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5. Variants of the Aggression-Related RBFOX1 Gene in a Population Representative Birth Cohort Study: Aggressiveness, Personality, and Alcohol Use Disorder

Author

Vaht M, Laas K, Fernandez N, Kurrikoff T, Kanarik M, Faraone SV, Tooding LM, Veidebaum T, Franke B, Reif A, Cormand B, and Harro J

Subjects
A2BP1, extraversion, gender, neuroticism, aggressiveness, alcohol use disorder, RBFOX1
Abstract

Background: Recently, RBFOX1, a gene encoding an RNA binding protein, has consistently been associated with aggressive and antisocial behavior. Several loci in the gene have been nominally associated with aggression in genome-wide association studies, the risk alleles being more frequent in the general population. We have hence examined the association of four RBFOX1 single nucleotide polymorphisms, previously found related to aggressive traits, with aggressiveness, personality, and alcohol use disorder in birth cohort representative samples. Methods: We used both birth cohorts of the Estonian Children Personality Behavior and Health Study (ECPBHS; original n = 1,238). Aggressiveness was assessed using the Buss-Perry Aggression Questionnaire and the Lifetime History of Aggressiveness structured interview at age 25 (younger cohort) or 33 (older cohort). Big Five personality at age 25 was measured with self-reports and the lifetime occurrence of alcohol use disorder assessed with the MINI interview. RBFOX1 polymorphisms rs809682, rs8062784, rs12921846, and rs6500744 were genotyped in all participants. Given the restricted size of the sample, correction for multiple comparisons was not applied. Results: Aggressiveness was not significantly associated with the RBFOX1 genotype. RBFOX1 rs8062784 was associated with neuroticism and rs809682 with extraversion. Two out of four analyzed RBFOX1 variants, rs8062784 and rs12921846, were associated with the occurrence of alcohol use disorder. Conclusions: In the birth cohort representative sample of the ECPBHS, no association of RBFOX1 with aggressiveness was found, but RBFOX1 variants affected basic personality traits and the prevalence of alcohol use disorder. Future studies on RBFOX1 should consider the moderating role of personality and alcohol use patterns in aggressiveness.

Published
2020

12. Serotonin release by parachloroamphetamine in rats with high and low sociability: High prefrontal release capacity in sociable females.

Author

Norden M, Kanarik M, Laugus K, O'Leary A, Liiver K, Tõnissaar M, Shimmo R, and Harro J

Subjects
Animals, Female, Male, Rats, p-Chloroamphetamine pharmacology, Behavior, Animal drug effects, Ventral Tegmental Area metabolism, Ventral Tegmental Area drug effects, Social Interaction drug effects, Serotonin metabolism, Prefrontal Cortex metabolism, Prefrontal Cortex drug effects, Rats, Wistar, Social Behavior, Rats, Sprague-Dawley, Microdialysis
Abstract

Background: Social behaviour is the expression of one of the most generally accepted independent dimensions of personality. Serotonergic neurotransmission has been implicated in typical social response and drugs that promote serotonin (5-hydroxytryptamine (5-HT)) release have prosocial effects. By using the social interaction test, we have previously demonstrated sociability as a temperamental trait in male Wistar rats., Aims: To assess sociability in male rats of the Sprague-Dawley strain and in female rats of both Wistar and Sprague-Dawley strain, and extracellular levels of 5-HT in rats with high and low sociability (high sociability (HS)- and low sociability (LS)-rats)., Methods: Social interaction test conducted with different weight-matched partners was used to assess sociability, and in vivo, microdialysis was performed before and after administration of a low dose (2 mg/kg) of parachloroamphetamine (PCA) in the prefrontal cortex, dorsamedial striatum and ventral tegmental area., Results: Similarly to male Wistar rats, female Wistars and Sprague-Dawley rats of both sexes displayed trait-wise sociability. Male Wistar HS-rats had lower extracellular levels of 5-HT in prefrontal cortex at baseline and after administration of PCA, and higher PCA-induced increase of extracellular 5-HT in ventral tegmental area. In dorsomedial striatum, PCA elicited a comparable increase in extracellular dopamine in HS- and LS-rats, but higher release of 5-HT in HS-rats. Comparison of PCA-induced 5-HT release in prefrontal cortex of male and female Sprague-Dawley rats revealed a larger 5-HT response in female HS-rats., Conclusions: 5-HT release potential is higher in rats with high expression of sociability trait, whereas some regionally variable differences may be related to relative contributions of social motivation and anxiety in shaping social behaviour., Competing Interests: Declaration of conflicting interestsThe author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published
2024
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13. RNA m 6 A methyltransferase activator affects anxiety-related behaviours, monoamines and striatal gene expression in the rat.

