The scientist’s investigation covers issues in Internal medicine, Endocrinology, Adipose tissue, Apelin and Insulin resistance. His Downregulation and upregulation research extends to the thematically linked field of Internal medicine. The Endocrinology study combines topics in areas such as Fibrosis, Phenotype and Angiogenesis.
His studies deal with areas such as Inflammation, Cancer, Cancer research and Paracrine signalling as well as Adipose tissue. His Apelin research includes elements of Insulin, Type 2 diabetes, Adipokine and Glucose homeostasis. His Insulin resistance research is multidisciplinary, relying on both AMPK, Glucose uptake and Skeletal muscle.
His primary areas of investigation include Internal medicine, Endocrinology, Adipose tissue, Apelin and Adipocyte. Many of his studies on Internal medicine apply to Diabetes mellitus as well. His study involves Insulin, Insulin resistance, Lipolysis, White adipose tissue and Glucose transporter, a branch of Endocrinology.
His research integrates issues of Cancer, Cancer research, Inflammation, Lysophosphatidic acid and Lipid metabolism in his study of Adipose tissue. His Cancer research study combines topics from a wide range of disciplines, such as Cancer cell, Tumor progression, Breast cancer and Paracrine signalling. His research investigates the connection with Apelin and areas like Myocyte which intersect with concerns in Heart failure.
Philippe Valet mainly investigates Internal medicine, Endocrinology, Apelin, Cancer research and Adipose tissue. His work deals with themes such as Diabetes mellitus and Mitochondrion, which intersect with Internal medicine. His work carried out in the field of Apelin brings together such families of science as Hypothalamus, Heart failure and Bioinformatics.
His Cancer research research is multidisciplinary, incorporating elements of Cancer cell, Cancer, Breast cancer and Cytokine. His studies link Prostate cancer with Adipose tissue. The concepts of his Metabolism study are interwoven with issues in Adipocyte and Lipolysis.
The scientist’s investigation covers issues in Internal medicine, Endocrinology, Apelin, Cancer research and Adipose tissue. His work in Internal medicine addresses issues such as Signal transduction, which are connected to fields such as Noonan syndrome. His studies in Apelin integrate themes in fields like Mitochondrion, Mitochondrial ROS, Leptin and Metabolism.
The various areas that Philippe Valet examines in his Leptin study include Metabolic control analysis, Adiponectin and White adipose tissue. His research on Cancer research also deals with topics like
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Apelin, a newly identified adipokine up-regulated by insulin and obesity
Jérémie Boucher;Bernard Masri;Danièle Daviaud;Stéphane Gesta.
Cancer-Associated Adipocytes Exhibit an Activated Phenotype and Contribute to Breast Cancer Invasion
Béatrice Dirat;Ludivine Bochet;Marta Dabek;Danièle Daviaud.
Cancer Research (2011)
Metabolic adaptation to a high-fat diet is associated with a change in the gut microbiota
Matteo Serino;Elodie Luche;Sandra Grès;Audrey Baylac.
Apelin Stimulates Glucose Utilization in Normal and Obese Insulin-Resistant Mice
Cédric Dray;Cédric Dray;Claude Knauf;Claude Knauf;Danièle Daviaud;Danièle Daviaud;Aurélie Waget;Aurélie Waget.
Cell Metabolism (2008)
Adipocyte-derived fibroblasts promote tumor progression and contribute to the desmoplastic reaction in breast cancer.
Ludivine Bochet;Camille Lehuede;Stephanie Dauvillier;Yuan Yuan Wang.
Cancer Research (2013)
TNFα up-regulates apelin expression in human and mouse adipose tissue
Danièle Daviaud;Jérémie Boucher;Stéphane Gesta;Cédric Dray.
The FASEB Journal (2006)
Altered Gut Microbiota and Endocannabinoid System Tone in Obese and Diabetic Leptin-Resistant Mice: Impact on Apelin Regulation in Adipose Tissue
Lucie Geurts;Vladimir Lazarevic;Muriel Derrien;Amandine Everard.
Frontiers in Microbiology (2011)
Apelin, diabetes, and obesity.
Isabelle Castan-Laurell;Cédric Dray;Camille Attané;Thibaut Duparc.
LPA1 Receptor Activation Promotes Renal Interstitial Fibrosis
Jean-Philippe Pradère;Julie Klein;Sandra Grès;Charlotte Guigné.
Journal of The American Society of Nephrology (2007)
Loss of ATM positively regulates the expression of hypoxia inducible factor 1 (HIF-1) through oxidative stress: Role in the physiopathology of the disease.
Marielle Ousset;Fanny Bouquet;Frédérique Fallone;Denis Biard.
Cell Cycle (2010)
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