Here, we explore an alternative approach addressing all of the ab

Here, we explore an alternative approach addressing all of the above fundamental limitations, instead generating a panel of the first characterized and specific transgenic recombinase-driver rat lines, with regulatory information contained in 200–300 kb of DNA upstream and downstream of the target genes (an approach that has achieved considerable success in mice; Gong et al., 2007). In these rats, large amounts of regulatory information are packaged in bacterial artificial chromosomes (BACs), with packaging capability that can accommodate regulatory sequences dispersed

across large regions of the genome. We then apply these resources in combination with a panel of novel rat-specific optogenetic behavioral

approaches and spatially specific injection of Cre-dependent opsin-expressing viral vectors to explore Depsipeptide research buy the causal www.selleckchem.com/products/byl719.html relationship between DA neuron firing and positive reinforcement during optical intracranial self-stimulation (ICSS) in freely moving rats. Over the course of the last half-century, electrical ICSS has emerged as a powerful approach to identify brain areas that serve as positive reinforcement sites (Olds and Milner, 1954, Olds, 1963 and Corbett and Wise, 1980), and the bulk of the relevant experiments have been conducted in rats. An extensive literature suggests that DA neurons play an important role in electrical ICSS, as altering levels of DA or lesioning DA neurons dramatically affects ICSS thresholds (Fibiger et al., 1987, German and no Bowden, 1974, Fouriezos and Wise, 1976, Mogenson et al., 1979 and Wise

and Rompré, 1989) and effective sites for ICSS, including the medial forebrain bundle, closely parallel the anatomical location of DA neurons or their broad projections (Corbett and Wise, 1980). However, several studies have suggested that powerful ICSS sites may have a nondopaminergic component, or perhaps not even require DA neurons at all. Robust ICSS has been demonstrated behaviorally without metabolic activation of major dopaminergic projection targets (Gallistel et al., 1985), and rats with near-complete lesions of the DA system show reduced but still significant ICSS behavior (Fibiger et al., 1987). Additionally, the electrophysiological properties of axons thought to be necessary for sustaining ICSS were shown to be inconsistent with the conduction velocity of DA axons (Bielajew and Shizgal, 1986). Further, studies employing in vivo voltammetry during ICSS have found that DA release in the nucleus accumbens (NAc), a major efferent target of DA neurons, is only rarely observed in well-trained animals (Owesson-White et al., 2008 and Garris et al., 1999). Finally, a recent optogenetic study in mice found that DA neuron stimulation by itself was not sufficient for the acquisition of ICSS (Adamantidis et al., 2011).

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