The Rat Ventromedial Prefrontal Cortex in the Neural Circuitries of Depression and Sleep

Chang, Celene Hyunju

26 September 2013

Major depressive disorder (MDD) is a debilitating disorder affecting hundreds of millions of people worldwide. The etiology of the disease is unknown, and how antidepressant medications reverse depression is unclear. However, imaging and postmortem studies of MDD patients show abnormalities in several limbic areas of the brain, including the prefrontal cortex. The involvement of the ventromedial prefrontal cortex (vmPFC) in depression has been particularly intriguing, for this region demonstrates reduced metabolic activity in remission, and this reduction is unique to treatment responders. In addition, deep brain stimulation targeting the subgenual cingulate cortex in the vmPFC has been shown to be effective in treating 'treatment-resistant' patients. Furthermore, neuroanatomical studies have shown that this region projects to many downstream limbic areas implicated to play roles in MDD. I therefore hypothesized that 1) the vmPFC may be an important target of antidepressant drugs, and that 2) this region may play a role in the generation of depression-associated behaviors. To test the first hypothesis, I administered desipramine (DMI), a tricyclic antidepressant, to rats. I found that the rat vmPFC was significantly activated by DMI, whereas the dorsomedial PFC (dmPFC) was not. I also found that the drug increases neuronal activity in the nucleus accumbens, but this activation was dependent on the integrity of the vmPFC. To test the second hypothesis, I induced neuronal lesions in the rat dmPFC or vmPFC and subjected the animals to behavioral tests. I found that while lesions in both areas led to increased REM sleep, only vmPFC-lesioned animals had reduced REM latency, increased sleep fragmentation and increased forced swim test immobility. Together, these results demonstrate that the vmPFC may be an important region for both antidepressant action and the generation of depression-like behaviors.

Neurosciences

depression

desipramine

sleep

ventromedial prefrontal cortex

Effects of Desipramine Treatment on Stress-Induced up-Regulation of Norepinephrine Transporter Expression in Rat Brains

Fan, Yan, Chen, Ping, Li, Ying, Ordway, Gregory A., Zhu, Meng Yang

01 January 2015

Rationale Many studies demonstrate down-regulation of the norepinephrine transporter (NET) by desipramine (DMI) in vitro and in stress-naive rats. Little is known regarding regulation of the NET in stressed animals. Objective The present study was designed to investigate effects of DMI on the expression of NET and protein kinases in the stress rat. Methods Adult Fischer 344 rats were subjected to chronic social defeat (CSD) for 4 weeks. DMI (10 mg/kg, intraperitoneal (i.p.)) was administered concurrently with CSD or 1 or 2 weeks after cessation of CSD. Sucrose consumption, NET expression, and protein kinases were measured. Results CSD significantly increased messenger RNA (mRNA) and protein levels of NET in the locus coeruleus, as well as NET protein levels in the hippocampus, frontal cortex, and amygdala. These effects were nearly abolished when DMI was administered concurrently with CSD. CSD-induced upregulation of NET expression in the locus coeruleus, hippocampus, and amygdala lasted at least 2 weeks after cessation of CSD, an effect that was significantly attenuated by 1 or 2 weeks of DMI treatment starting from cessation of the CSD. Concurrent administration of DMI with CSD did not markedly interfere with CSD-induced decreases in protein levels of protein kinases A and C in these brain regions, but it did reverse the CSD-induced reduction in phosphorylated cAMP response element-binding (pCREB) protein levels in most brain regions. Conclusion These findings suggest that NET regulation by DMI occurs in both stressed and behaviorally naive rats, and DMI-induced changes in pCREB may be involved.

anti-depressants

desipramine

fluoxetine

locus coeruleus

norepinephrine transporter

rat brain

Biomedical Sciences

Environmental Health

AQUAPORIN 4 EXPRESSION AND DISTRIBUTION DURING OSMOTIC BRAIN EDEMA AND FOLLOWING CHRONIC TREATMENT OF DESIPRAMINE

Robinson, Sergei Alexander

24 August 2011

No description available.

Neurosciences

AQP4

aquaporin 4

BBB

blood-brain barrier

TCA

desipramine

astrocytes

water permeability

Participação da metilação de DNA no desenvolvimento de alterações comportamentais e moleculares induzidas pelo estresse / Involvement of DNA methylation in behavioral and molecular changes induced by stress

