Differential Roles of the Two Raphe Nuclei in Amiable Social Behavior and Aggression – An Optogenetic Study

Balázsfi, Diána; Zelena, Dóra; Demeter, Kornél; Miskolczi, Christina; Varga, Zoltán; Nagyváradi, Ádám; Nyíri, Gábor; Cserép, Csaba; Baranyi, Mária; Sperlágh, Beáta; Haller, József

doi:10.3389/fnbeh.2018.00163

Cited by 26 publications

(23 citation statements)

References 54 publications

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“…The DR modulates attack behavior during aggressive encounters in rodents ( Chen et al, 1994 ; Takahashi et al, 2010 , 2015 ; da Veiga et al, 2011 ; Adachi et al, 2017 ; Balázsfi et al, 2018 ; Muroi and Ishii, 2019 ). The DR contains a heterogenous population of neurons that project to various brain regions to control social behavior and emotion ( Challis et al, 2013 ; Qi et al, 2014 ; Matthews et al, 2016 ; Ren et al, 2018 ; Huang et al, 2019 ).…”

Section: Discussionmentioning

confidence: 99%

The Dorsal Raphe Regulates the Duration of Attack through the Medial Orbitofrontal Cortex and Medial Amygdala

Nordman

2020

eNeuro

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The dorsal raphe (DR) is an evolutionarily conserved brain structure that is involved in aggressive behavior. It projects onto numerous cortical and limbic areas underlying attack behavior. The specific neurocircuit through which the DR regulates aggression, however, is largely unclear. In this study we show that DR neurons expressing CaMKII are activated by attack behavior in mice. These neurons project to the medial aspect of the orbitofrontal cortex (MeOC) and the medial amygdala (MeA), two key regions within the neural circuit known to control aggressive behavior. Using an in vivo optogenetic approach, we show that attack bouts are shortened by inhibiting CaMKII + neurons in the DR and their axons at the MeOC and prolonged by stimulating the DR-MeOC axons during an attack. By contrast, stimulating the axons of CaMKII + DR neurons at the MeA shortens attack. Notably, neither the DR-MeOC or DR-MeA pathway initiates attack when stimulated. These results indicate that the DR-MeOC and DR-MeA pathways regulate the duration of attack behavior in opposite directions, revealing a circuit mechanism for the control of attack by the DR.

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Section: Discussionmentioning

confidence: 99%

The Dorsal Raphe Regulates the Duration of Attack through the Medial Orbitofrontal Cortex and Medial Amygdala

Nordman

2020

eNeuro

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“…In EDS, aggression is prevalent. Based on evidence, the dorsal raphe nucleus located in the brain stem has serotonergic transmission in the projections areas of prefrontal cortex, a main aggression control site [50], that plays an important role in the management of aggressive behaviors, and a lesion occurring in this nucleus causes antisocial behaviors [51]. Therefore, in patients with EDS, who mainly have brain stem lesions, damages of dorsal raphe nucleus or its serotonergic projections may take part in the occurrence of aggressive behaviors.…”

Section: Discussionmentioning

confidence: 99%

Identification of Imaging and Clinical Markers Predicting Chronic Sleep Disturbances After Traumatic Brain Injury in Adults

Ramezani

Yousefzadeh-Chabok

2018

Iran. J. Neurosurg.

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Background and Aim: We aimed to determine the prognostic imaging and clinical markers of chronic Post-Traumatic Sleep-Wake Disorders (PTSWDs) with a special focus on the early cognitive and executive dysfunctions following Traumatic Brain Injury (TBI). The prevalence rate of Post-Traumatic Psychiatric Disorders (PTPDs) in various sleep disorders was also investigated. Methods and Materials/Patients: In the present longitudinal study, 165 qualified patients with closed TBI were studied. Demographic, imaging and clinical characteristics of the subjects were recorded. The presence of acute post-traumatic cognitive deficits, anxiety, depression, and headache were measured by standard scales at discharge. Executive functioning was scored by the verbal fluency test. Several subjective questionnaires were applied to screen the chronic PTSWDs at 6 months after the onset of TBI. All variables were compared between the patients as well as those with and without PTSWDs using appropriate statistical tests. Results: Of 146 patients remaining in the follow-up study, 35% manifested PTSWDs, with insomnia and Excessive Daytime Sleepiness (EDS) as the most prevalent types. A poor executive functioning was observed in all PTSWDs patients, compared to those without PTSWDs, with only insomnia and hypersomnia patients demonstrating acute depression. Hypersomnia was also significantly related to bilateral brain contusion. The insomnia mostly comorbid with fatigue was predicted by mild injury, cortical lesions in the frontal lobe and acute severe headache. However, the patients who experienced the brain stem and diffusion lesions of right hemisphere were prone to EDS that was mainly accompanied by aggression. Conclusion: The predictive role of acute executive dysfunction has been clarified in this study. It is suggested that early neurorehabilitative interventions targeting the impaired neural circuits of executive functioning and mood processing may accelerate and facilitate the optimal neurofunctional recovery leading to minimizing the persistent sleep disturbances.

