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11/25/2022 15:21

Brain circuit responsible for locomotor activation and avoidance behavior

Anna Hein Presse- und Öffentlichkeitsarbeit
Max-Planck-Institut für Psychiatrie

    In a largely neglected brain region, scientists identified neurons that produce the stress hormone CRH (corticotropin-releasing hormone). They showed that the CRH produced in this region plays a role in behavioral arousal, locomotor activation, and avoidance behavior. The findings could be important for the understanding of psychiatric diseases.

    Jan Deussing, research group leader at the Max Planck Institute of Psychiatry (MPI), and his team have identified a region in the brain of mice where neurons produce the stress hormone CRH. This so-called IPACL region (lateral interstitial nucleus of the posterior limb of the anterior commissure) has been largely ignored by scientists until now. It is part of the extended amygdala – a brain region central to behaviors such as fear. The role of CRH originating from this part of the brain was previously unknown. By contrast, it is known that CRH originating from the hypothalamus brain region is a component of the stress axis, which leads to the release of the stress hormone cortisol. "We wanted to know why the IPACL neurons produce CRH. We used mice as a model system because the brain regions are similar to those of humans. We genetically modified mice which enabled us to specifically stimulate the IPACL neurons," Deussing explains.

    CRH triggers locomotor activation and avoidance behavior

    The stimulation of the IPACL neurons causes the mice to explore their environment more excessively. Upon stimulation of the IPACL neurons, the mice show signs of behavioral activation, as manifested by, among other things, increased locomotor activity. The stress hormone corticosterone also increases. Therefore, scientists wanted to investigate whether the animals perceive the activation of the IPACL neurons as pleasant or unpleasant. To this end, they trained the following scenario with the mice: In one chamber of a test apparatus, they stimulated the IPACL neurons, in another they did not. After training, mice were allowed to freely choose in which chamber to stay. They avoided the chamber in which their IPACL neurons were stimulated, indicating that the stimulation was perceived as uncomfortable. These results suggest that stimulation of the IPACL neurons triggers sensations similar to those experienced in a stressful situation.
    Despite these investigations, Deussing and his team still did not know whether the CRH of the IPACL neurons was responsible for the behavioral changes, or whether these changes were triggered by the neuronal stimulation. Thus, they then inhibited specific CRH receptors throughout the animals' bodies. After such inhibition, stimulation of the IPACL neurons no longer triggered increased exploratory behavior. "Thus, it was clear to us that the CRH from the IPACL region caused the mice's behavior," Deussing summarizes.

    Three structures in the brain involved in CRH circuit

    The terminals of the IPACL neurons innervate the substantia nigra (SN) within the midbrain. This region is important for movement. For example, the SN is one of the first regions to degenerate in Parkinson's disease. Jan Deussing’s team suspected that the CRH of the IPACL neurons acts on cells in precisely this region. They therefore genetically modified their mice such that the CRH receptor was only switched off in the SN. However, after stimulation of the IPACL neurons, these mice continued to display increased exploratory behavior. This puzzled the team. "Next, we focused on neurons of the external part of the globus pallidus region (GPe). These neurons contain many CRH receptors and their nerve terminals also terminate in the SN. Usually, the CRH receptor is located on the body of the neurons and on their dendrites, but in GPe neurons it is located on the nerve terminals," Deussing says. The team switched off the receptor in GPe neurons. As a result, the rodents no longer displayed increased exploratory behavior after stimulation of the IPACL neurons. Thus, the researchers concluded that the CRH in the IPACL neurons mediates its effects through GPe neurons. "We were able to reveal for the first time a CRH circuit in the IPACL, SN and GPe brain regions that plays a role in movement activation and avoidance behavior," Deussing concludes.

    The results, which were recently published in “Science Advances”, could be relevant for the understanding of psychiatric diseases. In anxiety disorders, post-traumatic stress disorder or depression, responses such as arousal and avoidance behavior may be impaired. "It is possible that the CRH circuit we discovered controls some of this behavior," speculates Deussing.


    Contact for scientific information:

    Jan Deussing: deussing@psych.mpg.de


    Original publication:

    Simon Chang et al.
    Tripartite extended amygdala–basal ganglia CRH circuit drives locomotor activation and avoidance behavior
    Science Advances
    DOI: https://www.science.org/doi/10.1126/sciadv.abo1023


    More information:

    https://www.psych.mpg.de/2875746/brain-circuit-locomotor-activation-avoidance-be...


    Images

    CRH neurons in the IPACL region produce a red fluorescent protein that enables visualization. If CRH neurons are connected to the substantia nigra in the midbrain, retrograde labeling additionally stains them green.
    CRH neurons in the IPACL region produce a red fluorescent protein that enables visualization. If CRH ...
    Simon Chang
    MPI / Simon Chang


    Criteria of this press release:
    Journalists
    Biology, Medicine, Psychology
    transregional, national
    Research results, Scientific Publications
    English


     

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