Author

Kanarik M, Liiver K, Norden M, Teino I, Org T, Laugus K, Shimmo R, Karelson M, Saarma M, and Harro J

Abstract

Modification of mRNA by methylation is involved in post-transcriptional regulation of gene expression by affecting the splicing, transport, stability and translation of mRNA. Methylation of adenosine at N 6 (m 6 A) is one of the most common and important cellular modification occurring in the mRNA of eukaryotes. Evidence that m 6 A mRNA methylation is involved in regulation of stress response and that its dysregulation may contribute to the pathogenesis of neuropsychiatric disorders is accumulating. We have examined the acute and subchronic (up to 18 days once per day intraperitoneally) effect of the first METTL3/METTL14 activator compound CHMA1004 (methyl-piperazine-2-carboxylate) at two doses (1 and 5 mg/kg) in male and female rats. CHMA1004 had a locomotor activating and anxiolytic-like profile in open field and elevated zero-maze tests. In female rats sucrose consumption and swimming in Porsolt's test were increased. Nevertheless, CHMA1004 did not exhibit strong psychostimulant-like properties: CHMA1004 had no effect on 50-kHz ultrasonic vocalizations except that it reduced the baseline difference between male and female animals, and acute drug treatment had no effect on extracellular dopamine levels in striatum. Subchronic CHMA1004 altered ex vivo catecholamine levels in several brain regions. RNA sequencing of female rat striata after subchronic CHMA1004 treatment revealed changes in the expression of a number of genes linked to dopamine neuron viability, neurodegeneration, depression, anxiety and stress response. Conclusively, the first-in-class METTL3/METTL14 activator compound CHMA1004 increased locomotor activity and elicited anxiolytic-like effects after systemic administration, demonstrating that pharmacological activation of RNA m 6 A methylation has potential for neuropsychiatric drug development.

Published
2024
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14. Neuropeptide Y gene variants and Agreeableness: interaction effect with the birth cohort and the serotonin transporter promoter polymorphism.

Author

Kiive E, Kanarik M, Veidebaum T, and Harro J

Subjects
Child, Young Adult, Humans, Serotonin Plasma Membrane Transport Proteins genetics, Polymorphism, Single Nucleotide, Genotype, Birth Cohort, Neuropeptide Y genetics, Neuropeptide Y metabolism
Abstract

Objective: Neuropeptide Y (NPY) is a powerful regulator of anxious states, including social anxiety, but evidence from human genetic studies is limited. Associations of common gene variants with behaviour have been described as subject to birth cohort effects, especially if the behaviour is socially motivated. This study aimed to examine the association of NPY rs16147 and rs5574 with personality traits in highly representative samples of two birth cohorts of young adults, the samples having been formed during a period of rapid societal transition., Methods: Both birth cohorts (original n = 1238) of the Estonian Children Personality Behaviour and Health Study (ECPBHS) self-reported personality traits of the five-factor model at 25 years of age., Results: A significant interaction effect of the NPY rs16147 and rs5574 and birth cohort on Agreeableness was found. The T/T genotype of NPY rs16147 resulted in low Agreeableness in the older cohort (born 1983) and in high Agreeableness in the younger cohort (born 1989). The C/C genotype of NPY rs5574 was associated with higher Agreeableness in the younger but not in the older cohort. In the NPY rs16147 T/T homozygotes, the deviations from average in Agreeableness within the birth cohort were dependent on the serotonin transporter promoter polymorphism., Conclusions: The association between the NPY gene variants and a personality domain reflecting social desirability is subject to change qualitatively in times of rapid societal changes, serving as an example of the relationship between the plasticity genes and environment. The underlying mechanism may involve the development of the serotonergic system.

