FRI276 KNDy-Neuron Kisspeptin Is Dispensable For Feeding Behavior, But Critical For Energy Expenditure Leading To Metabolic Dysfunction In Female Mice

Disclosure: N. Nandankar: None. H. Ganesh: None. A.L. Negron: None. S. Al-Samerria: None. J.E. Levine: None. S. Radovick: None. Hypothalamic kisspeptin (Kiss1) is a critical master regulator of the hypothalamic-pituitary-gonadal axis responsible for reproductive development and function. Kiss1, orig...

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Autores principales: Nandankar, Nimisha, Ganesh, Harshini, Negron, Ariel L, Al-Samerria, Sarmed, Levine, Jon E, Radovick, Sally
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2023
Materias:
Neuroendocrinology & Pituitary
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10555847/
http://dx.doi.org/10.1210/jendso/bvad114.1211
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author Nandankar, Nimisha
Ganesh, Harshini
Negron, Ariel L
Al-Samerria, Sarmed
Levine, Jon E
Radovick, Sally
author_facet Nandankar, Nimisha
Ganesh, Harshini
Negron, Ariel L
Al-Samerria, Sarmed
Levine, Jon E
Radovick, Sally
author_sort Nandankar, Nimisha
collection PubMed
description Disclosure: N. Nandankar: None. H. Ganesh: None. A.L. Negron: None. S. Al-Samerria: None. J.E. Levine: None. S. Radovick: None. Hypothalamic kisspeptin (Kiss1) is a critical master regulator of the hypothalamic-pituitary-gonadal axis responsible for reproductive development and function. Kiss1, originating from KNDy neurons in the arcuate nucleus (ARC) of the hypothalamus, is implicated in having a dual role in both reproductive and metabolic functions. Using KNDy neuron-specific Kiss1 KO mice (Pdyn-Cre/Kiss(fl/fl) or KO), we explored the role of Kiss1 from KNDy neurons in peripheral metabolism without dietary intervention. Here, we report that KO females have significantly greater body weight, fat mass, and glucose intolerance vs. control females. Interestingly, these parameters did not differ between KO male mice and controls. To determine whether this phenotype was due to dysregulated feeding behavior (i.e., hyperphagia) in KO mice, we tracked daily food consumption in adult mice for 3 weeks. We found no significant differences in food intake between genotypes of either sex. We used the Comprehensive Laboratory Animal Monitoring System (CLAMS, Columbus Instruments) to analyze energy expenditure in our mouse model. Data from the CLAMS experiments revealed reduced energy expenditure in KO females vs. control females, whereas there was no difference in energy expenditure between KO males and control males. Specifically, the respiratory exchange ratio (RER) was not significantly different in KO females vs. control females, indicating that both groups utilize both carbohydrates and fats as their primary energy source. However, heat expenditure was significantly lower in KO females (20.27 ± 2.29 kcal/kg/hr vs. 14.02 ± 1.18 kcal/kg/hr, WT vs. KO, p < 0.0001, 2-way ANOVA, n = 6-7) during the active dark phase, suggesting a decreased energy expenditure. This data suggests that the obesity and impaired glucose tolerance in females lacking Kiss1 from KNDy neurons is likely due to lower energy expenditure (with the expended energy derived from both carbohydrates and fats), rather than hyperphagic behavior. Presentation: Friday, June 16, 2023
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spelling pubmed-105558472023-10-07 FRI276 KNDy-Neuron Kisspeptin Is Dispensable For Feeding Behavior, But Critical For Energy Expenditure Leading To Metabolic Dysfunction In Female Mice Nandankar, Nimisha Ganesh, Harshini Negron, Ariel L Al-Samerria, Sarmed Levine, Jon E Radovick, Sally J Endocr Soc Neuroendocrinology & Pituitary Disclosure: N. Nandankar: None. H. Ganesh: None. A.L. Negron: None. S. Al-Samerria: None. J.E. Levine: None. S. Radovick: None. Hypothalamic kisspeptin (Kiss1) is a critical master regulator of the hypothalamic-pituitary-gonadal axis responsible for reproductive development