Ghrelin-responsive mediobasal hypothalamic neurons mediate exercise-associated food intake and exercise endurance
Omprakash Singh, … , Luis Leon Mercado, Jeffrey M. Zigman
Omprakash Singh, … , Luis Leon Mercado, Jeffrey M. Zigman
Published November 14, 2023
Citation Information: JCI Insight. 2023;8(24):e172549. https://doi.org/10.1172/jci.insight.172549.
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Research Article Metabolism Neuroscience

Ghrelin-responsive mediobasal hypothalamic neurons mediate exercise-associated food intake and exercise endurance

Abstract

Previous studies have implicated the orexigenic hormone ghrelin as a mediator of exercise endurance and the feeding response postexercise. Specifically, plasma ghrelin levels nearly double in mice when they are subjected to an hour-long bout of high-intensity interval exercise (HIIE) using treadmills. Also, growth hormone secretagogue receptor–null (GHSR-null) mice exhibit decreased food intake following HIIE and diminished running distance (time until exhaustion) during a longer, stepwise exercise endurance protocol. To investigate whether ghrelin-responsive mediobasal hypothalamus (MBH) neurons mediate these effects, we stereotaxically delivered the inhibitory designer receptor exclusively activated by designer drugs virus AAV2-hSyn-DIO-hM4(Gi)-mCherry to the MBH of Ghsr-IRES-Cre mice, which express Cre recombinase directed by the Ghsr promoter. We found that chemogenetic inhibition of GHSR-expressing MBH neurons (upon delivery of clozapine-N-oxide) 1) suppressed food intake following HIIE, 2) reduced maximum running distance and raised blood glucose and blood lactate levels during an exercise endurance protocol, 3) reduced food intake following ghrelin administration, and 4) did not affect glucose tolerance. Further, HIIE increased MBH Ghsr expression. These results indicate that activation of ghrelin-responsive MBH neurons is required for the normal feeding response to HIIE and the usual amount of running exhibited during an exercise endurance protocol.

Authors

Omprakash Singh, Sean B. Ogden, Salil Varshney, Kripa Shankar, Deepali Gupta, Subhojit Paul, Sherri Osborne-Lawrence, Corine P. Richard, Nathan P. Metzger, Connor Lawrence, Luis Leon Mercado, Jeffrey M. Zigman

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Figure 6

Overlap of nNOS- and Cre-dependent mCherry expression within the MBH of an hM4Di-injected Ghsr-IRES-Cre “hit.”

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Overlap of nNOS- and Cre-dependent mCherry expression within the MBH of ...
(AD) Low- and (EH) high-magnification confocal images of a coronal brain section (approximately –1.94 mm from bregma) from a representative Ghsr-IRES-Cre mouse correctly targeted with an injection of hM4Di into the MBH. This mouse was sacrificed at the time of exhaustion after having received CNO and then being submitted to the exercise endurance protocol schematized in Figure 5B. (A and E) nNOS immunoreactivity (green). (B and F) mCherry fluorescence (red). (C and G) Merged images to demonstrate coexpression of nNOS and mCherry (yellow). (D and H) Merged images with DAPI counterstain in blue. Arrows point to neurons that exclusively express mCherry (correctly targeted GHSR-expressing neurons). Arrowheads point to neurons that coexpress mCherry + nNOS. n = 3 cases analyzed. Scale bar in D = 100 μm and applies to AD. Scale bar in H = 100 μm and applies to EH.