Published
2024
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15. MAOA methylation is associated with impulsive and antisocial behaviour: dependence on allelic variation, family environment and diet.

Author

Kanarik M, Sakala K, Matrov D, Kaart T, Roy A, Ziegler GC, Veidebaum T, Lesch KP, and Harro J

Subjects
Adolescent, Adult, Child, Humans, Male, Young Adult, Diet, DNA Methylation, Genotype, Impulsive Behavior, Monoamine Oxidase genetics, Antisocial Personality Disorder genetics, Home Environment
Abstract

Congenital absence of monoamine oxidase A (MAO-A) activity predisposes to antisocial impulsive behaviour, and the MAOA uVNTR low-expressing genotype (MAOA-L) together with childhood maltreatment is associated with similar phenotypes in males. A possible explanation of how family environment may lead to such behaviour involves DNA methylation. We have assessed MAOA methylation and impulsive/antisocial behaviour in 121 males from the Estonian Children Personality Behaviour and Health Study. Of the 12 CpG sites measured, methylation levels at the locus designated CpG3 were significantly lower in subjects with antisocial behaviour involving police contact. CpG3 methylation was lower in subjects with alcohol use disorder by age 25, but only in MAOA-H genotype. No correlation between MAOA CpG3 methylation levels and adaptive impulsivity was found at age 15, but in MAOA-L genotype a positive correlation appeared by age 18. By age 25, this positive correlation was no longer observed in subjects with better family relationships but had increased further with experience of adversity within the family. MAOA CpG3 methylation had different developmental dynamics in relation to maladaptive impulsivity. At age 18, a positive correlation was observed in MAOA-L genotype with inferior family relationships and a negative correlation was found in MAOA-H with superior home environment; both of these associations had disappeared by age 25. CpG3 methylation was associated with dietary intake of several micronutrients, most notable was a negative correlation with the intake of zinc, but also with calcium, potassium and vitamin E; a positive correlation was found with intake of phosphorus. In conclusion, MAOA CpG3 methylation is related to both maladaptive and adaptive impulsivity in adolescence in MAOA-L males from adverse home environment. By young adulthood, this relationship with maladaptive impulsivity had disappeared but with adaptive impulsivity strengthened. Thus, MAOA CpG3 methylation may serve as a marker for adaptive developmental neuroplasticity in MAOA-L genotype. The mechanisms involved may include dietary factors., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature.)

Published
2024
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16. Genome-wide DNA methylation analysis of aggressive behaviour: a longitudinal population-based study.

Author

Pishva E, van den Hove DLA, Laroche V, Lvovs A, Roy A, Ortega G, Burrage J, Veidebaum T, Kanarik M, Mill J, Lesch KP, and Harro J

Subjects
Child, Adolescent, Young Adult, Humans, Adult, Epigenesis, Genetic, Genetic Predisposition to Disease, Aggression, DNA Methylation genetics, Genome-Wide Association Study
Abstract

Background: Human aggression is influenced by an interplay between genetic predisposition and experience across the life span. This interaction is thought to occur through epigenetic mechanisms, inducing differential gene expression, thereby moderating neuronal cell and circuit function, and thus shaping aggressive behaviour., Methods: Genome-wide DNA methylation (DNAm) levels were measured in peripheral blood obtained from 95 individuals participating in the Estonian Children Personality Behaviours and Health Study (ECPBHS) at 15 and 25 years of age. We examined the association between aggressive behaviour, as measured by Life History of Aggression (LHA) total score and DNAm levels both assessed at age 25. We further examined the pleiotropic effect of genetic variants regulating LHA-associated differentially methylated positions (DMPs) and multiple traits related to aggressive behaviours. Lastly, we tested whether the DNA methylomic loci identified in association with LHA at age 25 were also present at age 15., Results: We found one differentially methylated position (DMP) (cg17815886; p = 1.12 × 10 -8 ) and five differentially methylated regions (DMRs) associated with LHA after multiple testing adjustments. The DMP annotated to the PDLIM5 gene, and DMRs resided in the vicinity of four protein-encoding genes (TRIM10, GTF2H4, SLC45A4, B3GALT4) and a long intergenic non-coding RNA (LINC02068). We observed evidence for the colocalization of genetic variants associated with top DMPs and general cognitive function, educational attainment and cholesterol levels. Notably, a subset of the DMPs associated with LHA at age 25 also displayed altered DNAm patterns at age 15 with high accuracy in predicting aggression., Conclusions: Our findings highlight the potential role of DNAm in the development of aggressive behaviours. We observed pleiotropic genetic variants associated with identified DMPs, and various traits previously established to be relevant in shaping aggression in humans. The concordance of DNAm signatures in adolescents and young adults may have predictive value for inappropriate and maladaptive aggression later in life., (© 2023 The Authors. Journal of Child Psychology and Psychiatry published by John Wiley & Sons Ltd on behalf of Association for Child and Adolescent Mental Health.)

