Asperuloside Enhances Taste Perception and Prevents Weight Gain in High-Fat Fed Mice

Muhammad Ishaq; Duyen Tran; Yijia Wu; Krzysztof Nowak; Bianca J. Deans; Joycelin Tan Zhu Xin; Hui Lin Loh; Wen Ying Ng; Chin Wen Yee; Benjamin Southam; Silvia Vicenzi; Cameron Randall; Cheng Yang; Ee Tan; Manideepika Pasupuleti; Avneet Kaur Grewal; Tauseef Ahmad; Madhur Shastri; Carmelo Vicario; Maurizio Ronci; Mariachiara Zuccarini; Martin Bleasel; Paul Scowen; William Raffaeli; Gianvicenzo D’Andrea; Dinesh Kumar Chellappan; Glenn Jacobson; Alex C. Bissember; Jason A. Smith; Raj Eri; Juan Canales; Miguel Iglesias; Nuri Guven; Vanni Caruso

doi:10.3389/fendo.2021.615446

Asperuloside Enhances Taste Perception and Prevents Weight Gain in High-Fat Fed Mice

Muhammad Ishaq
, Duyen Tran
, Yijia Wu
, Krzysztof Nowak
, Bianca J. Deans
, Joycelin Tan Zhu Xin
, Hui Lin Loh
, Wen Ying Ng
, Chin Wen Yee
, Benjamin Southam
, Silvia Vicenzi
, Cameron Randall
, Cheng Yang
, Ee Tan
, Manideepika Pasupuleti
, Avneet Kaur Grewal
, Tauseef Ahmad
, Madhur Shastri
, Carmelo Vicario
, Maurizio Ronci

Mariachiara Zuccarini, Martin Bleasel, Paul Scowen, William Raffaeli, Gianvicenzo D’Andrea, Dinesh Kumar Chellappan, Glenn Jacobson, Alex C. Bissember, Jason A. Smith, Raj Eri, Juan Canales, Miguel Iglesias, Nuri Guven, Vanni Caruso

University of Tasmania
International Medical University
University of Messina
Gabriele d'Annunzio University
Istituto di Formazione e Ricerca in Scienze Algologiche (ISAL)

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

14 Scopus citations

Abstract

Asperuloside is an iridoid glycoside found in many medicinal plants that has produced promising anti-obesity results in animal models. In previous studies, three months of asperuloside administration reduced food intake, body weight, and adipose masses in rats consuming a high fat diet (HFD). However, the mechanisms by which asperuloside exerts its anti-obesity properties were not clarified. Here, we investigated homeostatic and nutrient-sensing mechanisms regulating food intake in mice consuming HFD. We confirmed the anti-obesity properties of asperuloside and, importantly, we identified some mechanisms that could be responsible for its therapeutic effect. Asperuloside reduced body weight and food intake in mice consuming HFD by 10.5 and 12.8% respectively, with no effect on mice eating a standard chow diet. Fasting glucose and plasma insulin were also significantly reduced. Mechanistically, asperuloside significantly reduced hypothalamic mRNA ghrelin, leptin, and pro-opiomelanocortin in mice consuming HFD. The expression of fat lingual receptors (CD36, FFAR1-4), CB1R and sweet lingual receptors (TAS1R2-3) was increased almost 2-fold by the administration of asperuloside. Our findings suggest that asperuloside might exert its therapeutic effects by altering nutrient-sensing receptors in the oral cavity as well as hypothalamic receptors involved in food intake when mice are exposed to obesogenic diets. This signaling pathway is known to influence the subtle hypothalamic equilibrium between energy homeostasis and reward-induced overeating responses. The present pre-clinical study demonstrated that targeting the gustatory system through asperuloside administration could represent a promising and effective new anti-obesity strategy.

Original language	English
Article number	615446
Journal	Frontiers in Endocrinology
Volume	12
DOIs	https://doi.org/10.3389/fendo.2021.615446
State	Published - 13 Apr 2021
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

CD36
FFAR1-4
TAS1R2-3
asperuloside
cannabinoid (CB) receptor 1
food intake
nutrient-sensing mechanisms
weight loss

Access to Document

10.3389/fendo.2021.615446

Cite this

Ishaq, M., Tran, D., Wu, Y., Nowak, K., Deans, B. J., Xin, J. T. Z., Loh, H. L., Ng, W. Y., Yee, C. W., Southam, B., Vicenzi, S., Randall, C., Yang, C., Tan, E., Pasupuleti, M., Grewal, A. K., Ahmad, T., Shastri, M., Vicario, C., ... Caruso, V. (2021). Asperuloside Enhances Taste Perception and Prevents Weight Gain in High-Fat Fed Mice. Frontiers in Endocrinology, 12, Article 615446. https://doi.org/10.3389/fendo.2021.615446

