1998
Interleukin-8 Induces Proliferation of Endometrial Stromal Cells: a Potential Autocrine Growth Factor1
Arici A, Seli E, Zeyneloglu H, Senturk L, Oral E, Olive D. Interleukin-8 Induces Proliferation of Endometrial Stromal Cells: a Potential Autocrine Growth Factor1. The Journal Of Clinical Endocrinology & Metabolism 1998, 83: 1201-1205. PMID: 9543141, DOI: 10.1210/jcem.83.4.4743.Peer-Reviewed Original ResearchConceptsEndometrial stromal cellsIL-8 productionInterleukin-8Sex steroid hormonesAutocrine growth factorGrowth factorEndometrial cellsCell proliferationSteroid hormonesStromal cellsEndometrial stromal cell proliferationNeutrophil chemoattractant/Potential autocrine growth factorProliferation of endometriumOligonucleotide treatmentPathogenesis of endometriosisProliferation inhibitory effectPotent angiogenic agentStromal cell proliferationConcentration-dependent inhibitionNumber of cytokinesConcentration-dependent increaseAntisense oligonucleotide treatmentEndometrial functionSpecific growth factors
1997
Growth‐Regulated α Expression in Human Preovulatory Follicles and Ovarian Cells
Oral E, Seli E, Bahtiyar M, Jones E, Arici A. Growth‐Regulated α Expression in Human Preovulatory Follicles and Ovarian Cells. American Journal Of Reproductive Immunology 1997, 38: 19-25. PMID: 9266006, DOI: 10.1111/j.1600-0897.1997.tb00271.x.Peer-Reviewed Original ResearchConceptsGRO-alpha levelsGranulosa-lutein cellsGRO-alpha productionGRO alphaFollicular fluidGRO-alpha mRNAAlpha productionPg/Stromal cellsAlpha levelsAlpha mRNAHuman preovulatory folliclesOvarian stromal cellsPeriovulatory follicular fluidProcess of ovulationTime of ovulationInterleukin-alphaTumor necrosisNeutrophil chemotaxisNeutrophil increaseΑ expressionPreovulatory folliclesGranulosa-luteinOvarian cellsPost-hCG
1996
Modulation of leukemia inhibitory factor gene expression and protein biosynthesis in the human fallopian tube
Keltz M, Attar E, Buradagunta S, Olive D, Kliman H, Arici A. Modulation of leukemia inhibitory factor gene expression and protein biosynthesis in the human fallopian tube. American Journal Of Obstetrics And Gynecology 1996, 175: 1611-1619. PMID: 8987949, DOI: 10.1016/s0002-9378(96)70114-x.Peer-Reviewed Original ResearchMeSH KeywordsAdultBlood Physiological PhenomenaCells, CulturedCulture MediaCytokinesEpitheliumFallopian TubesFemaleGene Expression RegulationGrowth InhibitorsGrowth SubstancesHormonesHumansInterleukin-6Leukemia Inhibitory FactorLymphokinesMiddle AgedPregnancyPregnancy, EctopicRNA, MessengerStromal CellsConceptsLeukemia inhibitory factor expressionLeukemia inhibitory factorFallopian tubeInhibitory factorStromal cellsEctopic pregnancyStromal cell culturesGrowth factorMessenger ribonucleic acidLeukemia inhibitory factor gene expressionEctopic implantationFactor expressionTubal ectopic pregnancyEpithelial cellsInterleukin-1 alphaHuman fallopian tubePlatelet-derived growth factorMessenger ribonucleic acid levelsRibonucleic acid levelsFactor gene expressionTubal mucosaMenstrual cycleTNF-alphaTumor necrosisCommon siteThe peritoneal environment in endometriosis
Oral E, Olive D, Arici A. The peritoneal environment in endometriosis. Human Reproduction Update 1996, 2: 385-398. PMID: 15717438, DOI: 10.1093/humupd/2.5.385.Peer-Reviewed Original ResearchConceptsPeritoneal fluidPeritoneal environmentPF of womenEtiology of endometriosisMonocytes/macrophagesSpermatozoon-oocyte interactionEndometriotic implantsEndometrial fragmentsPeritoneal factorsPeritoneal endometriosisRetrograde menstruationIL-8MCP-1Postimplantation survivalChemoattractant cytokinesMast cellsEndometriosisImmune systemMesothelial cellsCytokinesGrowth factorOvum captureMacrophagesEtiologyCell typesPeritoneal Growth Factors and Endometriosis
Oral E, Arici A. Peritoneal Growth Factors and Endometriosis. Seminars In Reproductive Medicine 1996, 14: 257-267. PMID: 8885056, DOI: 10.1055/s-2007-1016335.Peer-Reviewed Original Research