Published
2023
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17. Active vs passive novelty-related strategies: Sex differences in exploratory behaviour and monoaminergic systems.

Author

Liiver K, Imbeault S, Školnaja M, Kaart T, Kanarik M, Laugus K, De Wettinck J, Pulver A, Shimmo R, and Harro J

Subjects
Rats, Male, Female, Animals, Hydroxyindoleacetic Acid metabolism, 3,4-Dihydroxyphenylacetic Acid metabolism, Brain metabolism, Dopamine metabolism, Norepinephrine metabolism, Serotonin metabolism, Exploratory Behavior
Abstract

Sex differences are apparent in numerous behavioural characteristics. In order to compare and characterise male and female variability of exploratory behaviour, 365 male and 401 female rats were assessed in a task where a bimodal response distribution had previously been established in males. Female rats had significantly higher exploratory activity, and presented normal distribution of the behaviour, very differently from the bimodal distribution of males. No major effect of litter or oestrous cycle was detected. Several differences between male and female rats were found in monoamine metabolism measured ex vivo. Male rats had lower levels of dopamine (DA) in frontal cortex, and higher levels of 3,4-dihydroxyphenylacetic acid (DOPAC) in raphe area; higher levels of serotonin (5-HT) and 5-hydroxyindoleacetic acid (5-HIAA) in dorsal striatum but lower levels of 5-HT and 5-HIAA in locus coeruleus area, 5-HIAA levels were also lower in hippocampus as compared to females. Males had higher noradrenaline (NA) levels in hippocampus and lower normetanephrine (NMN) levels in striatum, in both brain regions male animals had lower NMN/NA ratio. No sex difference was found in accumbens. The only brain region with an interaction between sex and the expression of exploratory activity was raphe: Here 5-HT levels were lower, and DOPAC levels and DOPAC/DA and 5-HIAA/5-HT ratios higher in low exploring male but not female rats. Conclusively, female rats not only display higher levels of exploration but the population distribution of this behaviour is distinct; this may be related to differences in the monoaminergic systems between female and male animals., Competing Interests: Declaration of interest The authors declare that they have no conflict of interest., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published
2023
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18. ADHD co-morbidities: A review of implication of gene × environment effects with dopamine-related genes.

Author

Kanarik M, Grimm O, Mota NR, Reif A, and Harro J

Subjects
Adult, Comorbidity, Dopamine genetics, Dopamine Plasma Membrane Transport Proteins genetics, Genetic Predisposition to Disease genetics, Humans, Morbidity, Attention Deficit Disorder with Hyperactivity epidemiology, Attention Deficit Disorder with Hyperactivity genetics, Receptors, Dopamine D4 genetics
Abstract

ADHD is a major burden in adulthood, where co-morbid conditions such as depression, substance use disorder and obesity often dominate the clinical picture. ADHD has substantial shared heritability with other mental disorders, contributing to comorbidity. However, environmental risk factors exist but their interaction with genetic makeup, especially in relation to comorbid disorders, remains elusive. This review for the first time summarizes present knowledge on gene x environment (GxE) interactions regarding the dopamine system. Hitherto, mainly candidate (GxE) studies were performed, focusing on the genes DRD4, DAT1 and MAOA. Some evidence suggest that the variable number tandem repeats in DRD4 and MAOA may mediate GxE interactions in ADHD generally, and comorbid conditions specifically. Nevertheless, even for these genes, common variants are bound to suggest risk only in the context of gender and specific environments. For other polymorphisms, evidence is contradictory and less convincing. Particularly lacking are longitudinal studies testing the interaction of well-defined environmental factors with polygenic risk scores reflecting the dopamine system in its entirety., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published
2022
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19. Association of orexin/hypocretin receptor gene (HCRTR1) with reward sensitivity, and interaction with gender.

