What about me…? The PVT: a role for the paraventricular thalamus (PVT) in drug-seeking behavior

The lack of effective pharmacotherapies to prevent relapse to drug taking emphasizes the importance of fully characterizing the brain pathways responsible for this behavior (Kalivas and McFarland, 2003). Recently, there have been attempts to more fully understand the brain circuitry responsible for drug-seeking behavior, beyond the well-characterized nodes such as the prefrontal cortex (PFC), nucleus accumbens (NAC), and ventral tegmental area (VTA). In this respect, the review of Martin-Fardon and Boutrel (2012) is important and timely and should serve to stimulate continued focus on the paraventricular thalamus (PVT) in the addiction field. Indeed, their review is an appropriate addition to the recent article “Emerging, re-emerging, and forgotten areas of the reward-circuit” (McGinty et al., 2011). The first purpose of this commentary is to reiterate this point, but to perhaps go one step further. Thus, in response to the authors’ first question (i.e., whether the PVT should be considered part of the drug-seeking circuitry), we argue that there is sufficient anatomical and functional evidence to support this suggestion. For example, the PVT sends glutamatergic projections to the NAC and PFC (Christie et al., 1987; Bubser and Deutch, 1998; Vertes and Hoover, 2008), and a large percentage of these projections are branched, suggesting that a single PVT neuron can influence these areas simultaneously (Otake and Nakamura, 1998). PVT neurons also project to medial, central, and basal nuclei of the amygdala as well as the bed nucleus of stria terminalis (Vertes and Hoover, 2008). Importantly, glutamatergic efferents from the PVT are closely apposed to dopamine fibers in the NAC shell (Pinto et al., 2003) and stimulation of the PVT produces an efflux of dopamine in this brain region (Jones et al., 1989; Parsons et al., 2007). Earlier, lesion and Fos-mapping studies were the first to implicate the PVT as a rewardresponsive site. For example, acute psychostimulant administration was found to activate the PVT (Deutch et al., 1998) and lesions of the PVT block the conditioned locomotor response to a cocainepaired environment (Young and Deutch, 1998). More recent studies have extended these initial findings. Work by McNally’s group, and ours, has demonstrated that lesions or chemical inactivation of the PVT suppresses drug-seeking behavior. For example, Hamlin et al. (2009) showed that lesions of the PVT prevent contextinduced reinstatement of alcohol-seeking and Marchant et al. (2010) showed that intra-PVT infusion of a κ-opioid receptor agonist also inhibits this behavior. Our group has also shown that inactivation of the PVT using TTX or intra-PVT injections of the inhibitory peptide cocaineand amphetamine-regulated transcript (CART) attenuates cocaine-primed reinstatement (James et al., 2010). This role likely extends to cue-induced cocaine-seeking, as the magnitude of reinstatement behavior is strongly correlated with Fos-activation in the PVT (Dayas et al., 2008; James et al., 2011a). Together, these data strongly support a functional role for the PVT in drug-seeking, however, it will be important for future studies to apply electrophysiological or optogenetic techniques to dissect the circuit-level changes involving PVT efferents onto reward-relevant brain regions (Cao et al., 2011). Designer receptors exclusively activated by designer drugs (DREADD) may also be useful in allowing for selective activation/inactivation of the PVT during reinstatement testing (Dong et al., 2010). The second question the authors’ raise in their review is whether orexin (hypocretin) input within the PVT modulates reinstatement behavior. We agree with the authors that there is strong anatomical evidence implicating the PVT as a site of integration for drug-related hypothalamic signaling. However, the answer to this question appears less straightforward than their more general question regarding the PVT, and we believe that this second issue requires further study—a point acknowledged by MartinFardon and Boutrel. The authors cite recent data from their laboratory supporting a role for PVT orexin in reinstatement behavior. PVT infusions of orexinA reinstated both extinguished cocaineand sweetened condensed milk-seeking (SCM) behavior. Interestingly, moderate