摘要
BackgroundOurpreviousstudyshowedthe150mg/mLfetalcardiacsupernatant(FCS)couldinducedifferentiationofBMSCsintocardiomyocye-likecellswithoutcardiomyocytetouch,butdifferentiationefficiencyisnothighenough.Inhibitionofglycogensynthasekinase-3enhancedtheproliferationandsurvivesofstemcells.Wetestedif6-bromoindirubin-3-oxime(BIO,glycogensynthasekinase-3inhibitor)enhancestheeffectsofFCSondifferentiationofBMSCsandexplorethegrowthfactorsinFCS.MethodsBMSCswereisolatedfromthefemurandtibiaoffour-week-oldmaleSprague-Dawleyratsandco-culturedwithFCS(150mg/mL)thatwasmadefromfetalheartsfromnineteen-daypregnantWistarrats.BIOwithdifferentconcentration(0,1,10,and100nM)wasintroducedinculturedishes.Transforminggrowthfactorbeta1(TGF-β1),bonemorphogeneticprotein2(BMP-2)andAktincardiacsupernatantandculturemediumwereassayedwithELISAmethods.ResultsAfterco-culturingwithFCS,beatingmyotubeswereobservedin25.9%BMSCsdishesafter1to2weeks’culture.ThelevelsofTGF-β1andBMP-2inFCSconcentrationswerenomorethanthatinyoungandadultcardiacsupernatant.AllBIOgroupssignificantlyenhancedtheeffectsofFCSondifferentiationofBMSCsintothecardiomyocyte-likecells(1nM,83%;10nM,73%;100nM,100%).AktlevelswerehigherinBMSCsculturalmediumwithFCS.ConclusionsFCScouldinducethedifferentiationofBMSCsintothecardiomyocyte-likecells.TGF-β1andBMP-2mightnotplayaroleinthedifferentiationofBMSCsinducedbyFCS.BIOenhancedtheeffectsofFCSonthedifferentiationofBMSCsintocardiomyocyte-likecells,whichmightinvolvetheAktpathway.
出版日期
2012年01月11日(中国期刊网平台首次上网日期,不代表论文的发表时间)