Author

Pulver A, Kiive E, Kanarik M, and Harro J

Subjects
Adult, Case-Control Studies, Cohort Studies, Female, Genotype, Homozygote, Humans, Male, Polymorphism, Single Nucleotide, Aggression physiology, Motivation genetics, Orexin Receptors genetics, Reward, Sex Factors
Abstract

Orexins/hypocretins maintain wakefulness, increase appetite and participate in the coordination of stress response. We have recently provided evidence on the role of orexins in aggression, showing the association of the HCRTR1 genotype. (rs2271933 G > A; leading to amino acid substitution Ile408Val) with aggressiveness or breach of law in four independent cohorts. Aggressive behaviour can be reward driven and hence we have examined the association of HCRTR1 rs2271933 genotype with different aspects of reward sensitivity in the birth cohort representative Estonian Children Personality Behaviour and Health Study. HCRTR1 genotype was associated with reward sensitivity in a gender dependent manner. Male HCRTR1 A/A homozygotes had higher Openness to Rewards and the overall reward sensitivity score while, in contrast, female A/A homozygotes scored lower than G-allele carriers in Openness to Rewards. In the total sample, aggressiveness correlated positively with reward sensitivity, but this was on account of Insatiability by Reward. In contrast, the HCRTR1 A/A homozygotes had a positive association of aggressiveness and Openness to Rewards. Experience of stressful life events had a small but significant increasing effect on both aspects of reward sensitivity, and correlated in an anomalous way with reward sensitivity in the HCRTR1 A/A homozygotes. Conclusively, the higher aggressiveness of HCRTR1 A/A homozygotes appears based on a qualitative difference in sensitivity to rewards, in the form that suggests their lower ability to prevent responses to challenges being converted into overt aggression., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2020
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20. Comprehensive mapping of cytochrome c oxidase activity in the rat brain after sub-chronic ketamine administration.

Author

Matrov D, Imbeault S, Kanarik M, Shkolnaya M, Schikorra P, Miljan E, Shimmo R, and Harro J

Subjects
Animals, Brain drug effects, Brain Mapping, Electron Transport Complex IV genetics, Energy Metabolism drug effects, Energy Metabolism genetics, Female, Nerve Net drug effects, Rats, Rats, Sprague-Dawley, Schizophrenia chemically induced, Brain enzymology, Electron Transport Complex IV metabolism, Excitatory Amino Acid Antagonists pharmacology, Ketamine pharmacology
Abstract

Ketamine is a noncompetitive antagonist of glutamatergic N-methyl-d-aspartate receptors. Its acute effects on healthy volunteers and schizophrenia patients mimic some acute psychotic, but also cognitive and negative symptoms of schizophrenia, and subchronic treatment with ketamine has been used as an animal model of psychotic disorders. Glutamatergic neurotransmission is tightly coupled to oxidative metabolism in the brain. Quantitative histochemical mapping of cytochrome c oxidase (COX) activity, which reflect long-term energy metabolism, was carried out in rats that received a daily subanaesthetic dose (30 mg/kg) of ketamine for 10 days. In total, COX activity was measured in 190 brain regions to map out metabolic adaptations to the subchronic administration of ketamine. Ketamine treatment was associated with elevated COX activity in nine brain sub-regions in sensory thalamus, basal ganglia, cortical areas, hippocampus and superior colliculi. Changes in pairwise correlations between brain regions were studied with differential correlation analysis. Ketamine treatment was associated with the reduction of positive association between brain regions in 66 % of the significant comparisons. Different layers of the superior colliculi showed the strongest effects. Changes in other visual and auditory brain centres were also of note. The locus coeruleus showed opposite pattern of increased coupling to mainly limbic brain regions in ketamine-treated rats. Our study replicated commonly observed activating effects of ketamine in the hippocampus, cingulate cortex, and basal ganglia. The current study is the first to extensively map the oxidative metabolism in the CNS in the ketamine model of schizophrenia. It shows that ketamine treatment leads to the re-organization of activity in sensory and memory-related brain circuits., Competing Interests: Declaration of Competing Interest None to declare., (Copyright © 2020 Elsevier GmbH. All rights reserved.)

