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Serotonergic afferents from the dorsal raphe decrease the excitability of pyramidal neurons in the anterior piriform cortex

by Wang, Dejuan , Liu, Penglai , Jing, Siqi , Li, Anan , Zhang, Lingzhi , Du, Han , Jia, Fan , Wang, Xiaojie

in Animals / Biological Sciences / Calcium / Calcium channels / Dorsal Raphe Nucleus / Dorsal Raphe Nucleus - metabolism / Excitability / Information processing / Mice / Mice, Inbred C57BL / Mice, Transgenic / Modulation / Mood / Neurons / Neuroscience / Odor intensity / Odorants / Olfactory Bulb / Olfactory Bulb - physiology / Olfactory discrimination learning / Olfactory system / Optogenetics / Phospholipase / Phospholipase C / Photometry / Piriform Cortex / Piriform Cortex - cytology / Piriform Cortex - metabolism / Potassium channels / Pyramidal Cells / Pyramidal Cells - metabolism / Receptors / Sensory evaluation / Sensory integration / Serotonergic Neurons / Serotonergic Neurons - metabolism / Serotonin / Serotonin - genetics / Serotonin - metabolism / Serotonin S2 receptors / Smell / Somatosensory cortex

2020

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Serotonergic afferents from the dorsal raphe decrease the excitability of pyramidal neurons in the anterior piriform cortex

by Wang, Dejuan , Liu, Penglai , Jing, Siqi , Li, Anan , Zhang, Lingzhi , Du, Han , Jia, Fan , Wang, Xiaojie

2020

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Serotonergic afferents from the dorsal raphe decrease the excitability of pyramidal neurons in the anterior piriform cortex

by Wang, Dejuan , Liu, Penglai , Jing, Siqi , Li, Anan , Zhang, Lingzhi , Du, Han , Jia, Fan , Wang, Xiaojie

2020

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Journal Article

Serotonergic afferents from the dorsal raphe decrease the excitability of pyramidal neurons in the anterior piriform cortex

Wang, Dejuan,

Liu, Penglai,

Jing, Siqi,

Li, Anan,

Zhang, Lingzhi,

Du, Han,

Jia, Fan,

Wang, Xiaojie

2020

Overview

The olfactory system receives extensive serotonergic inputs from the dorsal raphe, a nucleus involved in control of behavior, regulation of mood, and modulation of sensory processing. Although many studies have investigated how serotonin modulates the olfactory bulb, few have focused on the anterior piriform cortex (aPC), a region important for olfactory learning and encoding of odor identity and intensity. Specifically, the mechanism and functional significance of serotonergic modulation of the aPC remain largely unknown. Here we used pharmacologic, optogenetic, and fiber photometry techniques to examine the serotonergic modulation of neural activity in the aPC in vitro and in vivo. We found that serotonin (5-HT) reduces the excitability of pyramidal neurons directly via 5-HT2C receptors, phospholipase C, and calcium-activated potassium (BK) channels. Furthermore, endogenous serotonin attenuates odor-evoked calcium responses in aPC pyramidal neurons. These findings identify the mechanism underlying serotonergic modulation of the aPC and shed light on its potential role.

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Publisher

National Academy of Sciences,Proceedings of the National Academy of Sciences

Subject

Animals

/ Biological Sciences

/ Calcium

/ Calcium channels

/ Dorsal Raphe Nucleus

/ Dorsal Raphe Nucleus - metabolism

/ Excitability