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title = "Asperuloside Enhances Taste Perception and Prevents Weight Gain in High-Fat Fed Mice",

abstract = "Asperuloside is an iridoid glycoside found in many medicinal plants that has produced promising anti-obesity results in animal models. In previous studies, three months of asperuloside administration reduced food intake, body weight, and adipose masses in rats consuming a high fat diet (HFD). However, the mechanisms by which asperuloside exerts its anti-obesity properties were not clarified. Here, we investigated homeostatic and nutrient-sensing mechanisms regulating food intake in mice consuming HFD. We confirmed the anti-obesity properties of asperuloside and, importantly, we identified some mechanisms that could be responsible for its therapeutic effect. Asperuloside reduced body weight and food intake in mice consuming HFD by 10.5 and 12.8\% respectively, with no effect on mice eating a standard chow diet. Fasting glucose and plasma insulin were also significantly reduced. Mechanistically, asperuloside significantly reduced hypothalamic mRNA ghrelin, leptin, and pro-opiomelanocortin in mice consuming HFD. The expression of fat lingual receptors (CD36, FFAR1-4), CB1R and sweet lingual receptors (TAS1R2-3) was increased almost 2-fold by the administration of asperuloside. Our findings suggest that asperuloside might exert its therapeutic effects by altering nutrient-sensing receptors in the oral cavity as well as hypothalamic receptors involved in food intake when mice are exposed to obesogenic diets. This signaling pathway is known to influence the subtle hypothalamic equilibrium between energy homeostasis and reward-induced overeating responses. The present pre-clinical study demonstrated that targeting the gustatory system through asperuloside administration could represent a promising and effective new anti-obesity strategy.",

keywords = "CD36, FFAR1-4, TAS1R2-3, asperuloside, cannabinoid (CB) receptor 1, food intake, nutrient-sensing mechanisms, weight loss",

author = "Muhammad Ishaq and Duyen Tran and Yijia Wu and Krzysztof Nowak and Deans, \{Bianca J.\} and Xin, \{Joycelin Tan Zhu\} and Loh, \{Hui Lin\} and Ng, \{Wen Ying\} and Yee, \{Chin Wen\} and Benjamin Southam and Silvia Vicenzi and Cameron Randall and Cheng Yang and Ee Tan and Manideepika Pasupuleti and Grewal, \{Avneet Kaur\} and Tauseef Ahmad and Madhur Shastri and Carmelo Vicario and Maurizio Ronci and Mariachiara Zuccarini and Martin Bleasel and Paul Scowen and William Raffaeli and Gianvicenzo D{\textquoteright}Andrea and Chellappan, \{Dinesh Kumar\} and Glenn Jacobson and Bissember, \{Alex C.\} and Smith, \{Jason A.\} and Raj Eri and Juan Canales and Miguel Iglesias and Nuri Guven and Vanni Caruso",

note = "Publisher Copyright: {\textcopyright} Copyright {\textcopyright} 2021 Ishaq, Tran, Wu, Nowak, Deans, Xin, Loh, Ng, Yee, Southam, Vicenzi, Randall, Yang, Tan, Pasupuleti, Grewal, Ahmad, Shastri, Vicario, Ronci, Zuccarini, Bleasel, Scowen, Raffaeli, D{\textquoteright}Andrea, Chellappan, Jacobson, Bissember, Smith, Eri, Canales, Iglesias, Guven and Caruso.",

year = "2021",

month = apr,

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doi = "10.3389/fendo.2021.615446",

language = "English",

volume = "12",

journal = "Frontiers in Endocrinology",

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Ishaq, M, Tran, D, Wu, Y, Nowak, K, Deans, BJ, Xin, JTZ, Loh, HL, Ng, WY, Yee, CW, Southam, B, Vicenzi, S, Randall, C, Yang, C, Tan, E, Pasupuleti, M, Grewal, AK, Ahmad, T, Shastri, M, Vicario, C, Ronci, M, Zuccarini, M, Bleasel, M, Scowen, P, Raffaeli, W, D’Andrea, G, Chellappan, DK, Jacobson, G, Bissember, AC, Smith, JA, Eri, R, Canales, J, Iglesias, M, Guven, N & Caruso, V 2021, 'Asperuloside Enhances Taste Perception and Prevents Weight Gain in High-Fat Fed Mice', Frontiers in Endocrinology, vol. 12, 615446. https://doi.org/10.3389/fendo.2021.615446

TY - JOUR

T1 - Asperuloside Enhances Taste Perception and Prevents Weight Gain in High-Fat Fed Mice

AU - Ishaq, Muhammad

AU - Tran, Duyen

AU - Wu, Yijia

AU - Nowak, Krzysztof

AU - Deans, Bianca J.

AU - Xin, Joycelin Tan Zhu

AU - Loh, Hui Lin

AU - Ng, Wen Ying

AU - Yee, Chin Wen

AU - Southam, Benjamin

AU - Vicenzi, Silvia

AU - Randall, Cameron

AU - Yang, Cheng

AU - Tan, Ee

AU - Pasupuleti, Manideepika

AU - Grewal, Avneet Kaur

AU - Ahmad, Tauseef

AU - Shastri, Madhur

AU - Vicario, Carmelo

AU - Ronci, Maurizio

AU - Zuccarini, Mariachiara

AU - Bleasel, Martin

AU - Scowen, Paul

AU - Raffaeli, William

AU - D’Andrea, Gianvicenzo

AU - Chellappan, Dinesh Kumar

AU - Jacobson, Glenn

AU - Bissember, Alex C.