Published
2020
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21. Sociability trait and regional cerebral oxidative metabolism in rats: Predominantly nonlinear relations.

Author

Kanarik M and Harro J

Subjects
Analysis of Variance, Animals, Cerebral Cortex anatomy & histology, Interpersonal Relations, Male, Rats, Rats, Wistar, Cerebral Cortex metabolism, Electron Transport Complex IV metabolism, Energy Metabolism physiology, Nonlinear Dynamics, Social Behavior
Abstract

Deficits in social behaviour are common in psychopathological conditions e.g., depression, autism and schizophrenia. In rats, sociability, defined as the engagement of an animal in non-aggressive social contact with a conspecific in a neutral arena, is as a persistent trait. To elucidate the neuroanatomy of social behaviour in animal models, long term neuronal energy metabolism was studied in rats preselected for sociability levels. Rats were divided into groups with high, medium and low sociability levels (HS, MS and LS) according to the average score of three social interaction tests, and cerebral long-term energy metabolism was assayed with cytochrome oxidase histochemistry. In the dorsomedial caudate putamen oxidative metabolism was linearly dependent on sociability, with LS-rats having the highest levels. In median preoptic nucleus, posterior paraventricular thalamus and median raphe, nonlinear relations appeared, HS- and LS-rats having lower oxidative activity than MS-animals. In the supraoptic nucleus MS-rats displayed lower oxidative activity than HS- and LS-animals. Intra-individual variability in social interaction on different testing occasions correlated positively with oxidative metabolism in the prelimbic cortex, bed nucleus of stria terminalis and caudate putamen, and negatively in the nucleus accumbens core. Conclusively, rats with different sociability levels are distinguished by long-term energy metabolism in nuclei involved in motivational behaviour, fear and vigilance; the relationship between energy metabolism and sociability appears to be predominantly nonlinear - animals with high and low expression of sociability are similarly deviant from the average; and intra-individual variability in social interaction is related to brain areas controlling motivation, stress reactivity and anxiety., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published
2018
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22. Middle-range exploratory activity in adult rats suggests higher resilience to chronic social defeat.

Author

Matrov D, Kõiv K, Kanarik M, Peet K, Raudkivi K, and Harro J

Subjects
Adaptation, Psychological physiology, Animals, Biogenic Monoamines metabolism, Brain Chemistry, Chromatography, Liquid, Depressive Disorder metabolism, Depressive Disorder psychology, Disease Models, Animal, Male, Maze Learning, Rats, Rats, Wistar, Depressive Disorder physiopathology, Exploratory Behavior physiology, Social Behavior
Abstract

Objective: Stressful life events play an important role in the aetiology of human mood disorders and are frequently modelled by chronic social defeat (SD) in rodents. Exploratory phenotype in rats is a stable trait that is likely related to inter-individual differences in reactivity to stress. The aim of the study was to confirm that low levels of exploratory activity (LE) are, in rodents, a risk factor for passive stress coping, and to clarify the role of medium (ME) and high (HE) exploratory disposition in the sensitivity to SD., Methods: We examined the effect of SD on male Wistar rats with LE, ME, and HE activity levels as measured in the exploration box. After SD, the rats were evaluated in social preference, elevated zero maze, and open-field tests. Brain tissue levels of monoamines were measured by high-performance liquid chromatography., Results: Rats submitted to SD exhibited lower weight gain, higher sucrose consumption, showed larger stress-induced hyperthermia, lower levels of homovanillic acid in the frontal cortex, and higher levels of noradrenaline in the amygdala and hippocampus. Open-field, elevated zero maze, and social preference tests revealed the interaction between stress and phenotype, as only LE-rats were further inhibited by SD. ME-rats exhibited the least reactivity to stress in terms of changes in body weight, stress-induced hyperthermia, and sucrose intake., Conclusion: Both low and high novelty-related activity, especially the former, are associated with elevated sensitivity to social stress. This study shows that both tails of a behavioural dimension can produce stress-related vulnerability.

