2013
Targeting C4-Demethylating Genes in the Cholesterol Pathway Sensitizes Cancer Cells to EGF Receptor Inhibitors via Increased EGF Receptor Degradation
Sukhanova A, Gorin A, Serebriiskii IG, Gabitova L, Zheng H, Restifo D, Egleston BL, Cunningham D, Bagnyukova T, Liu H, Nikonova A, Adams GP, Zhou Y, Yang DH, Mehra R, Burtness B, Cai KQ, Klein-Szanto A, Kratz LE, Kelley RI, Weiner LM, Herman GE, Golemis EA, Astsaturov I. Targeting C4-Demethylating Genes in the Cholesterol Pathway Sensitizes Cancer Cells to EGF Receptor Inhibitors via Increased EGF Receptor Degradation. Cancer Discovery 2013, 3: 96-111. PMID: 23125191, PMCID: PMC3546138, DOI: 10.1158/2159-8290.cd-12-0031.Peer-Reviewed Original ResearchConceptsEGF receptorPathway genesDegradation of EGFROncogenic EGF receptorEGF receptor degradationBiosynthesis pathway genesPlatelet-derived growth factor receptorEndocytic traffickingVesicular traffickingEGF receptor inhibitorEGFR degradationDimerization partnerBioinformatics modelingGrowth factor receptorUnexpected roleReceptor degradationCancer cell viabilityNSDHLSC4MOLCholesterol pathwayGenesFactor receptorCancer resistanceEGFR antagonistsCancer cells
2004
A preclinical xenotransplantation animal model to assess human hematopoietic stem cell engraftment
Angelopoulou MK, Rinder H, Wang C, Burtness B, Cooper DL, Krause DS. A preclinical xenotransplantation animal model to assess human hematopoietic stem cell engraftment. Transfusion 2004, 44: 555-566. PMID: 15043572, DOI: 10.1111/j.1537-2995.2004.03285.x.Peer-Reviewed Original ResearchConceptsHuman cell engraftmentHuman CFU-MKCell engraftmentPLT engraftmentWBC engraftmentCFU-MKAutologous PBPC transplantationEnhancement of engraftmentMultilineage human hematopoiesisPercent of patientsPLT recoveryHuman WBCsMouse xenotransplantation modelHematopoietic stem cell engraftmentHuman hematopoietic stem cell engraftmentNOD-SCID miceStem cell engraftmentXenogeneic transplant modelBlood weeklyPBPC transplantationTransplant modelLiver abnormalitiesPatients CorrelateAutologous transplantationHuman PLTs