and function. Kiss1, originating from KNDy neurons in the arcuate nucleus (ARC) of the hypothalamus, is implicated in having a dual role in both reproductive and metabolic functions. Using KNDy neuron-specific Kiss1 KO mice (Pdyn-Cre/Kiss(fl/fl) or KO), we explored the role of Kiss1 from KNDy neurons in peripheral metabolism without dietary intervention. Here, we report that KO females have significantly greater body weight, fat mass, and glucose intolerance vs. control females. Interestingly, these parameters did not differ between KO male mice and controls. To determine whether this phenotype was due to dysregulated feeding behavior (i.e., hyperphagia) in KO mice, we tracked daily food consumption in adult mice for 3 weeks. We found no significant differences in food intake between genotypes of either sex. We used the Comprehensive Laboratory Animal Monitoring System (CLAMS, Columbus Instruments) to analyze energy expenditure in our mouse model. Data from the CLAMS experiments revealed reduced energy expenditure in KO females vs. control females, whereas there was no difference in energy expenditure between KO males and control males. Specifically, the respiratory exchange ratio (RER) was not significantly different in KO females vs. control females, indicating that both groups utilize both carbohydrates and fats as their primary energy source. However, heat expenditure was significantly lower in KO females (20.27 ± 2.29 kcal/kg/hr vs. 14.02 ± 1.18 kcal/kg/hr, WT vs. KO, p < 0.0001, 2-way ANOVA, n = 6-7) during the active dark phase, suggesting a decreased energy expenditure. This data suggests that the obesity and impaired glucose tolerance in females lacking Kiss1 from KNDy neurons is likely due to lower energy expenditure (with the expended energy derived from both carbohydrates and fats), rather than hyperphagic behavior. Presentation: Friday, June 16, 2023 Oxford University Press 2023-10-05 /pmc/articles/PMC10555847/ http://dx.doi.org/10.1210/jendso/bvad114.1211 Text en © The Author(s) 2023. Published by Oxford University Press on behalf of the Endocrine Society. https://creativecommons.org/licenses/by-nc-nd/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs licence (https://creativecommons.org/licenses/by-nc-nd/4.0/), which permits non-commercial reproduction and distribution of the work, in any medium, provided the original work is not altered or transformed in any way, and that the work is properly cited. For commercial re-use, please contact journals.permissions@oup.com
spellingShingle Neuroendocrinology & Pituitary
Nandankar, Nimisha
Ganesh, Harshini
Negron, Ariel L
Al-Samerria, Sarmed
Levine, Jon E
Radovick, Sally
FRI276 KNDy-Neuron Kisspeptin Is Dispensable For Feeding Behavior, But Critical For Energy Expenditure Leading To Metabolic Dysfunction In Female Mice
title FRI276 KNDy-Neuron Kisspeptin Is Dispensable For Feeding Behavior, But Critical For Energy Expenditure Leading To Metabolic Dysfunction In Female Mice
title_full FRI276 KNDy-Neuron Kisspeptin Is Dispensable For Feeding Behavior, But Critical For Energy Expenditure Leading To Metabolic Dysfunction In Female Mice
title_fullStr FRI276 KNDy-Neuron Kisspeptin Is Dispensable For Feeding Behavior, But Critical For Energy Expenditure Leading To Metabolic Dysfunction In Female Mice
title_full_unstemmed FRI276 KNDy-Neuron Kisspeptin Is Dispensable For Feeding Behavior, But Critical For Energy Expenditure Leading To Metabolic Dysfunction In Female Mice
title_short FRI276 KNDy-Neuron Kisspeptin Is Dispensable For Feeding Behavior, But Critical For Energy Expenditure Leading To Metabolic Dysfunction In Female Mice
title_sort fri276 kndy-neuron kisspeptin is dispensable for feeding behavior, but critical for energy expenditure leading to metabolic dysfunction in female mice
topic Neuroendocrinology & Pituitary
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10555847/
http://dx.doi.org/10.1210/jendso/bvad114.1211
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