0000000000077661

AUTHOR

Bernard Malissen

0000-0003-1340-9342

showing 3 related works from this author

Sox17 regulates liver lipid metabolism and adaptation to fasting.

2014

Liver is a major regulator of lipid metabolism and adaptation to fasting, a process involving PPARalpha activation. We recently showed that the Vnn1 gene is a PPARalpha target gene in liver and that release of the Vanin-1 pantetheinase in serum is a biomarker of PPARalpha activation. Here we set up a screen to identify new regulators of adaptation to fasting using the serum Vanin-1 as a marker of PPARalpha activation. Mutagenized mice were screened for low serum Vanin-1 expression. Functional interactions with PPARalpha were investigated by combining transcriptomic, biochemical and metabolic approaches. We characterized a new mutant mouse in which hepatic and serum expression of Vanin-1 is …

medicine.medical_specialtyTransgeneMutantPeroxisome proliferator-activated receptorlcsh:MedicineMice TransgenicGastroenterology and HepatologyBiologyGPI-Linked ProteinsAmidohydrolasesMiceInternal medicineHMGB ProteinsMolecular Cell BiologymedicineMedicine and Health SciencesSOXF Transcription FactorsAnimalsPPAR alphalcsh:ScienceBeta oxidationchemistry.chemical_classificationMultidisciplinaryFatty liverlcsh:RBiology and Life SciencesLipid metabolismSOX9 Transcription FactorCell BiologyFastingmedicine.diseaseLipid MetabolismAdaptation Physiological3. Good healthEndocrinologychemistryPantetheinaseLiverlipids (amino acids peptides and proteins)lcsh:QTranscriptomeDrug metabolismResearch ArticlePLoS ONE
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Multicolor fate mapping of Langerhans cell homeostasis

2013

The adult epidermal Langerhans cell network is formed by adjacent proliferative units composed of dividing cells and their terminally differentiated daughter cells.

Langerhans cellCell divisionImmunologyPopulationCellCytological TechniquesColorMice TransgenicBiology03 medical and health sciencesMice0302 clinical medicineImmune systemImaging Three-DimensionalFate mappingmedicineImmunology and AllergyAnimalsHomeostasisCell Lineageeducation030304 developmental biologyInflammation0303 health scienceseducation.field_of_studyEpidermis (botany)integumentary systemBrief Definitive ReportCell biologyMice Inbred C57BLmedicine.anatomical_structure030220 oncology & carcinogenesisLangerhans CellsImmunologyStem cellJournal of Experimental Medicine
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Clonal analysis of human T cell activation by the Mycoplasma arthritidis mitogen (MAS)

1988

Mycoplasma arthritidis produces an as yet undefined soluble molecule (MAS) that has a potent mitogenic effect on T cells of several species. We have used cloned human cytotoxic and proliferative T lymphocytes to dissect the molecular mechanism of T cell activation by this mitogen. Reactivity to MAS is clonally expressed among T cell receptor (TcR) alpha/beta chain-expressing T cell clones of CD4+ or CD8+ phenotype, as well as CD4-8- TcR alpha/beta chain-negative T lymphocyte clones expressing the CD3-associated TcR gamma chain. MAS is able to induce cytotoxicity and/or proliferation in these T cell clones. For triggering of these T cells, regardless of their phenotype of specificity, the pr…

Antigens Differentiation T-LymphocyteCytotoxicity ImmunologicT-LymphocytesT cellCD3ImmunologyReceptors Antigen T-CellStreptamerIn Vitro TechniquesBiologyLymphocyte ActivationAntigen-Antibody ReactionsInterleukin 21MycoplasmaSpecies SpecificitymedicineHumansImmunology and AllergyCytotoxic T cellAntigen-presenting cellAntigens BacterialHLA-D AntigensfungiNatural killer T cellVirologyMolecular biologyClone Cellsmedicine.anatomical_structurebiology.proteinCD8European Journal of Immunology
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