Reduced methamphetamine self-administration following single or dual hypocretin-receptor blockade or viral vector hypocretin-knockdown in adult male rats

Zarin, Tyler, Schmeichel, Brooke

25 April 2023

The hypocretin/orexin (HCRT) system is associated with compulsive stimulant drug use, involving both HCRT-receptor 1 (-R1) and HCRT-receptor 2 (-R2). Few studies, however, have examined the role of HCRT-R2 or combined HCRT-R1/2 on compulsive methamphetamine (METH) taking behavior. In this study, we examined the effects of HCRT-R1, -R2, and -R1/2 antagonists on compulsive METH self-administration, as modeled by escalated intake in adult male Wistar rats allowed extended access to METH. Three cohorts of rats were allowed either short (1h; ShA; n=7-10/cohort) or long (6h; LgA; n=7-9/cohort) access to METH intravenous self-administration for 14 sessions (fixed ratio 1 schedule). Each cohort was then systemically administered a single- or dual-HCRT-R antagonist 30 min prior to METH self-administration testing: cohort 1, selective HCRT-R1 antagonist (RTIOX-276; RTI-R1; 0, 10, and 20 mg/kg); cohort 2, selective HCRT-R2 antagonist (JNJ-10397049; JNJ-R2; 0, 10, and 20 mg/kg); and cohort 3, dual HCRT-R1/2 antagonist (Suvorexant; SUV-R1/2; 0, 30, and 60 mg/kg). RTI-R1 elicited a dose-dependent reduction in METH intake in LgA, but not ShA, in the first hour. Administration of JNJ-R2 had no effect on METH intake in the first hour in neither ShA nor LgA rats, but reduced METH intake during the full 6 h session at the lowest dose. SUV-R1/2 administration had no effect on METH intake in ShA rats, but showed significant attenuation of METH-taking at the highest dose in both the first hour and full 6h session for LgA rats. Locomotor activity was significantly reduced following RTI-R1 and SUV-R1/2 in ShA rats only. To further explore the role that HCRT plays in METH dependence after a period of abstinence, we used a shRNA-encoding adeno-associated viral vector (AAV) to silence Hcrt in a separate cohort of previously-escalated METH-dependent rats. Following an initial escalation phase, and prior to a 3-week period of drug abstinence, rats were injected with either a control scramble-RNA AAV (AAV-Scram; n= 4) or a Hcrt-knockdown AAV (AAV-HCRT-KD; n= 5). AAV-Scram rats showed a significant decrease in METH self-administration post-abstinence, and a subsequent increase in METH-taking following a re-escalation period. In contrast, AAV-HCRT-KD rats showed a significant attenuation of METH self-administration following the re-escalation period. Combined, these results suggest HCRT neurotransmission at both HCRT-R1 and -R2 may contribute to compulsive METH-taking behavior.

Drug Abuse

Methamphetamine

hypocretin/orexin

Adeno-associated virus

receptor antagonism

Neuroscience

HYPOCRETIN/OREXIN AND THE VENTRAL MIDBRAIN: TOPOGRAPHY AND FUNCTION ASSOCIATED WITH PSYCHOSTIMULANT-TAKING AND AFFECT

Simmons, Steven James

January 2018

Abuse of psychostimulants including cocaine and new synthetic formulations remains an international public health problem and economic burden. Addiction develops consequential to positive and negative drives that underlie “getting” and “staying” high. Dopamine (DA), arising from ventral tegmental area (VTA), projects to ventral striatal targets to encode reward signals and reward prediction. Mesolimbic DA is implicated in both the immediate rewarding effects of psychostimulants, and its hypoactivity underlies negative affect as drug levels decline. Accordingly, modulating inputs to midbrain DA possesses capacity to mediate positive/rewarding and negative/aversive effects of drugs. Hypocretin/orexin (hcrt/ox) is a family of excitatory hypothalamic peptides that projects widely throughout the central nervous system including to VTA DA cells, and hcrt/ox mediates brain reward function and motivation for self-administered drugs. Notably, the first-in-class hcrt/ox receptor antagonist (suvorexant) was approved for management of insomnia in the summer of 2014. Also within the past decade, the caudal division of VTA (termed “tail of VTA” and “rostromedial tegmental nucleus [RMTg]”) was detailed for its ability to negatively regulate VTA DA. Functionally, stimulation of the GABA-producing RMTg population encodes aversion and responds to aversive cues. Curiously, anatomy work depicts the hypothalamus as a principal input to the RMTg although the cellular phenotypes and functions of hypothalamic projections to RMTg have not been fully resolved. Work in this thesis was designed to map hcrt/ox projections to VTA and RMTg in effort to understand functionally-relevant topographical arrangement. In preliminary assessments, we test for the first time the ability of suvorexant to modulate reward and reinforcement associated with psychostimulant use in rats. Additionally, we profile how self-administered cocaine and “bath salt” synthetic cathinone 3,4-methylenedioxypyrovalerone (MDPV) influence affective states in rats by measuring ultrasonic vocalizations (USVs) and comparing patterns of responding. Subsequently, we test the ability of suvorexant to influence MDPV-taking and affective changes that promote self-administration. Finally, we utilize direct-site pharmacology to assess the degree to which hcrt/ox transmission within VTA and RMTg contributes to motivated responding for and affective processing of self-administered cocaine across two doses. Specifically, we hypothesized that intra-VTA suvorexant would suppress drug-taking by reducing the rewarding value of self-administered cocaine, whereas intra-RMTg hcrt/ox peptide injection would suppress drug-taking by increasing aversive value of self-administered cocaine. We observed that systemic suvorexant effectively reduces motivated cocaine-taking, and that this reduction relates in part to reductions in subjective reward of self-administered cocaine as interpreted by reductions in positively-valenced 50-kHz USVs. Retrograde tracing supports that hcrt/ox projects to both VTA and RMTg without discernible topographical arrangement. Target-site pharmacology finds that intra-VTA suvorexant has no appreciable effects on motivated cocaine-taking but tends to elevate 50-kHz USVs during the pre-drug “anticipation” time epoch in low-dose cocaine self-administering rats (0.375 mg/kg/inf). While intra-RMTg hcrt/ox pre-treatment sparsely affected USVs, 0.3 nmol/hemisphere hcrt/ox significantly enhanced cocaine-taking in low-dose cocaine self-administering rats, and, in high-dose (0.750 mg/kg/inf) cocaine self-administering rats, intra-RMTg hcrt/ox significantly suppressed responding when pre-treated with 1.0 and 3.0 nmol/hemisphere. Collectively, studies within this thesis promote the use of hcrt/ox receptor antagonists as adjunct pharmacotherapy in managing psychostimulant use disorders, although the circuitries through which aberrant motivated behaviors are modulated are not entirely clear. Future work will need to be performed to understand how hcrt/ox transmits to neurochemically-defined cell populations residing within VTA and RMTg—these pathways are recruited for processing stimuli as “rewarding” and “aversive” which are critical contributors in the development of substance use disorders and other psychiatric disorders characterized by dysregulated reward processing. / Biomedical Sciences

Neurosciences

Pharmacology

Behavioral Sciences

Addiction

Affect

Cocaine

Dopamine

Hypocretin/orexin

Reward