Measuring oxytocin release in response to gavage: Computational modelling and assay validation

Shereen Hassan; Hala El Baradey; Mohamed Madi; Mohamed Shebl; Gareth Leng; Maja Lozic; Mike Ludwig; John Menzies; Duncan MacGregor

doi:10.1111/jne.13303

Measuring oxytocin release in response to gavage: Computational modelling and assay validation

Shereen Hassan, Hala El Baradey, Mohamed Madi, Mohamed Shebl, Gareth Leng^*, Maja Lozic, Mike Ludwig, John Menzies, Duncan MacGregor

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

In the present experiments, we tested the conclusion from previous electrophysiological experiments that gavage of sweet food and systemically applied insulin both stimulate oxytocin secretion. To do so, we measured oxytocin secretion from urethane-anaesthetised male rats, and demonstrated a significant increase in secretion in response to gavage of sweetened condensed milk but not isocaloric cream, and a significant increase in response to intravenous injection of insulin. We compared the measurements made in response to sweetened condensed milk with the predictions from a computational model, which we used to predict plasma concentrations of oxytocin from the published electrophysiological responses of oxytocin cells. The prediction from the computational model was very closely aligned to the levels of oxytocin measured in rats in response to gavage.

Original language	English
Article number	e13303
Journal	Journal of Neuroendocrinology
Volume	35
Issue number	6
Early online date	18 May 2023
DOIs	https://doi.org/10.1111/jne.13303
Publication status	Published - 29 Jun 2023

Keywords / Materials (for Non-textual outputs)

appetite
computational modelling
hypothalamus
immunoassay
supraoptic nucleus

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10.1111/jne.13303Licence: Creative Commons: Attribution (CC-BY)

J Neuroendocrinology - 2023 - Hassan - Measuring oxytocin release in response to gavage Computational modelling and assayFinal published version, 2.34 MBLicence: Creative Commons: Attribution (CC-BY)

Cite this

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title = "Measuring oxytocin release in response to gavage: Computational modelling and assay validation",

abstract = "In the present experiments, we tested the conclusion from previous electrophysiological experiments that gavage of sweet food and systemically applied insulin both stimulate oxytocin secretion. To do so, we measured oxytocin secretion from urethane-anaesthetised male rats, and demonstrated a significant increase in secretion in response to gavage of sweetened condensed milk but not isocaloric cream, and a significant increase in response to intravenous injection of insulin. We compared the measurements made in response to sweetened condensed milk with the predictions from a computational model, which we used to predict plasma concentrations of oxytocin from the published electrophysiological responses of oxytocin cells. The prediction from the computational model was very closely aligned to the levels of oxytocin measured in rats in response to gavage.",

keywords = "appetite, computational modelling, hypothalamus, immunoassay, supraoptic nucleus",

author = "Shereen Hassan and \{El Baradey\}, Hala and Mohamed Madi and Mohamed Shebl and Gareth Leng and Maja Lozic and Mike Ludwig and John Menzies and Duncan MacGregor",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors. Journal of Neuroendocrinology published by John Wiley \& Sons Ltd on behalf of British Society for Neuroendocrinology.",

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doi = "10.1111/jne.13303",

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T1 - Measuring oxytocin release in response to gavage

T2 - Computational modelling and assay validation

AU - Hassan, Shereen

AU - El Baradey, Hala

AU - Madi, Mohamed

AU - Shebl, Mohamed

AU - Leng, Gareth

AU - Lozic, Maja

AU - Ludwig, Mike

AU - Menzies, John

AU - MacGregor, Duncan

PY - 2023/6/29

Y1 - 2023/6/29

N2 - In the present experiments, we tested the conclusion from previous electrophysiological experiments that gavage of sweet food and systemically applied insulin both stimulate oxytocin secretion. To do so, we measured oxytocin secretion from urethane-anaesthetised male rats, and demonstrated a significant increase in secretion in response to gavage of sweetened condensed milk but not isocaloric cream, and a significant increase in response to intravenous injection of insulin. We compared the measurements made in response to sweetened condensed milk with the predictions from a computational model, which we used to predict plasma concentrations of oxytocin from the published electrophysiological responses of oxytocin cells. The prediction from the computational model was very closely aligned to the levels of oxytocin measured in rats in response to gavage.

AB - In the present experiments, we tested the conclusion from previous electrophysiological experiments that gavage of sweet food and systemically applied insulin both stimulate oxytocin secretion. To do so, we measured oxytocin secretion from urethane-anaesthetised male rats, and demonstrated a significant increase in secretion in response to gavage of sweetened condensed milk but not isocaloric cream, and a significant increase in response to intravenous injection of insulin. We compared the measurements made in response to sweetened condensed milk with the predictions from a computational model, which we used to predict plasma concentrations of oxytocin from the published electrophysiological responses of oxytocin cells. The prediction from the computational model was very closely aligned to the levels of oxytocin measured in rats in response to gavage.

KW - appetite

KW - computational modelling

KW - hypothalamus

KW - immunoassay

KW - supraoptic nucleus

UR - https://www.scopus.com/pages/publications/85161889325

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DO - 10.1111/jne.13303

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M1 - e13303

ER -

Measuring oxytocin release in response to gavage: Computational modelling and assay validation

Abstract

Keywords / Materials (for Non-textual outputs)

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