Stress and Sucrose Intake Modulate Neuronal Activity in the Anterior Hypothalamic Area in Rats.

Arojit Mitra,Geneviève Guèvremont,Elena Timofeeva

doi:10.1371/journal.pone.0156563

Arojit Mitra, Geneviève Guèvremont + Show 1 more

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https://doi.org/10.1371/journal.pone.0156563

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Abstract

The anterior hypothalamic area (AHA) is an important integrative relay structure for a variety of autonomic, endocrine, and behavioral responses including feeding behavior and response to stress. However, changes in the activity of the AHA neurons during stress and feeding in freely moving rats are not clear. The present study investigated the firing rate and burst activity of neurons in the central nucleus of the AHA (cAHA) during sucrose intake in non-stressful conditions and after acute stress in freely behaving rats. Rats were implanted with micro-electrodes into the cAHA, and extracellular multi-unit activity was recorded during 1-h access to 10% sucrose in non-stressful conditions or after acute foot shock stress. Acute stress significantly reduced sucrose intake, total sucrose lick number, and lick frequency in licking clusters, and increased inter-lick intervals. At the cluster start (CS) of sucrose licking, the cAHA neurons increased (CS-excited, 20% of the recorded neurons), decreased (CS-inhibited, 42% of the neurons) or did not change (CS-nonresponsive, 38% of the neurons) their firing rate. Stress resulted in a significant increase in the firing rate of the CS-inhibited neurons by decreasing inter-spike intervals within the burst firing of these neurons. This increase in the stress-induced firing rate of the CS-inhibited neurons was accompanied by a disruption of the correlation between the firing rate of CS-inhibited and CS-nonresponsive neurons that was observed in non-stressful conditions. Stress did not affect the firing rate of the CS-excited and CS-nonresponsive neurons. However, stress changed the pattern of burst firing of the CS-excited and CS-nonresponsive neurons by decreasing and increasing the burst number in the CS-excited and CS-nonresponsive neurons, respectively. These results suggest that the cAHA neurons integrate the signals related to stress and intake of palatable food and play a role in the stress- and eating-related circuitry.

Highlights

The anterior hypothalamic area (AHA) is located in the anterior medial zone of the hypothalamus
Acute stress resulted in a significant decrease in the consumption of sucrose, along with a decrease in the total number of licks and lick frequency within sucrose licking clusters
We demonstrated for the first time that the central nucleus of the AHA (cAHA) contains sucrose-responsive cluster start (CS)-excited and CS-inhibited neurons as well as CS-nonresponsive neurons

Summary

Introduction

The anterior hypothalamic area (AHA) is located in the anterior medial zone of the hypothalamus. Injection of an anterograde transsynaptic tracer into the LS revealed the presence of tracer-labeled neurons in the AHA and the parvocellular PVN, while direct optogenetic inhibition of the LS projections to the AHA decreased stressinduced corticosterone plasma levels [2]. These results suggest that the AHA can modulate the activity of the hypothalamic-pituitary-adrenal (HPA) axis via its effects on the PVN hypophysiotropic neurons

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