Your search keyword '"Jerome Gilleron"' showing total 3 results

1. Unravelling the sex-specific diversity and functions of adrenal gland macrophages

Author

Bastien Dolfi, Alexandre Gallerand, Maria M. Firulyova, Yingzheng Xu, Johanna Merlin, Adélie Dumont, Alexia Castiglione, Nathalie Vaillant, Sandrine Quemener, Heidi Gerke, Marion I. Stunault, Patricia R. Schrank, Seung-Hyeon Kim, Alisha Zhu, Jie Ding, Jerome Gilleron, Virginie Magnone, Pascal Barbry, David Dombrowicz, Christophe Duranton, Abdelilah Wakkach, Claudine Blin-Wakkach, Burkhard Becher, Sophie Pagnotta, Rafael J. Argüello, Pia Rantakari, Svetoslav Chakarov, Florent Ginhoux, Konstantin Zaitsev, Ki-Wook Kim, Laurent Yvan-Charvet, Rodolphe R. Guinamard, Jesse W. Williams, and Stoyan Ivanov

Subjects

CP: Immunology, Biology (General), QH301-705.5

Abstract

Summary: Despite the ubiquitous function of macrophages across the body, the diversity, origin, and function of adrenal gland macrophages remain largely unknown. We define the heterogeneity of adrenal gland immune cells using single-cell RNA sequencing and use genetic models to explore the developmental mechanisms yielding macrophage diversity. We define populations of monocyte-derived and embryonically seeded adrenal gland macrophages and identify a female-specific subset with low major histocompatibility complex (MHC) class II expression. In adulthood, monocyte recruitment dominates adrenal gland macrophage maintenance in female mice. Adrenal gland macrophage sub-tissular distribution follows a sex-dimorphic pattern, with MHC class IIlow macrophages located at the cortico-medullary junction. Macrophage sex dimorphism depends on the presence of the cortical X-zone. Adrenal gland macrophage depletion results in altered tissue homeostasis, modulated lipid metabolism, and decreased local aldosterone production during stress exposure. Overall, these data reveal the heterogeneity of adrenal gland macrophages and point toward sex-restricted distribution and functions of these cells.

Published

2022

2. Regulation of Liver Metabolism by the Endosomal GTPase Rab5

Author

Anja Zeigerer, Roman L. Bogorad, Kirti Sharma, Jerome Gilleron, Sarah Seifert, Susanne Sales, Nikolaus Berndt, Sascha Bulik, Giovanni Marsico, Rochelle C.J. D’Souza, Naharajan Lakshmanaperumal, Kesavan Meganathan, Karthick Natarajan, Agapios Sachinidis, Andreas Dahl, Hermann-Georg Holzhütter, Andrej Shevchenko, Matthias Mann, Victor Koteliansky, and Marino Zerial

Subjects

Biology (General), QH301-705.5

Abstract

The liver maintains glucose and lipid homeostasis by adapting its metabolic activity to the energy needs of the organism. Communication between hepatocytes and extracellular environment via endocytosis is key to such homeostasis. Here, we addressed the question of whether endosomes are required for gluconeogenic gene expression. We took advantage of the loss of endosomes in the mouse liver upon Rab5 silencing. Strikingly, we found hepatomegaly and severe metabolic defects such as hypoglycemia, hypercholesterolemia, hyperlipidemia, and glycogen accumulation that phenocopied those found in von Gierke’s disease, a glucose-6-phosphatase (G6Pase) deficiency. G6Pase deficiency alone can account for the reduction in hepatic glucose output and glycogen accumulation as determined by mathematical modeling. Interestingly, we uncovered functional alterations in the transcription factors, which regulate G6Pase expression. Our data highlight a requirement of Rab5 and the endosomal system for the regulation of gluconeogenic gene expression that has important implications for metabolic diseases.

Published

2015

3. Rab4b Deficiency in T Cells Promotes Adipose Treg/Th17 Imbalance, Adipose Tissue Dysfunction, and Insulin Resistance

Author

Jérôme Gilleron, Gwennaëlle Bouget, Stoyan Ivanov, Cindy Meziat, Franck Ceppo, Bastien Vergoni, Mansour Djedaini, Antoine Soprani, Karine Dumas, Arnaud Jacquel, Laurent Yvan-Charvet, Nicolas Venteclef, Jean-François Tanti, and Mireille Cormont

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Obesity modifies T cell populations in adipose tissue, thereby contributing to adipose tissue inflammation and insulin resistance. Here, we show that Rab4b, a small GTPase governing endocytic trafficking, is pivotal in T cells for the development of these pathological events. Rab4b expression is decreased in adipose T cells from mice and patients with obesity. The specific depletion of Rab4b in T cells causes adipocyte hypertrophy and insulin resistance in chow-fed mice and worsens insulin resistance in obese mice. This phenotype is driven by an increase in adipose Th17 and a decrease in adipose Treg due to a cell-autonomous skew of differentiation toward Th17. The Th17/Treg imbalance initiates adipose tissue inflammation and reduces adipogenesis, leading to lipid deposition in liver and muscles. Therefore, we propose that the obesity-induced loss of Rab4b in adipose T cells may contribute to maladaptive white adipose tissue remodeling and insulin resistance by altering adipose T cell fate. : Gilleron et al. show that Rab4b expression is decreased in adipose T cells during obesity in mice and humans. They reveal that Rab4b in T cells is critical for the control of adipose tissue remodeling and insulin sensitivity by regulating the adipose Th17/Treg balance. Keywords: immunometabolism, small GTPase, endocytosis, adipose tissue, ectopic lipids

Published

2018