Yann Seimbille scite author profile

Microbial functions in the host physiology are a result of the microbiota-host co-evolution. We show that cold exposure leads to marked shift of the microbiota composition, referred to as cold microbiota. Transplantation of the cold microbiota to germ-free mice is sufficient to increase insulin sensitivity of the host and enable tolerance to cold partly by promoting the white fat browning, leading to increased energy expenditure and fat loss. During prolonged cold, however, the body weight loss is attenuated, caused by adaptive mechanisms maximizing caloric uptake and increasing intestinal, villi, and microvilli lengths. This increased absorptive surface is transferable with the cold microbiota, leading to altered intestinal gene expression promoting tissue remodeling and suppression of apoptosis-the effect diminished by co-transplanting the most cold-downregulated strain Akkermansia muciniphila during the cold microbiota transfer. Our results demonstrate the microbiota as a key factor orchestrating the overall energy homeostasis during increased demand.

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Microbiota depletion promotes browning of white adipose tissue and reduces obesity

Suárez-Zamorano

Fabbiano

Chevalier

et al. 2015

Nat Med

339

273

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Brown adipose tissue (BAT) promotes a lean and healthy phenotype and improves insulin sensitivity1. In response to cold or exercise brown fat cells also emerge in the white adipose tissue (named beige cells), a process known as browning2,3,4. Here, we show that the development of functional beige fat is promoted by microbiota depletion either by antibiotic treatment or in germ-free mice within the inguinal subcutaneous and perigonadal visceral adipose tissues (ingSAT and pgVAT, respectively). This leads to improved glucose tolerance, insulin sensitivity and decreased white fat and adipocyte size in lean mice and obese leptin-deficient (ob/ob) and high fat diet (HFD)-fed mice. These metabolic improvements are mediated by eosinophil infiltration and enhanced type 2 cytokine signaling and M2 macrophage polarization in the subcutaneous white fat depots of microbiota-depleted animals. The metabolic phenotype and the browning of the subcutaneous fat are impaired by suppression of the type 2 signaling and are reversed by recolonization of the antibiotic-treated, or the germ-free mice with microbes. These results provide insight into microbiota-fat signaling axis and beige fat development in health and metabolic disease.

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Monitoring Tumor Glucose Utilization by Positron Emission Tomography for the Prediction of Treatment Response to Epidermal Growth Factor Receptor Kinase Inhibitors

et al. 2006

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Purpose: The mechanisms underlying the sensitivity of non^small cell lung cancer to epidermal growth factor receptor (EGFR) kinase inhibitors are complex, and there are no established markers to accurately predict treatment outcome in individual patients. Experimental Design: We investigated whether tumors responding to EGFR inhibitors can be identified by measuring treatment-induced changes in glucose utilization by positron emission tomography with the glucose analogue fluorodeoxyglucose (FDG-PET). We studied a panel of cell lines with a spectrum of sensitivity to EGFR kinase inhibitors. After incubation with the EGFR kinase inhibitor gefitinib for various time points, FDG uptake, glucose transport rates, and hexokinase activity were determined. FDG uptake in vivo was assessed by microPET imaging of tumor xenografts in mice. Results: In gefitinib-sensitive cell lines, there was a dramatic decrease in FDG uptake as early as 2 hours after treatment. Immunoblots showed the translocation of glucose transporters (GLUT3) from the plasma membrane to the cytosol; glucose transport rates were reduced 2.6-fold at this time. There was also a modest reduction of hexokinase activity. These metabolic alterations preceded changes in cell cycle distribution, thymidine uptake, and apoptosis. MicroPET studies showed an up to 55% decrease of tumor FDG uptake in sensitive xenografts within 48 hours. In contrast, gefitinib-resistant cells exhibited no measurable changes in FDG uptake, either in cell culture or in vivo. Conclusion: Glucose metabolic activity closely reflects response to gefitinib therapy. FDG-PET may be a valuable clinical predictor, early in the course of treatment, for therapeutic responses to EGFR kinase inhibitors.

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Elevated endocannabinoid plasma levels are associated with coronary circulatory dysfunction in obesity

Quercioli

Pataky

Vincenti

et al. 2011

European Heart Journal

127

130

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Evaluation of [18F]gefitinib as a molecular imaging probe for the assessment of the epidermal growth factor receptor status in malignant tumors

Seimbille

Ferl

et al. 2008

Eur J Nucl Med Mol Imaging

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The biodistribution of the drug analogue [(18)F]gefitinib suggests that it may be used to assess noninvasively the pharmacokinetics of gefitinib in patients by PET imaging. This is of clinical relevance, as insufficient intratumoral drug concentrations are considered to be a factor for resistance to gefitinib therapy. However, the highly nonspecific cellular binding of [(18)F]gefitinib may preclude the use of this imaging probe for noninvasive assessment of EGFR receptor status in patients.

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Yann Seimbille

Gut Microbiota Orchestrates Energy Homeostasis during Cold

Microbiota depletion promotes browning of white adipose tissue and reduces obesity

Monitoring Tumor Glucose Utilization by Positron Emission Tomography for the Prediction of Treatment Response to Epidermal Growth Factor Receptor Kinase Inhibitors

Elevated endocannabinoid plasma levels are associated with coronary circulatory dysfunction in obesity

Evaluation of [18F]gefitinib as a molecular imaging probe for the assessment of the epidermal growth factor receptor status in malignant tumors

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