopamine signaling and. The impact of the Val158Met polymorphism (and, by extension, other functional genetic variation in COMT) may be modulated by environmental factors (Caspi et al, 2005; Ursini et al, 2011). Animal models are essential to assess the effects of COMT Val158Met under controlled genetic and environmental conditions
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