Angiotensin II involvement in the development and persistence of amphetamine‐induced sensitization: Striatal dopamine reuptake implications

Amphetamine (AMPH) exposure induces behavioural and neurochemical sensitization observed in rodents as hyperlocomotion and increased dopamine release in response to a subsequent dose. Brain Angiotensin II modulates dopaminergic neurotransmission through its AT1 receptors (AT1‐R), positively regulati...

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Veröffentlicht in:The European journal of neuroscience 2024-05, Vol.59 (10), p.2450-2464
Hauptverfasser: Basmadjian, Osvaldo M., Occhieppo, Victoria B., Montemerlo, Antonella E., Rivas, Gustavo A., Rubianes, María D., Baiardi, Gustavo, Bregonzio, Claudia
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Sprache:eng
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Zusammenfassung:Amphetamine (AMPH) exposure induces behavioural and neurochemical sensitization observed in rodents as hyperlocomotion and increased dopamine release in response to a subsequent dose. Brain Angiotensin II modulates dopaminergic neurotransmission through its AT1 receptors (AT1‐R), positively regulating striatal dopamine synthesis and release. This work aims to evaluate the AT1‐R role in the development and maintenance of AMPH‐induced sensitization. Also, the AT1‐R involvement in striatal dopamine reuptake was analysed. The sensitization protocol consisted of daily AMPH administration for 5 days and tested 21 days after withdrawal. An AT1‐R antagonist, candesartan, was administered before or after AMPH exposure to evaluate the participation of AT1‐R in the development and maintenance of sensitization, respectively. Sensitization was evaluated by locomotor activity and c‐Fos immunostaining. Changes in dopamine reuptake kinetics were evaluated 1 day after AT1‐R blockade withdrawal treatment, with or without the addition of AMPH in vitro. The social interaction test was performed as another behavioural output. Repeated AMPH exposure induced behavioural and neurochemical sensitization, which was prevented and reversed by candesartan. The AT1‐R blockade increased the dopamine reuptake kinetics. Neither the AMPH administration nor the AT1‐R blockade altered the performance of social interaction. Our results highlight the AT1‐R's crucial role in AMPH sensitization. The enhancement of dopamine reuptake kinetics induced by the AT1‐R blockade might attenuate the neuroadaptive changes that lead to AMPH sensitization and its self‐perpetuation. Therefore, AT1‐R is a prominent candidate as a target for pharmacological treatment of pathologies related to dopamine imbalance, including drug addiction and schizophrenia. Effects of AT1‐R blockade over amphetamine‐induced sensitization. AT1‐R blockade prevents and reverses amphetamine sensitization in part due to the increased dopamine reuptake kinetics induced by AT1‐R blockade. The scheme is a representation of the basal conditions (a), the prevention (b) and the reversion (c) induced by AT1‐R blockade.
ISSN:0953-816X
1460-9568
DOI:10.1111/ejn.16312