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1.
Biol Psychiatry ; 87(10): 926-936, 2020 05 15.
Artigo em Inglês | MEDLINE | ID: mdl-31889536

RESUMO

BACKGROUND: Anxiety disorders are the most common psychiatric diseases, affecting 28% of people worldwide within their lifetime. The excitation-inhibition imbalance in the amygdala is thought to be an underlying pathological mechanism; however, the cellular and molecular control of amygdala excitation-inhibition balance is largely unknown. METHODS: By using mice expressing chemogenetic activator or inhibitor channel in amygdala parvalbumin (PV) neurons, Erbin mutant mice, and mice with Erbin specifically knocked down in amygdala PV neurons, we systematically investigated the role of amygdala PV neurons and Erbin expressed therein in the pathogenesis of anxiety disorders using the combined approaches of immunohistochemistry, electrophysiology, and behavior. RESULTS: In naïve mice, chemogenetic inhibition of PV neurons produced anxiogenic effects, suggesting an essential role in the regulation of anxiety. In stressed mice with anxiety, excitatory postsynaptic responses on amygdala PV neurons were selectively diminished, accompanied by a decreased expression of Erbin specifically in amygdala PV neurons. Remarkably, both Erbin mutant mice and amygdala PV-specific Erbin knockdown mice exhibited impaired excitatory postsynaptic responses on amygdala PV neurons and increased anxiety-like behaviors. Furthermore, chemogenetic activation of amygdala PV neurons normalized anxiety behaviors in amygdala PV-specific Erbin knockdown mice and stressed mice. CONCLUSIONS: Together, these results demonstrate that Erbin in PV neurons is critical for maintaining the excitation-inhibition balance in the amygdala and reveal a novel pathophysiological mechanism for anxiety disorders.


Assuntos
Tonsila do Cerebelo , Parvalbuminas , Tonsila do Cerebelo/metabolismo , Animais , Ansiedade , Camundongos , Neurônios/metabolismo , Parvalbuminas/metabolismo
2.
Biochem Biophys Res Commun ; 354(2): 505-10, 2007 Mar 09.
Artigo em Inglês | MEDLINE | ID: mdl-17250808

RESUMO

Neuregulin-1 (NRG1) plays an important role in neural development, synapse formation, and synaptic plasticity by activating ErbB receptor tyrosine kinases. Although ligand-induced endocytosis has been shown to be important for many receptor tyrosine kinases, whether NRG1 signaling depends on ErbB endocytosis remains controversial. Here, we provide evidence that ErbB4, a prominent ErbB protein in the brain, becomes internalized in NRG1-stimulated neurons. The induced ErbB4 endocytosis requires its kinase activity. Remarkably, inhibition of ErbB endocytosis attenuates NRG1-induced activation of Erk and Akt in neurons. These observations indicate a role of ErbB endocytosis in NRG1 signaling in neurons.


Assuntos
Endocitose/fisiologia , Receptores ErbB/metabolismo , Neuregulina-1/fisiologia , Neurônios/metabolismo , Transdução de Sinais/fisiologia , Animais , Células Cultivadas , Glicoproteínas/metabolismo , Neurônios/fisiologia , Ratos , Receptor ErbB-2 , Receptor ErbB-4
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