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Neurobiological substrates of the medial prefrontal cortex functional lateralization on defensive reactions induced by social defeat stress in mice


Stress situations are risk factors for the development of mental disorders. However, not everyone exposed to a stressor develops such disorders, probably because each subject displays distinct degrees of susceptibility or resilience phenotypes to stress. The search for the neural systems underlying these phenotypes has highlighted the medial prefrontal cortex (mPFC) and, more recently, its functional laterality. In brief, previous studies have shown that the exposure to chronic stress provokes morphofunctional differences in the left and right mPFC, culminating in persistent maladaptive changes. In this context, the functional laterality of mPFC seems to be involved in the expression of phenotypes in the presence of aversive situations, emphasizing how important is the mapping of the projections emitted by this structure and the characterization of the activation pattern of the areas that receive these afferences, using neuronal tracers and immunohistochemistry for ”FosB, respectively. Furthermore, changes in the ”FosB transcription factors and the involvement of glutamatergic neurotransmission have also been pointed out as fundamental for the expression of such phenotypes. In the present study, we also intend to clarify these parameters in stressed animals. Considering the neuroanatomical, functional and behavioral profiles produced by chronic stress, this study will investigate whether chemical inactivation (provoked with local injection of N-methyl-d-aspartate - NMDA) of the left mPFC is able to mimick partially or totally the stress effects, rendering animals more susceptible to stressors. Thus, this study attempts to clarify the functional laterality of mPFC on the modulation of anxiety- and depressant-like responses, particularly emphasizing the role of glutamatergic neurotransmission in the expression of distinct behavioral phenotypes (susceptible x resilient) in mice exposed to a social defeat paradigm. (AU)

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Scientific publications (6)
(References retrieved automatically from Web of Science and SciELO through information on FAPESP grants and their corresponding numbers as mentioned in the publications by the authors)
BAPTISTA-DE-SOUZA, DANIELA; RODRIGUES TAVARES, LIGIA RENATA; CANTO-DE-SOUZA, LUCAS; NUNES-DE-SOUZA, RICARDO LUIZ; CANTO-DE-SOUZA, AZAIR. Behavioral, hormonal, and neural alterations induced by social contagion for pain in mice. Neuropharmacology, v. 203, . (16/08665-0, 17/25409-0, 15/00006-4)
RODRIGUES TAVARES, LIGIA RENATA; PELARIN, VINICIUS; BAPTISTA-DE-SOUZA, DANIELA; PEREIRA FERRARI, DANIELE; NUNES-DE-SOUZA, RICARDO LUIZ; CANTO-DE-SOUZA, AZAIR. 5-HT3 receptor within the amygdaloid complex modulates pain hypersensitivity induced by empathy model of cohabitation with a partner in chronic pain condition in mice. Social Neuroscience, . (12/22238-6, 17/25409-0, 15/15335-3)
SANTOS-COSTA, NATHALIA; BAPTISTA-DE-SOUZA, DANIELA; CANTO-DE-SOUZA, LUCAS; DA COSTA, VINICIUS FRESCA; NUNES-DE-SOUZA, RICARDO LUIZ. Glutamatergic Neurotransmission Controls the Functional Lateralization of the mPFC in the Modulation of Anxiety Induced by Social Defeat Stress in Male Mice. FRONTIERS IN BEHAVIORAL NEUROSCIENCE, v. 15, . (17/25409-0, 16/24568-4, 16/08665-0)
BENASSI-CEZAR, GIOVANA; CARMONA, ISABELA MIRANDA; BAPTISTA-DE-SOUZA, DANIELA; NUNES-DE-SOUZA, RICARDO LUIZ; CANTO-DE-SOUZA, AZAIR. Differential modulation of the anterior cingulate and insular cortices on anxiogenic-like responses induced by empathy for pain. Neuropharmacology, v. 192, . (17/25409-0, 15/00006-4)
VICTORIANO, GABRIEL; SANTOS-COSTA, NATHALIA; MASCARENHAS, DIEGO CARDOZO; NUNES-DE-SOUZA, RICARDO LUIZ. Inhibition of the left medial prefrontal cortex (mPFC) prolongs the social defeat-induced anxiogenesis in mice: Attenuation by NMDA receptor blockade in the right mPFC. Behavioural Brain Research, v. 378, . (13/01283-6, 17/25409-0, 16/24568-4)

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