2022
Interferon activated gene 204 protects against bone loss in experimental periodontitis
Swanson KV, Girnary M, Alves T, Ting JP, Divaris K, Beck J, Pucinelli CM, da Silva RAB, Uyan D, Wilson JE, Seaman WT, Webster‐Cyriaque J, Vias N, Jiao Y, Cantley L, Marlier A, Arnold RR, Marchesan JT. Interferon activated gene 204 protects against bone loss in experimental periodontitis. The Journal Of Periodontology 2022, 93: 1366-1377. PMID: 35404474, PMCID: PMC9489626, DOI: 10.1002/jper.21-0668.Peer-Reviewed Original ResearchConceptsBone lossHuman endothelial cellsOsteoclast numberPeriodontal pathogensRecent human genetic association studiesHigher alveolar bone lossEndothelial cellsPeriodontal disease biomarkersAlveolar bone lossNeutrophils/macrophagesInterferon gamma-inducible protein 16Inflammatory cell traffickingInducible protein 16Periodontitis developmentChemokine responsesExperimental periodontitisInflammatory infiltrationPeriodontal destructionMarrow sourcesGingival tissuesMelanoma 2Periodontal tissuesLigature modelChimeric miceAlveolar bone
2004
Microarray analysis of in vitro pericyte differentiation reveals an angiogenic program of gene expression
Kale S, Hanai J, Chan B, Karihaloo A, Grotendorst G, Cantley L, Sukhatme VP. Microarray analysis of in vitro pericyte differentiation reveals an angiogenic program of gene expression. The FASEB Journal 2004, 19: 1-30. PMID: 15579670, DOI: 10.1096/fj.04-1604fje.Peer-Reviewed Original ResearchConceptsPericytes/vascular smooth muscle cellsVascular smooth muscle cellsHuman umbilical vein ECsGene expressionMicroarray analysisPericyte differentiationNormal blood vessel developmentAngiogenic programGene expression changesBlood vessel developmentEndothelial cellsEPH receptor A2Human umbilical vein endothelial cellsCoculture systemUmbilical vein endothelial cellsExpression changesCell differentiationVascular developmentVein endothelial cellsVessel developmentGenesMature vasculatureFunctional significanceHB-EGFIntegrin alpha5
2001
Cell Surface Glypicans Are Low-Affinity Endostatin Receptors
Karumanchi S, Jha V, Ramchandran R, Karihaloo A, Tsiokas L, Chan B, Dhanabal M, Hanai J, Venkataraman G, Shriver Z, Keiser N, Kalluri R, Zeng H, Mukhopadhyay D, Chen R, Lander A, Hagihara K, Yamaguchi Y, Sasisekharan R, Cantley L, Sukhatme V. Cell Surface Glypicans Are Low-Affinity Endostatin Receptors. Molecular Cell 2001, 7: 811-822. PMID: 11336704, DOI: 10.1016/s1097-2765(01)00225-8.Peer-Reviewed Original ResearchConceptsHeparan sulfate glycosaminoglycansPotent anti-angiogenic proteinCell surface proteoglycansBranching morphogenesisEndothelial cellsGenetic studiesGlypicansExpression cloningSurface proteoglycansAntisense experimentsCell surfaceAnti-angiogenic proteinEndothelial cell surfaceLow-affinity receptorsSulfate glycosaminoglycansEndostatin bindingCellsReceptorsMorphogenesisEndostatin activityCloningProteinEndostatinBindingProteoglycans
1993
Effects of Ioversol versus Iothalamate on Endothelin Release and Radiocontrast Nephropathy
HEYMAN S, CLARK B, CANTLEY L, SPOKES K, ROSEN S, BREZIS M, EPSTEIN F. Effects of Ioversol versus Iothalamate on Endothelin Release and Radiocontrast Nephropathy. Investigative Radiology 1993, 28: 313-318. PMID: 8478171, DOI: 10.1097/00004424-199304000-00011.Peer-Reviewed Original ResearchConceptsEffects of ioversolEndothelin releaseRadiocontrast nephropathyRadiocontrast agentsEqui-iodine dosesRelease of endothelinLow-osmolar agentsCultured bovine aortic endothelial cellsAortic endothelial cellsRenal vasoconstrictionBovine aortic endothelial cellsRenal vasoconstrictorCreatinine clearanceRenal functionOsmolar agentsRenal toxicityMorphologic damageNormal ratsVascular endotheliumSalt depletionNephropathyRenal medullaRatsEndothelial cellsIoversol