Published
2016
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23. Revealing the cerebral regions and networks mediating vulnerability to depression: oxidative metabolism mapping of rat brain.

Author

Harro J, Kanarik M, Kaart T, Matrov D, Kõiv K, Mällo T, Del Río J, Tordera RM, and Ramirez MJ

Subjects
Animals, Behavior, Animal physiology, Chronic Disease, Depressive Disorder etiology, Disease Models, Animal, Dominance-Subordination, Male, Maternal Deprivation, Neural Pathways physiopathology, Phenotype, Rats, Resilience, Psychological, Serotonin Agents, Stress, Psychological complications, Stress, Psychological physiopathology, Brain physiopathology, Depressive Disorder physiopathology, Electron Transport Complex IV metabolism
Abstract

The large variety of available animal models has revealed much on the neurobiology of depression, but each model appears as specific to a significant extent, and distinction between stress response, pathogenesis of depression and underlying vulnerability is difficult to make. Evidence from epidemiological studies suggests that depression occurs in biologically predisposed subjects under impact of adverse life events. We applied the diathesis-stress concept to reveal brain regions and functional networks that mediate vulnerability to depression and response to chronic stress by collapsing data on cerebral long term neuronal activity as measured by cytochrome c oxidase histochemistry in distinct animal models. Rats were rendered vulnerable to depression either by partial serotonergic lesion or by maternal deprivation, or selected for a vulnerable phenotype (low positive affect, low novelty-related activity or high hedonic response). Environmental adversity was brought about by applying chronic variable stress or chronic social defeat. Several brain regions, most significantly median raphe, habenula, retrosplenial cortex and reticular thalamus, were universally implicated in long-term metabolic stress response, vulnerability to depression, or both. Vulnerability was associated with higher oxidative metabolism levels as compared to resilience to chronic stress. Chronic stress, in contrast, had three distinct patterns of effect on oxidative metabolism in vulnerable vs. resilient animals. In general, associations between regional activities in several brain circuits were strongest in vulnerable animals, and chronic stress disrupted this interrelatedness. These findings highlight networks that underlie resilience to stress, and the distinct response to stress that occurs in vulnerable subjects., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published
2014
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24. Mapping patterns of depression-related brain regions with cytochrome oxidase histochemistry: relevance of animal affective systems to human disorders, with a focus on resilience to adverse events.

Author

Harro J, Kanarik M, Matrov D, and Panksepp J

Subjects
Animals, Brain Chemistry genetics, Brain Chemistry physiology, Brain Mapping, Disease Models, Animal, Gene Expression, Humans, Immunohistochemistry, Mood Disorders physiopathology, Mood Disorders psychology, Neurotransmitter Agents metabolism, Neurotransmitter Agents physiology, Oxidation-Reduction, Serotonin physiology, Stress, Psychological psychology, Affect physiology, Brain enzymology, Brain physiopathology, Depressive Disorder physiopathology, Depressive Disorder psychology, Electron Transport Complex IV metabolism, Resilience, Psychological
Abstract

The search for novel antidepressants may be facilitated by pre-clinical animal models that relay on specific neural circuit and related neurochemical endpoint measures, which are anchored in concrete neuro-anatomical and functional neural-network analyzes. One of the most important initial considerations must be which regions of the brain are candidates for the maladaptive response to depressogenic challenges. Consideration of persistent differences or changes in the activity of cerebral networks can be achieved by mapping oxidative metabolism in ethologically or pathogenetically relevant animal models. Cytochrome oxidase histochemistry is a technique suitable to detect regional long-term brain activity changes relative to control conditions and has been used in a variety of animal models. This work is summarized and indicates that major changes occur mainly in subcortical areas, highlighting specific brain regions where some alterations in regional oxidative metabolism may represent adaptive changes to depressogenic adverse life events, while others may reflect failures of adaptation. Many of these changes in oxidative metabolism may depend upon the integrity of serotonergic neurotransmission, and occur in several brain regions shown by other techniques to be involved in endogenous affective circuits that control emotional behaviors as well as related higher brain regions that integrate learning and cognitive information processing. These brain regions appear as primary targets for further identification of endophenotypes specific to affective disorders., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published
2011
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25. Brain responses to chronic social defeat stress: effects on regional oxidative metabolism as a function of a hedonic trait, and gene expression in susceptible and resilient rats.

