2004
Cell signalling in vascular cells exposed to cyclic strain: the emerging role of protein phosphatases
Lee T, Sumpio BE. Cell signalling in vascular cells exposed to cyclic strain: the emerging role of protein phosphatases. Biotechnology And Applied Biochemistry 2004, 39: 129-139. PMID: 15032733, DOI: 10.1042/ba20030104.Peer-Reviewed Original ResearchConceptsPhosphorylation stateSerine/threonine residuesProtein phosphatase type 2AAbnormal phosphorylation stateCritical cellular functionsPhosphorylation of tyrosineRole of phosphatasesVascular cellsRole of proteinsThreonine residuesCellular functionsProtein kinaseIntracellular proteinsCellular growthHuman diseasesProteinPhosphataseType 2AEndothelial cellsCellsCardiac hypertrophyKinasePhosphorylationHaemodynamic forcesRole
1982
Kinetics, competition, and selectivity of tubular absorption of proteins
Sumpio BE, Maack T. Kinetics, competition, and selectivity of tubular absorption of proteins. American Journal Of Physiology 1982, 243: f379-f392. PMID: 7124951, DOI: 10.1152/ajprenal.1982.243.4.f379.Peer-Reviewed Original ResearchConceptsBeta 2MTubular absorptionHuman growth hormoneLow perfusate calcium concentrationsPerfusate calcium concentrationMorphologic damageTubular epitheliumProximal tubulesGrowth hormoneRat kidneyCationic proteinCalcium concentrationSaturable processSaturating loadSelective effectLuminal wallLow apparent affinityTubulesImportant determinantReversible mannerApparent affinityMicrovilliProteinKidney