Background Ethanol modulation of Central Amygdala (CeA) neurocircuitry plays a key role in the development of alcoholism via activation of the corticotropin releasing factor (CRF) receptor system. Previous work has predominantly focused on ethanol/CRF interactions on the CeA GABA circuitry; however our lab recently showed that CRF enhances CeA glutamatergic transmission. Therefore, this study sought to determine if ethanol modulates CeA glutamate transmission via activation of CRF signaling. Methods The effects of ethanol on spontaneous excitatory postsynaptic currents (sEPSCs) and basal resting membrane potentials were examined via standard electrophysiology methods in adult male C57BL/6J mice. Local ablation of CeA CRF neurons (CRFCeAhDTR) was achieved by targeting the human diphtheria toxin receptor (hDTR) to CeA CRF neurons with an adeno-associated virus. Ablation was quantified post-hoc with confocal microscopy. Genetic targeting of the diphtheria toxin active subunit to CRF neurons (CRFDTA mice) ablated CRF neurons throughout the CNS, as assessed by qRT-PCR quantification of CRF mRNA. Results Acute bath application of ethanol significantly increased sEPSC frequency in a concentration dependent manner in CeA neurons, and this effect was blocked by pretreatment of co-applied CRF receptor 1 and CRF receptor 2 antagonists. In experiments utilizing a CRF-tomato reporter mouse, ethanol did not significantly alter the basal membrane potential of CeA CRF neurons. The ability of ethanol to enhance CeA sEPSC frequency was not altered in CRFCeAhDTR mice despite a ~78% reduction in CeA CRF cell counts. The ability of ethanol to enhance CeA sEPSC frequency was also not altered in the CRFDTA mice despite a three-fold reduction in CRF mRNA levels. Conclusion These findings demonstrate that ethanol enhances spontaneous glutamatergic transmission in the CeA via a CRF receptor dependent mechanism. Surprisingly, our data suggest that this action may not require endogenous CRF.
Rationale and Objective We sought to examine the impact of differing cocaine administration schedules and dosing on the magnitude of cocaine conditioned place preference (CPP), extinction, and stress- and cocaine-induced reinstatement of CPP. Methods First, in C57Bl/6J mice, we investigated whether total cocaine administration or pattern of drug exposure could influence the magnitude of cocaine CPP by conditioning mice with a fixed-low dose (FL; 7.5 mg/kg; 30 mg/kg total), a fixed-high dose (FH; 16 mg/kg; 64 mg/kg total), or an ascending dosing schedule (Asc; 2, 4, 8, and 16 mg/kg; 30 mg/kg). Next, we investigated if cocaine or saline is more effective at extinguishing preference by reconditioning mice with either a descending dosing schedule (Desc; 8, 4, 2, and 1 mg/kg) or saline. Finally, we examined if prior conditioning and re-conditioning history alters stress (~2-3 minutes forced swim test) or cocaine (3.5 mg/kg)-induced and reinstatement. Results We replicated and extended findings by Itzhak and Anderson (2011) demonstrating Asc conditioning produces a greater CPP than either the FL or FH conditioning schedules. The magnitude of extinction expressed was similar in the Desc reconditioned and saline groups. Moreover, only the saline, and not the Desc reconditioned mice, showed stress and cocaine-induced reinstatement of CPP. Conclusions Our results suggest that the schedule of cocaine administration during conditioning and reconditioning can have a significant influence on the magnitude of CPP and extinction of preference, and the ability of cocaine or a stressor to reinstate CPP.
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