Consistent with the hypothesis that higher levels of cholinergic

Consistent with the hypothesis that higher levels of cholinergic neuromodulatory activity reduce opportunity costs in rats performing an attention task, such levels were found to correlate with the degree of task compliance under taxing conditions (Passetti et al., 2000). Furthermore, this hypothesis also predicts the relatively poor

and fluctuating levels of attentional performance in rats exhibiting relatively low selleck compound levels of cholinergic neuromodulation during such performance (see Paolone et al., 2013). Likewise, this hypothesis predicts that humans who carry a minor allele of the choline transporter gene, which may limit the dynamic range of neuromodulatory cholinergic activation, self-report greater levels of distractibility in situations that readily allow for discontinuation Antiinfection Compound Library of performance and engagement on alternative behavioral

of cognitive activities (e.g. are easily distracted by a TV or radio playing in the next room). In contrast, such vulnerability to distraction may be more difficult to demonstrate in situations that demand high levels of attention but are relatively devoid of competitive alternatives (Berry et al., 2013). In other words, compared with humans expressing the wild-type gene for this transporter, the variant-expressing subjects, assuming that expression of this allele limits the capacity for cholinergic neurotransmission, may experience higher opportunity costs and assign relative greater utility to engaging in alternative mental or behavioral action. As discussed above, the results of our research cumulatively support the hypothesis that increases in cholinergic neuromodulation enhance prefrontal glutamatergic–cholinergic transient interactions (Fig. 1) and that stimulation of nAChRs

‘import’ the neuromodulatory impact on transients. Our studies on the beneficial effects of alpha4beta2* nAChR agonists on cholinergic transients and SAT performance demonstrated that such benefits are restricted to SAT performance Sinomenine that is burdened by the presence of a distractor. Furthermore, nAChR agonist-induced increase in hits was due primarily to an increase in hits on trials where a signal followed extended periods of nonsignal processing, that is, hits for which cholinergic transients are required (Howe et al., 2010). Thus, higher levels of cholinergic neuromodulation increase the probability for cholinergic transients and thus for incongruent hits. These considerations are consistent with the hypothesis that higher levels of cholinergic neuromodulatory activity lower opportunity costs in part by reducing detection uncertainty, thereby stabilising and restoring hit rates and thus performance outcome.

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