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Small Intestinal Tuft Cell Activity Associates With Energy Metabolism in Diet-Induced Obesity
Small Intestinal Tuft Cell Activity Associates With Energy Metabolism in Diet-Induced Obesity
by Moll, Janne Marie , Xu, Liqin , Andersen, Daniel , Brix, Susanne , Kristiansen, Karsten , Arora, Pankaj , Kladis, Georgios , Rausch, Philipp , Danneskiold-Samsøe, Niels Banhos , Zhou, Biaofeng , Workman, Christopher T.
in Adipose tissue / Adipose Tissue, White - immunology / Adipose Tissue, White - metabolism / Animals / Body fat / Body mass / Cell number / Cells / Cytokines - genetics / Cytokines - metabolism / Diet / Diet, High-Fat / Disease Models, Animal / Energy Metabolism / Epithelial Cells - immunology / Epithelial Cells - metabolism / Flow cytometry / GABA / Gene Expression Regulation / Glucose / gut-brain axis / High fat diet / Homogenization / Immune response / Immunology / Insulin / Interleukins - genetics / Interleukins - metabolism / Intestine, Small - immunology / Intestine, Small - metabolism / Male / Metabolism / Mice, Inbred C57BL / Neuropeptides - genetics / Neuropeptides - metabolism / Neuroserpin / Obesity / Obesity - etiology / Obesity - genetics / Obesity - immunology / Obesity - metabolism / Phenotype / Phenotypes / Proteinase inhibitors / Receptors, GABA - genetics / Receptors, GABA - metabolism / Serine proteinase / Serpins - genetics / Serpins - metabolism / Signal Transduction / Small intestine / Thymic Stromal Lymphopoietin / Time Factors / tuft cells / Weight Gain / γ-Aminobutyric acid
2021
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Small Intestinal Tuft Cell Activity Associates With Energy Metabolism in Diet-Induced Obesity
by Moll, Janne Marie , Xu, Liqin , Andersen, Daniel , Brix, Susanne , Kristiansen, Karsten , Arora, Pankaj , Kladis, Georgios , Rausch, Philipp , Danneskiold-Samsøe, Niels Banhos , Zhou, Biaofeng , Workman, Christopher T.
in Adipose tissue / Adipose Tissue, White - immunology / Adipose Tissue, White - metabolism / Animals / Body fat / Body mass / Cell number / Cells / Cytokines - genetics / Cytokines - metabolism / Diet / Diet, High-Fat / Disease Models, Animal / Energy Metabolism / Epithelial Cells - immunology / Epithelial Cells - metabolism / Flow cytometry / GABA / Gene Expression Regulation / Glucose / gut-brain axis / High fat diet / Homogenization / Immune response / Immunology / Insulin / Interleukins - genetics / Interleukins - metabolism / Intestine, Small - immunology / Intestine, Small - metabolism / Male / Metabolism / Mice, Inbred C57BL / Neuropeptides - genetics / Neuropeptides - metabolism / Neuroserpin / Obesity / Obesity - etiology / Obesity - genetics / Obesity - immunology / Obesity - metabolism / Phenotype / Phenotypes / Proteinase inhibitors / Receptors, GABA - genetics / Receptors, GABA - metabolism / Serine proteinase / Serpins - genetics / Serpins - metabolism / Signal Transduction / Small intestine / Thymic Stromal Lymphopoietin / Time Factors / tuft cells / Weight Gain / γ-Aminobutyric acid
2021
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Small Intestinal Tuft Cell Activity Associates With Energy Metabolism in Diet-Induced Obesity
Small Intestinal Tuft Cell Activity Associates With Energy Metabolism in Diet-Induced Obesity
by Moll, Janne Marie , Xu, Liqin , Andersen, Daniel , Brix, Susanne , Kristiansen, Karsten , Arora, Pankaj , Kladis, Georgios , Rausch, Philipp , Danneskiold-Samsøe, Niels Banhos , Zhou, Biaofeng , Workman, Christopher T.
in Adipose tissue / Adipose Tissue, White - immunology / Adipose Tissue, White - metabolism / Animals / Body fat / Body mass / Cell number / Cells / Cytokines - genetics / Cytokines - metabolism / Diet / Diet, High-Fat / Disease Models, Animal / Energy Metabolism / Epithelial Cells - immunology / Epithelial Cells - metabolism / Flow cytometry / GABA / Gene Expression Regulation / Glucose / gut-brain axis / High fat diet / Homogenization / Immune response / Immunology / Insulin / Interleukins - genetics / Interleukins - metabolism / Intestine, Small - immunology / Intestine, Small - metabolism / Male / Metabolism / Mice, Inbred C57BL / Neuropeptides - genetics / Neuropeptides - metabolism / Neuroserpin / Obesity / Obesity - etiology / Obesity - genetics / Obesity - immunology / Obesity - metabolism / Phenotype / Phenotypes / Proteinase inhibitors / Receptors, GABA - genetics / Receptors, GABA - metabolism / Serine proteinase / Serpins - genetics / Serpins - metabolism / Signal Transduction / Small intestine / Thymic Stromal Lymphopoietin / Time Factors / tuft cells / Weight Gain / γ-Aminobutyric acid
2021