Amanda Juliana Sales

13 September 2018

Introdução: Mecanismos epigenéticos, como a metilação de DNA, desempenham um papel importante na neurobiologia da depressão. Enquanto o estresse aumenta a metilação de DNA e reduz a expressão de genes envolvidos na plasticidade neuronial, inibidores de DNA metiltransferases (DNMTi), enzimas que catalisam a metilação de DNA, aumentam rapidamente a expressão gênica e induzem efeitos tipo-antidepressivos em modelos animais. Considerando, ainda, que antidepressivos convencionais podem interferir com mecanismos epigenéticos, este trabalho testou a hipótese de que drogas DNMTi induzem efeito tipo-antidepressivo agudo e sustentado em modelos animais. Além disso, avaliamos se o efeito de antidepressivos convencionais e de DNMTis sobre os níveis de mRNA e de metilação de DNA em diferentes genes associados a depressão e regulados por mecanismos epigenéticos (BDNF, TrkB, 5-HT1A, NMDA e AMPA) em estruturas encefálicas (hipocampo dorsal, ventral e córtex pré-frontal) de animais submetidos a modelo animal de depressão. Métodos: Para tanto, ratos Wistar foram submetidos ao modelo do desamparo aprenddo [learned helplessness, LH, pré-teste (PT), 40 choques inescapáveis nas patas]. Os animais receberam injeções sistêmicas de DNMTi (5-AzaD ou RG108), antidepressivos (imipramina ou fluoxetina), ou veículo, por 1 ou 7 dias, e foram submetidos a sessão teste do desamparo aprendido (T, 30 choques escapáveis) no último dia. Adicionalmente, um grupo independente foi submetido ao mesmo protocolo experimental e sacrificados 1 h após a última injeção. As estruturas encefálicas foram dissecadas para posterior análise molecular [imunoprecipitação de DNA metilado (meDIP) e quantificação de RNAm por qRT-PCR). Resultados: O estresse dos choques nas patas aumentou o número de falhas no teste. O tratamento com DNMTi agudamente, assim como com antidepressivos (tratamento repetido), foi capaz de atenuar essas alterações comportamentais, efeito considerado tipo-antidepressivo nesse modelo. Ainda, o estresse aumentou a metilação de DNA e reduziu os níveis de RNAm para BDNF e TrkB, enquanto que o tratamento com RG108 atenuou essas alterações moleculares no córtex pré-frontal de ratos. Conclusão: Os presentes resultados indicam que DNMTi, diferente de antidepressivos convencionais, são capazes de induzir rápido e sustentado efeito tipo-antidepressivo. Além disso, BDNF e TrkB parecem ser importantes para a resposta comportamental induzida pela inibição de DNMTs no córtex pré-frontal de ratos submetidos ao LH. / Introduction: Epigenetic mechanisms, such as DNA methylation, are thought to play an important role in the neurobiology of depression. While stress increases DNA methylation and decreases the expression of genes involved in neuronal plasticity, DNA methyltransferases inhibitors (DNMTi) increases gene expression and induces antidepressant-like effects in animal models. Considering that conventional antidepressants could interfere with epigenetic mechanisms, this work tested the hypothesis that acute treatment with DNMTi would induce acute and long-lasting antidepressant-like effects. Furthermore, we evaluated whether the stress could induce changes in the mRNA and DNA methylation levels in different genes involved with depression and regulated by epigenetic mechanisms (BDNF, TrkB, 5-HT1A, NMDA and AMPA) in different brain structures [dorsal hippocampus, ventral hippocampus and prefrontal cortex (PFC)] and whether such changes would be attenuated by systemic treatment with DNMTi (acutely) and antidepressants (chronically). Methods: Male Wistar rats were submitted to the learned helplessness model (LH; pretest session, 40 inescapable foot shocks). The animals received systemic injection the DNMTi (5-AzaD or RG108), antidepressants (imipramine or fluoxetine) or vehicle for one or seven days and were submitted to the LH test (30 escapable foot shocks) in the last day. Additionally, one independent group were submitted to the same experimental protocol and sacrificed one hour after last injection for collection of brain samples to further molecular analyses (methylated DNA immunopreciptation and mRNA levels by qRT-PCR). Results: Exposure to inescapable footshocks increased the number of escape failures in the test. Treatment with DNMTi (acute), as well as with antidepressants (repeated treatment), attenuated stress-induced behavioral responses, an antidepressant-like effect in this model. Moroever, stress increased DNA methylation and decreased RNAm levels of BDNF and TrkB, while treatment with RG108 attenuated molecular changes induced by stress in rat PFC. Conclusion: The present results indicate that DNMTi, different from conventional antidepressants, are able to induce rapid and sustained antidepressant-like effects. In addition, BDNF and TrkB appear to be important for behavioral response induced by inhibition of DNMTs in the rat PFC submitted to the LH.

