# Chemogenetic tools for modulation of spatial learning in dopamine transporter deficient rats

**Authors:** Arina A. Gromova, Taisiia S. Shemiakova, Mikhail G. Khotin, Evgeniia N. Petrunina, Anastasia D. Belskaya, Raul R. Gainetdinov, Natalia P. Kurzina, Anna B. Volnova

PMC · DOI: 10.3389/fnins.2025.1615208 · Frontiers in Neuroscience · 2025-07-21

## TL;DR

This study shows that chemogenetic activation of norepinephrine in the prefrontal cortex improves spatial learning and reduces hyperactivity in dopamine transporter-deficient rats.

## Contribution

The study demonstrates a novel chemogenetic approach to modulate norepinephrine in hyperdopaminergic rats, improving cognitive and behavioral outcomes.

## Key findings

- Chemogenetic activation of norepinephrine reduced hyperactive behaviors in DAT-KO rats.
- NE modulation improved spatial learning by decreasing perseverative activity and errors.
- The results highlight the modulatory role of LC-NA neurons on cognitive dysfunction in hyperdopaminergic rats.

## Abstract

We used the chemogenetic tools for the activation of norepinephrine (NE) release in the prefrontal cortex (PFC) of dopamine transporter knockout (DAT-KO) rats. The objective of this study was to evaluate the effect of chemogenetic activation of NE release in the PFC on the performance of a spatial behavior task by DAT-KO rats. The rats DAT-KO rats with deletion of DAT gene were created as a valuable model for persistently elevated extracellular DA levels. The DAT-KO rats show marked behavioral abnormalities: impulsivity, stereotypy and reduced learning ability. Such hyperdopaminergia is thought to be one of the causes of disorders such as schizophrenia, mania and attention deficit hyperactivity disorder (ADHD). The Locus Coeruleus (LC) is a critical area in the brain that plays an important role in control of several physiological and behavioral processes due to the existence of extensive connections to cortical and subcortical structures. Its activity can modulate both norepinephrine and dopamine neurotransmission, particularly in the PFC.

We used canine adenovirus type 2 (CAV2) to selectively activate LC-NA neurons in DAT-KO rats. The chemogenetic modulation of spatial learning in knockout and wild-type (WT) rats was tested in the Hebb-Williams maze. Variables such as the distance traveled, time taken to reach the goal box, number of errors and the perseverative patterns of activity were analyzed.

Norepinephrine release from the LC to the PFC reduced hyperactive behavioral patterns in rats lacking the dopamine transporter (DAT-KO rats) with spontaneously elevated dopamine transmission. These manipulations in hyperdopaminergic mutants also caused amelioration of cognitive abnormalities in spatial learning task by decrease the perseverative activity and the number of visits to the error zones. Furthermore, chemogenetic activation of NE neurotransmission in these animals significantly improved their performance.

The results obtained in this study highlight an important modulatory role of NE transmission from LC to PFC on hyperactivity and cognitive dysfunctions of hyperdopaminergic DAT-KO rats lacking the dopamine transporter.

## Linked entities

- **Genes:** SLC6A3 (solute carrier family 6 member 3) [NCBI Gene 6531]
- **Chemicals:** norepinephrine (PubChem CID 951)
- **Diseases:** schizophrenia (MONDO:0005090), attention deficit hyperactivity disorder (MONDO:0007743)
- **Species:** Rattus norvegicus (taxon 10116)

## Full-text entities

- **Genes:** Slc6a3 (solute carrier family 6 member 3) [NCBI Gene 24898] {aka Dat1}
- **Diseases:** ADHD (MESH:D001289), schizophrenia (MESH:D012559), behavioral abnormalities (MESH:D001523), impulsivity (MESH:D007174), mania (MESH:D001714), cognitive dysfunctions (MESH:D003072), cognitive abnormalities (MESH:D060825), hyperactivity (MESH:D006948)
- **Chemicals:** NE (MESH:D009638), DA (MESH:C025953), dopamine (MESH:D004298)
- **Species:** Rattus norvegicus (brown rat, species) [taxon 10116], Canine adenovirus 2 (no rank) [taxon 10514]

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12319012/full.md

## References

73 references — full list in the complete paper: https://tomesphere.com/paper/PMC12319012/full.md

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Source: https://tomesphere.com/paper/PMC12319012