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Mohammed Bin Rashid Library /
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Small Intestinal Tuft Cell Activity Associates With Energy Metabolism in Diet-Induced Obesity
Small Intestinal Tuft Cell Activity Associates With Energy Metabolism in Diet-Induced Obesity
Journal Article

Small Intestinal Tuft Cell Activity Associates With Energy Metabolism in Diet-Induced Obesity

Moll, Janne Marie,
Xu, Liqin,
Andersen, Daniel,
Brix, Susanne,
Kristiansen, Karsten,
Arora, Pankaj,
Kladis, Georgios,
Rausch, Philipp,
Danneskiold-Samsøe, Niels Banhos,
Zhou, Biaofeng,
Workman, Christopher T.
2021
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Overview
Little is known about the involvement of type 2 immune response-promoting intestinal tuft cells in metabolic regulation. We here examined the temporal changes in small intestinal tuft cell number and activity in response to high-fat diet-induced obesity in mice and investigated the relation to whole-body energy metabolism and the immune phenotype of the small intestine and epididymal white adipose tissue. Intake of high fat diet resulted in a reduction in overall numbers of small intestinal epithelial and tuft cells and reduced expression of the intestinal type 2 tuft cell markers Il25 and Tslp . Amongst >1,700 diet-regulated transcripts in tuft cells, we observed an early association between body mass expansion and increased expression of the gene encoding the serine protease inhibitor neuroserpin. By contrast, tuft cell expression of genes encoding gamma aminobutyric acid (GABA)-receptors was coupled to Tslp and Il25 and reduced body mass gain. Combined, our results point to a possible role for small intestinal tuft cells in energy metabolism via coupled regulation of tuft cell type 2 markers and GABA signaling receptors, while being independent of type 2 immune cell involvement. These results pave the way for further studies into interventions that elicit anti-obesogenic circuits via small intestinal tuft cells.
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Publisher
Frontiers Media SA,Frontiers Media S.A
Subject

Adipose tissue

/ Adipose Tissue, White - immunology

/ Adipose Tissue, White - metabolism

/ Animals

/ Body fat

/ Body mass

/ Cell number

/ Cells

/ Cytokines - genetics

/ Cytokines - metabolism

/ Diet

/ Diet, High-Fat

/ Disease Models, Animal

/ Energy Metabolism

/ Epithelial Cells - immunology

/ Epithelial Cells - metabolism

/ Flow cytometry

/ GABA

/ Gene Expression Regulation

/ Glucose

/ gut-brain axis

/ High fat diet

/ Homogenization

/ Immune response

/ Immunology

/ Insulin

/ Interleukins - genetics

/ Interleukins - metabolism

/ Intestine, Small - immunology

/ Intestine, Small - metabolism

/ Male

/ Metabolism

/ Mice, Inbred C57BL

/ Neuropeptides - genetics

/ Neuropeptides - metabolism

/ Neuroserpin

/ Obesity

/ Obesity - etiology

/ Obesity - genetics

/ Obesity - immunology

/ Obesity - metabolism

/ Phenotype

/ Phenotypes

/ Proteinase inhibitors

/ Receptors, GABA - genetics

/ Receptors, GABA - metabolism

/ Serine proteinase

/ Serpins - genetics

/ Serpins - metabolism

/ Signal Transduction

/ Small intestine

/ Thymic Stromal Lymphopoietin

/ Time Factors

/ tuft cells

/ Weight Gain

/ γ-Aminobutyric acid

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