5-AzaD

antidepressivo

DNMT

fluoxetina

imipramina

metilação do DNA

RG108

RNAm

5-AzaD

antidepressant

desipramine

DNA methylation

DNMT

fluoxetine

imipramine

RG108

Participação da metilação de DNA no desenvolvimento de alterações comportamentais e moleculares induzidas pelo estresse / Involvement of DNA methylation in behavioral and molecular changes induced by stress

Sales, Amanda Juliana

13 September 2018

Introdução: Mecanismos epigenéticos, como a metilação de DNA, desempenham um papel importante na neurobiologia da depressão. Enquanto o estresse aumenta a metilação de DNA e reduz a expressão de genes envolvidos na plasticidade neuronial, inibidores de DNA metiltransferases (DNMTi), enzimas que catalisam a metilação de DNA, aumentam rapidamente a expressão gênica e induzem efeitos tipo-antidepressivos em modelos animais. Considerando, ainda, que antidepressivos convencionais podem interferir com mecanismos epigenéticos, este trabalho testou a hipótese de que drogas DNMTi induzem efeito tipo-antidepressivo agudo e sustentado em modelos animais. Além disso, avaliamos se o efeito de antidepressivos convencionais e de DNMTis sobre os níveis de mRNA e de metilação de DNA em diferentes genes associados a depressão e regulados por mecanismos epigenéticos (BDNF, TrkB, 5-HT1A, NMDA e AMPA) em estruturas encefálicas (hipocampo dorsal, ventral e córtex pré-frontal) de animais submetidos a modelo animal de depressão. Métodos: Para tanto, ratos Wistar foram submetidos ao modelo do desamparo aprenddo [learned helplessness, LH, pré-teste (PT), 40 choques inescapáveis nas patas]. Os animais receberam injeções sistêmicas de DNMTi (5-AzaD ou RG108), antidepressivos (imipramina ou fluoxetina), ou veículo, por 1 ou 7 dias, e foram submetidos a sessão teste do desamparo aprendido (T, 30 choques escapáveis) no último dia. Adicionalmente, um grupo independente foi submetido ao mesmo protocolo experimental e sacrificados 1 h após a última injeção. As estruturas encefálicas foram dissecadas para posterior análise molecular [imunoprecipitação de DNA metilado (meDIP) e quantificação de RNAm por qRT-PCR). Resultados: O estresse dos choques nas patas aumentou o número de falhas no teste. O tratamento com DNMTi agudamente, assim como com antidepressivos (tratamento repetido), foi capaz de atenuar essas alterações comportamentais, efeito considerado tipo-antidepressivo nesse modelo. Ainda, o estresse aumentou a metilação de DNA e reduziu os níveis de RNAm para BDNF e TrkB, enquanto que o tratamento com RG108 atenuou essas alterações moleculares no córtex pré-frontal de ratos. Conclusão: Os presentes resultados indicam que DNMTi, diferente de antidepressivos convencionais, são capazes de induzir rápido e sustentado efeito tipo-antidepressivo. Além disso, BDNF e TrkB parecem ser importantes para a resposta comportamental induzida pela inibição de DNMTs no córtex pré-frontal de ratos submetidos ao LH. / Introduction: Epigenetic mechanisms, such as DNA methylation, are thought to play an important role in the neurobiology of depression. While stress increases DNA methylation and decreases the expression of genes involved in neuronal plasticity, DNA methyltransferases inhibitors (DNMTi) increases gene expression and induces antidepressant-like effects in animal models. Considering that conventional antidepressants could interfere with epigenetic mechanisms, this work tested the hypothesis that acute treatment with DNMTi would induce acute and long-lasting antidepressant-like effects. Furthermore, we evaluated whether the stress could induce changes in the mRNA and DNA methylation levels in different genes involved with depression and regulated by epigenetic mechanisms (BDNF, TrkB, 5-HT1A, NMDA and AMPA) in different brain structures [dorsal hippocampus, ventral hippocampus and prefrontal cortex (PFC)] and whether such changes would be attenuated by systemic treatment with DNMTi (acutely) and antidepressants (chronically). Methods: Male Wistar rats were submitted to the learned helplessness model (LH; pretest session, 40 inescapable foot shocks). The animals received systemic injection the DNMTi (5-AzaD or RG108), antidepressants (imipramine or fluoxetine) or vehicle for one or seven days and were submitted to the LH test (30 escapable foot shocks) in the last day. Additionally, one independent group were submitted to the same experimental protocol and sacrificed one hour after last injection for collection of brain samples to further molecular analyses (methylated DNA immunopreciptation and mRNA levels by qRT-PCR). Results: Exposure to inescapable footshocks increased the number of escape failures in the test. Treatment with DNMTi (acute), as well as with antidepressants (repeated treatment), attenuated stress-induced behavioral responses, an antidepressant-like effect in this model. Moroever, stress increased DNA methylation and decreased RNAm levels of BDNF and TrkB, while treatment with RG108 attenuated molecular changes induced by stress in rat PFC. Conclusion: The present results indicate that DNMTi, different from conventional antidepressants, are able to induce rapid and sustained antidepressant-like effects. In addition, BDNF and TrkB appear to be important for behavioral response induced by inhibition of DNMTs in the rat PFC submitted to the LH.

5-AzaD

5-AzaD

antidepressant

antidepressivo

desipramine

DNA methylation

DNMT

DNMT

fluoxetina

fluoxetine

imipramina

imipramine

metilação do DNA

RG108

RG108

RNAm