Author

Kanarik M, Alttoa A, Matrov D, Kõiv K, Sharp T, Panksepp J, and Harro J

Subjects
Adrenal Glands metabolism, Animals, Apomorphine administration & dosage, Apomorphine pharmacology, Behavior, Animal, Body Weight, Depression genetics, Dopamine Agonists administration & dosage, Dopamine Agonists pharmacology, Energy Metabolism, Gene Expression Profiling, Microarray Analysis, Rats, Rats, Wistar, Stress, Psychological genetics, Sucrose administration & dosage, Sweetening Agents administration & dosage, Swimming, Brain metabolism, Depression metabolism, Gene Expression, Resilience, Psychological, Stress, Psychological metabolism
Abstract

Chronic social defeat stress, a depression model in rats, reduced struggling in the forced swimming test dependent on a hedonic trait-stressed rats with high sucrose intake struggled less. Social defeat reduced brain regional energy metabolism, and this effect was also more pronounced in rats with high sucrose intake. A number of changes in gene expression were identified after social defeat stress, most notably the down-regulation of Gsk3b and Map1b. The majority of differences were between stress-susceptible and resilient rats. Conclusively, correlates of inter-individual differences in stress resilience can be identified both at gene expression and oxidative metabolism levels., (Copyright © 2010 Elsevier B.V. and ECNP. All rights reserved.)

Published
2011
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26. Changes in regional long-term oxidative metabolism induced by partial serotonergic denervation and chronic variable stress in rat brain.

Author

Kanarik M, Matrov D, Kõiv K, Eller M, Tõnissaar M, and Harro J

Subjects
Adaptation, Physiological physiology, Animals, Brain anatomy & histology, Brain physiopathology, Chronic Disease, Denervation, Depressive Disorder etiology, Depressive Disorder physiopathology, Disease Models, Animal, Electron Transport Complex IV metabolism, Male, Neural Pathways anatomy & histology, Neural Pathways metabolism, Neural Pathways physiopathology, Presynaptic Terminals metabolism, Rats, Rats, Wistar, Serotonin Agents pharmacology, Stress, Psychological complications, Stress, Psychological physiopathology, Synaptic Transmission physiology, Time, p-Chloroamphetamine pharmacology, Brain metabolism, Depressive Disorder metabolism, Energy Metabolism physiology, Oxidative Phosphorylation, Serotonin metabolism, Stress, Psychological metabolism
Abstract

Stressful experiences and genetic predisposition have both independent and interactive contributions to the development of depression. The serotonergic system is involved in the development of depression, and administration of neurotoxins that specifically compromise its function leads to symptoms of affective disorders. In order to find out which brain regions are most affected by stress, partial serotonergic denervation and their combination, chronic variable stress (CVS) was applied for 3 week. Serotonergic denervation was elicited by parachloroampetamine (PCA, 2mg/kg), and cytochrome oxidase histochemistry was used to characterize the long-term levels of neuronal oxidative energy metabolism. PCA pretreatment blocked the increase in oxidative activity in chronically stressed rats in medial preoptic area, cortical and medial amygdala. PCA raised oxidative activity compared to control animals in substantia nigra and ventrolateral division of laterodorsal thalamus. CVS reduced the oxidative activity induced by PCA in suprachiasmatic hypothalamus, anteroventral thalamus, hippocampal CA3 region and cortical amygdala. In the dorsal part of the anterior olfactory nucleus chronic stress blocked the decrease in oxidative activity evoked by PCA. Conclusively, partial serotonergic denervation with PCA and chronic variable stress both had independent effects on long-term energy metabolism in several rat brain structures, tending to increase it. However, partial serotonergic denervation by parachloroampetamine and chronic variable stress had in many brain regions an interactive effect on energy metabolism, each factor reducing the effect of the other, which could reflect the weakening of adaptive mechanisms.

Published
2008
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