AU - Smith, Jason A.

AU - Eri, Raj

AU - Canales, Juan

AU - Iglesias, Miguel

AU - Guven, Nuri

AU - Caruso, Vanni

N1 - Publisher Copyright: © Copyright © 2021 Ishaq, Tran, Wu, Nowak, Deans, Xin, Loh, Ng, Yee, Southam, Vicenzi, Randall, Yang, Tan, Pasupuleti, Grewal, Ahmad, Shastri, Vicario, Ronci, Zuccarini, Bleasel, Scowen, Raffaeli, D’Andrea, Chellappan, Jacobson, Bissember, Smith, Eri, Canales, Iglesias, Guven and Caruso.

PY - 2021/4/13

Y1 - 2021/4/13

N2 - Asperuloside is an iridoid glycoside found in many medicinal plants that has produced promising anti-obesity results in animal models. In previous studies, three months of asperuloside administration reduced food intake, body weight, and adipose masses in rats consuming a high fat diet (HFD). However, the mechanisms by which asperuloside exerts its anti-obesity properties were not clarified. Here, we investigated homeostatic and nutrient-sensing mechanisms regulating food intake in mice consuming HFD. We confirmed the anti-obesity properties of asperuloside and, importantly, we identified some mechanisms that could be responsible for its therapeutic effect. Asperuloside reduced body weight and food intake in mice consuming HFD by 10.5 and 12.8% respectively, with no effect on mice eating a standard chow diet. Fasting glucose and plasma insulin were also significantly reduced. Mechanistically, asperuloside significantly reduced hypothalamic mRNA ghrelin, leptin, and pro-opiomelanocortin in mice consuming HFD. The expression of fat lingual receptors (CD36, FFAR1-4), CB1R and sweet lingual receptors (TAS1R2-3) was increased almost 2-fold by the administration of asperuloside. Our findings suggest that asperuloside might exert its therapeutic effects by altering nutrient-sensing receptors in the oral cavity as well as hypothalamic receptors involved in food intake when mice are exposed to obesogenic diets. This signaling pathway is known to influence the subtle hypothalamic equilibrium between energy homeostasis and reward-induced overeating responses. The present pre-clinical study demonstrated that targeting the gustatory system through asperuloside administration could represent a promising and effective new anti-obesity strategy.

AB - Asperuloside is an iridoid glycoside found in many medicinal plants that has produced promising anti-obesity results in animal models. In previous studies, three months of asperuloside administration reduced food intake, body weight, and adipose masses in rats consuming a high fat diet (HFD). However, the mechanisms by which asperuloside exerts its anti-obesity properties were not clarified. Here, we investigated homeostatic and nutrient-sensing mechanisms regulating food intake in mice consuming HFD. We confirmed the anti-obesity properties of asperuloside and, importantly, we identified some mechanisms that could be responsible for its therapeutic effect. Asperuloside reduced body weight and food intake in mice consuming HFD by 10.5 and 12.8% respectively, with no effect on mice eating a standard chow diet. Fasting glucose and plasma insulin were also significantly reduced. Mechanistically, asperuloside significantly reduced hypothalamic mRNA ghrelin, leptin, and pro-opiomelanocortin in mice consuming HFD. The expression of fat lingual receptors (CD36, FFAR1-4), CB1R and sweet lingual receptors (TAS1R2-3) was increased almost 2-fold by the administration of asperuloside. Our findings suggest that asperuloside might exert its therapeutic effects by altering nutrient-sensing receptors in the oral cavity as well as hypothalamic receptors involved in food intake when mice are exposed to obesogenic diets. This signaling pathway is known to influence the subtle hypothalamic equilibrium between energy homeostasis and reward-induced overeating responses. The present pre-clinical study demonstrated that targeting the gustatory system through asperuloside administration could represent a promising and effective new anti-obesity strategy.

KW - CD36

KW - FFAR1-4

KW - TAS1R2-3

KW - asperuloside

KW - cannabinoid (CB) receptor 1

KW - food intake

KW - nutrient-sensing mechanisms

KW - weight loss

UR - https://www.scopus.com/pages/publications/85104994509

U2 - 10.3389/fendo.2021.615446

DO - 10.3389/fendo.2021.615446

M3 - Article

AN - SCOPUS:85104994509

SN - 1664-2392

VL - 12

JO - Frontiers in Endocrinology

JF - Frontiers in Endocrinology

M1 - 615446

ER -

Asperuloside Enhances Taste Perception and Prevents Weight Gain in High-Fat Fed Mice

Abstract

UN SDGs

Keywords

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