2018
Role of phosphate sensing in bone and mineral metabolism
Chande S, Bergwitz C. Role of phosphate sensing in bone and mineral metabolism. Nature Reviews Endocrinology 2018, 14: 637-655. PMID: 30218014, PMCID: PMC8607960, DOI: 10.1038/s41574-018-0076-3.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsPi transportersSignal transductionPi homeostasisCellular phosphate homeostasisPhosphate homeostasisExpression of Pi transportersPi-sensing mechanismEssential structural componentIntracellular signal transductionPi transportMulticellular organismsInositol pyrophosphatesIntracellular Pi levelsDomain proteinsRegulation of FGF23 expressionPlasma membranePhosphate sensingDisorders of phosphate homeostasisCell metabolismExtracellular matrixCellular levelHomeostasisTransductionGenetic disordersOrganisms
2008
Genetic Evidence of Serum Phosphate-Independent Functions of FGF-23 on Bone
Sitara D, Kim S, Razzaque MS, Bergwitz C, Taguchi T, Schüler C, Erben RG, Lanske B. Genetic Evidence of Serum Phosphate-Independent Functions of FGF-23 on Bone. PLOS Genetics 2008, 4: e1000154. PMID: 18688277, PMCID: PMC2483943, DOI: 10.1371/journal.pgen.1000154.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBone and BonesBone DensityCalcification, PhysiologicCells, CulturedFibroblast Growth Factor-23Fibroblast Growth FactorsGene ExpressionHypophosphatemiaMiceMice, Inbred C57BLMice, KnockoutMuscle, SkeletalOsteoblastsPhenotypePhosphatesSerumSkullSodium-Phosphate Cotransporter Proteins, Type IIaUrineConceptsFGF-23 geneFgf-23-/- micePhosphate homeostasisGenetic evidenceFgf-23-/-Regulation of phosphate homeostasisCrucial biological importanceFirst genetic evidenceSystemic phosphate homeostasisSkeletal mineralizationCellular functionsDouble mutantNew mouse lineMaster regulatorProtein abundanceGenomic ablationMolecular mechanismsDouble mutant miceChondrocyte differentiationTargeted disruptionSkeletal phenotypeBiological importanceGenesEnergy metabolismHomeostasis