Thyroid hormone exhibits profound effects on neural progenitor turnover, survival, maturation, and differentiation during perinatal development. Studies over the past decade have revealed that thyroid hormone continues to retain an important influence on progenitors within the neurogenic niches of the adult mammalian brain. The focus of the current review is to critically examine and summarize the current state of understanding of the role of thyroid hormone in regulating adult neurogenesis within the major neurogenic niches of the subgranular zone in the hippocampus and the subventricular zone lining the lateral ventricles. We review in depth the studies that highlight a role for thyroid hormone, in particular the TRa1 receptor isoform, in regulating progenitor survival and commitment to a neuronal fate. We also discuss putative models for the mechanism of action of thyroid hormone/TRa1 on specific stages of subgranular zone and subventricular zone progenitor development, and highlight potential thyroid hormone responsive target genes that may contribute to the neurogenic effects of thyroid hormone. The effects of thyroid hormone on adult neurogenesis are discussed in the context of a potential role of these effects in the cognitive-and moodrelated consequences of thyroid hormone dysfunction. Finally, we detail hitherto unexplored aspects of the effects of thyroid hormone on adult neurogenesis that provide impetus for future studies to gain a deeper mechanistic insight into the neurogenic effects of thyroid hormone.
IntroductionRates of relapse to drug use during abstinence are among the highest for opioid use disorder (OUD). In preclinical studies, reinstatement to drug-seeking has been extensively studied as a model of relapse–but the work has been primarily in males. We asked whether biological sex contributes to behaviors comprising self-administration of the prescription opioid oxycodone in rats, and we calculated the relative contribution of these behavioral measures to reinstatement in male and female rats.Materials and methodsRats were trained to self-administer oxycodone (8 days, training phase), after which we examined oxycodone self-administration behaviors for an additional 14 days under three conditions in male and female rats: short access (ShA, 1 h/d), long access (LgA, 6 h/d), and saline self-administration. All rats were then tested for cue-induced reinstatement of drug-seeking after a 14-d forced abstinence period. We quantified the # of infusions, front-loading of drug intake, non-reinforced lever pressing, inter-infusion intervals, escalation of intake, and reinstatement responding on the active lever.ResultsBoth male and female rats in LgA and ShA conditions escalated oxycodone intake to a similar extent. However, males had higher levels of non-reinforced responding than females under LgA conditions, and females had greater levels of reinstatement responding than males. We then correlated each addiction-related measure listed above with reinstatement responding in males and females and ranked their respective relative contributions. Although the majority of behavioral measures associated with oxycodone self-administration did not show sex differences on their own, when analyzed together using partial least squares regression, their relative contributions to reinstatement were sex-dependent. Front-loading behavior was calculated to have the highest relative contribution to reinstatement in both sexes, with long and short inter-infusion intervals having the second greatest contribution in females and males, respectively.DiscussionOur results demonstrate sex differences in some oxycodone self-administration measures. More importantly, we demonstrate that a sex- dependent constellation of self-administration behaviors can predict the magnitude of reinstatement, which holds great promise for relapse prevention in people.
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