Gyuryang Heo scite author profile

The lateral septum (LS) is a forebrain structure that has been implicated in a wide range of behavioral and physiological responses to stress. However, the specific populations of neurons in the LS that mediate stress responses remain incompletely understood. Here, we show that neurons in the dorsal lateral septum (LSd) that express the somatostatin gene (hereafter, LSd Sst neurons) are activated by diverse stressors. Retrograde tracing from LSd Sst neurons revealed that these neurons are directly innervated by neurons in the locus coeruleus (LC), the primary source of norepinephrine well-known to mediate diverse stress-related functions in the brain. Consistently, we found that norepinephrine increased excitatory synaptic transmission onto LSd Sst neurons, suggesting the functional connectivity between LSd Sst neurons and LC noradrenergic neurons. However, optogenetic stimulation of LSd Sst neurons did not affect stress-related behaviors or autonomic functions, likely owing to the functional heterogeneity within this population. Together, our findings show that LSd Sst neurons are activated by diverse stressors and suggest that norepinephrine released from the LC may modulate the activity of LSd Sst neurons under stressful circumstances.

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Cell-type specific role of the ventral pallidum and subthalamic nucleus circuitry in locomotion and behavior

Ahn

Heo

Jung

et al. 2019

IBRO Reports

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A neural circuit mechanism for monitoring and controlling ingestion

Kim

Heo

et al. 2019

IBRO Reports

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A hypothalamic circuit for behavioral thermoregulation

et al. 2019

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Gyuryang Heo

A neural circuit mechanism for mechanosensory feedback control of ingestion

Neural signalling of gut mechanosensation in ingestive and digestive processes

A forebrain neural substrate for behavioral thermoregulation

Lateral Septum Somatostatin Neurons are Activated by Diverse Stressors

Cell-type specific role of the ventral pallidum and subthalamic nucleus circuitry in locomotion and behavior

A neural circuit mechanism for monitoring and controlling ingestion

A hypothalamic circuit for behavioral thermoregulation

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