I.I. Drebot scite author profile

SUMMARY The amygdala processes and directs inputs and outputs that are key to fear behavior. However, whether it directly senses fear-evoking stimuli is unknown. Because the amygdala expresses acid sensing ion channel-1a (ASIC1a), and ASIC1a is required for normal fear responses, we hypothesized that the amygdala might detect a reduced pH. We found that inhaled CO2 reduced brain pH and evoked fear behavior in mice. Eliminating or inhibiting ASIC1a markedly impaired this activity, and localized ASIC1a expression in the amygdala rescued the CO2- induced fear deficit of ASIC1a-null animals. Buffering pH attenuated fear behavior, whereas directly reducing pH with amygdala microinjections reproduced the effect of CO2. These data identify the amygdala as an important chemosensor that detects hypercarbia and acidosis and initiates behavioral responses. They also give a molecular explanation for how rising CO2 concentrations elicit intense fear and provide a foundation for dissecting the bases of anxiety and panic disorders.

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An unexpected effect of capsaicin on spontaneous GABA-ergic IPSCS in hippocampal cell cultures

Drebot

Storozhuk

Kostyuk

2006

Neurophysiology

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Vanilloid receptors 1 (VRs1) expressed in a subpopulation of sensory neurons and responsible for processing of chemical and thermal noxious stimuli were also shown to be expressed in several cerebral structures and to be involved in the regulation of glutamatergic synaptic transmission. In this study, we started to investigate the possibility that VRs1 are also involved in the regulation of GABA-ergic synaptic transmission. For this purpose, the effect of a VR1 agonist, capsaicin, on spontaneous GABA-ergic inhibitory postsynaptic currents (IPSCs) was studied in hippocampal cell cultures using a patch-clamp technique. It was found that capsaicin (10 µM) decreased both the frequency and amplitude of spontaneous IPSCs. This finding suggests the involvement of VRs1 in the regulation of neuronal firing in some GABA-ergic interneurons and in the modulation of the efficacy of GABA-ergic synaptic transmission. However, considering the direction of the effect (a decrease in the IPSC frequency) and lack of its desensitization, the involvement of other receptor(s) also cannot currently be ruled out.

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P56 Effect of Capsaicin on Spontaneous Gabaergic Ipscs in Hippocampal Cell Cultures

Drebot

Storozhuk

Kostuk

2006

Behavioural Pharmacology

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I.I. Drebot

The Amygdala Is a Chemosensor that Detects Carbon Dioxide and Acidosis to Elicit Fear Behavior

An unexpected effect of capsaicin on spontaneous GABA-ergic IPSCS in hippocampal cell cultures

P56 Effect of Capsaicin on Spontaneous Gabaergic Ipscs in Hippocampal Cell Cultures

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