Effect of chronic stress during adolescence in prefrontal cortex structure and function

Folha, Otavio Augusto de Araujo Costa; Bahia, Carlomagno Pacheco; Aguiar, Gisele Priscila Soares de; Herculano, Anderson Manoel; Galvão-Coelho, Nicole Leite; Sousa, Maria Bernardete Cordeiro de; Shiramizu, Victor Kenji Medeiros; Galvão, Ana Cecília de Menezes; Carvalho, Walther Augusto de; Pereira, Antônio

doi:10.1016/j.bbr.2017.02.033

Cited by 36 publications

(19 citation statements)

References 82 publications

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“…Human postmortem studies revealed marked abnormalities of aggrecan and PV-expressing neurons in schizophrenia and bipolar disorder (Pantazopoulos et al, 2015;Steullet et al, 2018). Preclinical studies also showed that early life stress or chronic stress during adulthood altered PNN numbers in multiple brain regions including prefrontal cortex (Castillo-Gómez et al, 2017;de Araújo Costa Folha et al, 2017;Pesarico et al, 2019). The PNN assembly and its molecular components may play a critical role in stress response.…”

Section: Discussionmentioning

confidence: 99%

“…Previous studies have implicated the alterations in the density or composition of PNNs in a range of neuropsychiatric disorders such as epilepsy (Tewari et al, 2018), schizophrenia (Bitanihirwe and Woo, 2014;Enwright et al, 2016), bipolar disorder (Steullet et al, 2018), and drug addiction (Xue et al, 2014;Blacktop and Sorg, 2019), and these behavioral abnormalities might be improved after reversing the changes in the number of components of PNNs. Chronic stress during early life or adulthood alters the density of PNNs in the medial prefrontal cortex, and affects the structure and plasticity of inhibitory neurons, especially PV-expressing interneurons (Castillo-Gómez et al, 2017;de Araújo Costa Folha et al, 2017;Pesarico et al, 2019). Early life maltreatment or maternal immune activation caused developmental abnormalities in PNNs in the prefrontal cortex and basolateral amygdala (Paylor et al, 2016;Page and Coutellier, 2018;Santiago et al, 2018), which may be associated with the increased vulnerability to neuropsychiatric disorders such as anxiety.…”

Section: Introductionmentioning

confidence: 99%

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Decreased Density of Perineuronal Net in Prelimbic Cortex Is Linked to Depressive-Like Behavior in Young-Aged Rats

Chen

et al. 2020

Front. Mol. Neurosci.

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Perineuronal nets (PNNs) are condensed extracellular matrix (ECM) structures regulating developmental plasticity and protecting neurons against oxidative stress. PNN abnormalities have been observed in various psychiatric disorders such as schizophrenia and bipolar disorder, but the relationship between PNN density and depression still remains unclear. In the present study, we examined the density and components of PNNs including aggrecan, neurocan and Tenascin-R in the prelimbic cortex (PrL) after chronic unpredictable mild stress (CUMS). We found that depressive-like behaviors were induced after 30 days of CUMS accompanied by decreases in PNN + cell density and aggrecan expression in the PrL. In addition, rats subjected to 20 days of CUMS were separated into vulnerable and resilient subpopulations that differ along several behavioral domains. Consistently, the density of PNNs and the expression level of neurocan in the vulnerable group were decreased compared to control and resilient groups. Finally, we examined individual differences based on locomotion in a novel context and classified rats as high responding (HR) and low responding (LR) phenotypes. The density of PNNs and the expression level of neurocan in the LR group were lower than the HR group. Moreover, the LR rats were more susceptible to depressive-like behaviors compared with HR rats. Altogether, these results suggest that the density of PNNs in the PrL is associated with depressive-like behaviors in young-aged rats, and it may serve as a potential endophenotype or therapeutic target for depression.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Decreased Density of Perineuronal Net in Prelimbic Cortex Is Linked to Depressive-Like Behavior in Young-Aged Rats

Chen

et al. 2020

Front. Mol. Neurosci.

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“…The lesions of the PFC can be caused by various reasons including trauma, surgical interventions, infections, toxins, chemicals, narcotic drugs, alcohol and chronic stress [32][33][34][35][36][37][38][39][40][41][42].…”

Section: Lesions Of the Prefrontal Cortexmentioning

confidence: 99%

“…Chronic stress slows down the maturation of PFC during the developmental period and affects its functions [40].…”

Section: Lesions Of the Prefrontal Cortexmentioning

confidence: 99%

The Prefrontal Cortex: A Basic Embryological, Histological, Anatomical, and Functional Guideline

2016

J Hum Anat Physiol

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The prefrontal cortex (PFC) unites, processes and controls the information coming from cortex and subcortical structures, and decides and executes goal-oriented behavior. A major function of PFC is to maintain the attention. Furthermore, it has many other functions including working memory, problem solving, graciousness, memory, and intellectuality. PFC is well developed in humans and localized to the anterior of the frontal lobe. This article presents a systematic review and detailed summary of embryology, histology, anatomy, functions and lesions of PFC.

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“…The remarkable adaptability of the human brain results from the interplay of both evolutionary and developmental mechanisms. Genetically determined developmental programs set up the stage upon which cortical circuits are sculpted by experience and learning, particularly during the sensitive periods of synaptic plasticity [1][2][3]. The primary auditory cortex is structurally mature as early as 28 weeks of gestation [4] and already responds electrically to sounds in the low-frequency range associated with speech [5,6].…”

Section: Introductionmentioning

confidence: 99%

Early exposure to environmental sounds and the development of cortical auditory evoked potentials of preterm infants during the first three months of life

Cavalcanti

Nunes

Cunha

et al. 2020

Preprint

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Objective: Preterm infants are exposed earlier than their term counterparts to unattenuated sounds from the external environment during the sensitive period of the organization of the auditory cortical circuitry. In the current study, we investigate the effect of preterm birth on the course of development of auditory cortical areas by evaluating how gestational age (GA) correlates with the latency of the P1 component of the cortical auditory evoked potential (CAEP) of two experimental groups measured at one or three months of age. Results: Our sample consisted of 23 infants delivered at GA ranging from 31.28-41.42 weeks and separated into two groups evaluated transversally at one or three months of corrected age (CA). In the group evaluated at one-month CA, the latency of the component P1 was similar in both terms and infants classified as late-preterm (GA>32 weeks). However, in the group evaluated at three months CA, P1 latency was significantly smaller in preterms. These preliminary results suggest an acceleration of the development of auditory cortical pathways in preterms, probably due to their early exposure to socially relevant auditory stimuli from the external environment.

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Effect of chronic stress during adolescence in prefrontal cortex structure and function

Cited by 36 publications

References 82 publications

Decreased Density of Perineuronal Net in Prelimbic Cortex Is Linked to Depressive-Like Behavior in Young-Aged Rats

Decreased Density of Perineuronal Net in Prelimbic Cortex Is Linked to Depressive-Like Behavior in Young-Aged Rats

The Prefrontal Cortex: A Basic Embryological, Histological, Anatomical, and Functional Guideline

Early exposure to environmental sounds and the development of cortical auditory evoked potentials of preterm infants during the first three months of life

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