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“…Dialysate sample were diluted and one part (240μl) was used for monoamines measurement as described in [35] and the left, 50μl was dansylated and used for amino acid analysis. The experimental results were published in the following journals [40,41].…”

Section: Monitoring Of Extracellular Level Of Ntsmentioning

confidence: 99%

Optimization and validation of online column-switching assisted HPLC-spectrometric method for quantification of dansylated endocannabinoids and neurotransmitters in animal models of brain diseases

Sperlagh¹

2019

Open J Anal Bioanal Chem

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In scientifi c research, animal modelling of human disease is pivotal in both studying the mechanisms of the disease and developing potential therapies. An imbalance in the interaction between the endocannabinoid (eCB) and Neurotransmitter (NT) systems may play a role in the pathogenesis of neurological diseases, such as Parkinson's Disease (PD). The major limitation of current neurochemical practice is that different assays are used to measure each class of NTs. We present a liquid chromatography-spectrometric method that utilizes 5-dimethylamino naphthalane-1-sulfonyl (dansyl) chloride derivatizing reagent for the simultaneous measurement of nine different types of neurotransmitters. In order for our method to achieve the highest possible sensitivity, we tested the following reaction parameters: reaction medium and pH; the effect of reagent concentration; reaction temperature and time, both of which infl uence the effi ciency of dansyl derivative formation of eCBs; and Amino Acids (AAs) and Monoamines (MAs) that are present in the sample together. To achieve the required analytical sensitivity, online solid phase extraction techniques were used to purify and enrich the dansylated sample. The optimal sample enrichment and clean-up time were calculated from the breakthrough volume of dansyl hydroxide, taken on a capture column (ACE Ultra Core Super C-18), when the mobile phase contained 1.9%(v/v) of acetonitrile and 1.1%(v/v) of methanol in formic acid ammonium salt buffer at a fl ow rate of 0.3 ml/min. The linear range of calibration was between 50-1575 pmol/ml for all the analytes (aspartic acid, glutamic acid, glycine, γ-aminobutyric acid, dopamine, norepinephrine, serotonin, N-arachidonylethanolamide, or anandamide, and 2-arachidonylglycerol). The Limit of Detection (LOD) and Quantifi cation (LOQ) ranged between 15.75-118.5 pmol and 26.5-196.5 pmol respectively. The precision (repeatability) was in the range of 5.7%-9.9% for each analyte. This method was applied to investigate neurochemical changes in a mouse model of Parkinson's disease in the presence and absence of P2x7 and P2Y 12 purinergic receptors. In conclusion, the present method shows acceptable precision and adequate sensitivity in quantifying the basal levels of the endocannabinoids, and it is well suited for the simultaneous determination of neurotransmitters and endocannabinoids.

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Differential Roles of the Two Raphe Nuclei in Amiable Social Behavior and Aggression – An Optogenetic Study

Cited by 26 publications

References 54 publications

The Dorsal Raphe Regulates the Duration of Attack through the Medial Orbitofrontal Cortex and Medial Amygdala

The Dorsal Raphe Regulates the Duration of Attack through the Medial Orbitofrontal Cortex and Medial Amygdala

Identification of Imaging and Clinical Markers Predicting Chronic Sleep Disturbances After Traumatic Brain Injury in Adults

Optimization and validation of online column-switching assisted HPLC-spectrometric method for quantification of dansylated endocannabinoids and neurotransmitters in animal models of brain diseases

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