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Original Research

Multifunctional magnetic Fe3O4 nanoparticles combined with chemotherapy and hyperthermia to overcome multidrug resistance

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Pages 2261-2269 | Published online: 03 May 2012

References

  • AoualiNEddabraLMacadréJMorjaniHImmunosuppressors and reversion of multidrug resistanceCrit Rev Oncol Hematol200556617015978826
  • AllerSGYuJWardAStructure of P-glycoprotein reveals a molecular basis for poly-specific drug bindingScience20093231718172219325113
  • ParkMTKangJAChoiJAPhytosphingosine induces apoptotic cell death via caspase 8 activation and Bax translocation in human cancer cellsClin Cancer Res2003987888512576463
  • NobiliSLandiniIMazzeiTMiniEOvercoming tumor multidrug resistance using drugs able to evade P-glycoprotein or to exploit its expressionMed Res Rev332011 [Epub ahead of print.]
  • JinJWangFPWeiHReversal of multidrug resistance of cancer through inhibition of P-glycoprotein by 5-bromotertrandrineCancer Chemother Pharmacol20055517918815378274
  • AlexiouCJurgonsRSchmidRMagnetic drug targeting – a new approach in locoregional tumor therapy with chemotherapeutic agentsHNO20055361862215549214
  • KrishnanSDiagaradjanePChoSHNanoparticle-mediated thermal therapy: evolving strategies for prostate cancer therapyInt J Hyperthermia20102677578920858069
  • WilhelmCFortinJPGazeauFTumor cell toxicity of intracellular hyperthermia mediated by magnetic nanoparticlesJ Nanosci Nanotechnol200772933293717685322
  • KotteANTJvan WieringenNLagendijkJJWModelling tissue heating with ferromagnetic seedsPhys Med Biol1998431051209483626
  • SalloumMMaRZhuLEnhancement in treatment planning for magnetic nanoparticle hyperthermia: optimization of the heat absorption patternInt J Hyperthermia20092530932119670098
  • JordanAWustPScholzRCellular uptake of magnetic fluid particles and their effects on human adenocarcinoma cells exposed to AC magnetic field in vitroInt J Hyperthermia1996127057228950152
  • YanSZhangDGuNTherapeutic effect of Fe2O3 nanoparticles combined with magenetic fluid hyperthermia on cultured liver cancersJ Nanosci Nanotechnol200051185119216193975
  • LiJXuLZHeKLReversal effects of nomegestrol acetate on multidrug resistance in adriamycin-resistant MCF7 breast cancer cell lineBreast Cancer Res2001325326311434876
  • ChenBAChengJShenMFMagnetic nanoparticle of Fe3O4 and 5-bromotetrandrin interact synergistically to induce apoptosis by daunorubicin in leukemia cellsInt J Nanomedicine20094657119421371
  • ChenBAChengJWuYNReversal of multidrug resistance by magnetic Fe3O4 nanoparticle copolymerizating daunorubicin and 5-bromotetrandrine in xenograft nude-miceInt J Nanomedicine20094737819421372
  • WangJChenBAChengJApoptotic mechanism of human leukemia K562/A02 cells induced by magnetic iron oxide nanoparticles coloaded with daunorubicin and 5-bromotetrandrinInt J Nanomedicine201161027103421720514
  • WangJChenBAChengJSynthesis and antitumor efficacy of daunorubicin-loaded magnetic nanoparticlesInt J Nanomedicine2011620321121445276
  • SarkarFHLiYUsing chemopreventive agents to enhance the efficacy of cancer therapyCancer Res2006663347335016585150
  • KolitzJEGeorgeSLMarcucciGP-glycoprotein inhibition using valspodar (PSC-833) does not improve outcomes for patients younger than age 60 years with newly diagnosed acute myeloid leukemia: Cancer and Leukemia Group B study 19808Blood20101161413142120522709
  • SassonRAmsterdamAStimulation of apoptosis in human granulose cells from in vitro fertilization patients and its prevention by dexamethasone: involvement of cell contact and bcl-2 expressionClin Endocrinol Metab20028734413451
  • MeijerinkJPMensinkEJWangKHematopoietic malignance demonstrate loss-of-function mutation of BaxBlood199891299129979531611
  • Belaud-RotureauMALeducqNMaeouilardPoulletierde GannesFEarly transitory rise in intracellular pH leads to Bax conformation change during ceramide-induced apoptosisApoptosis2000555156011303914
  • BrauchiSCeaCFariasJGBacigalupoJReyesJGApoptosis induced by prolonged exposure to odorants in cultured cells from rat olfactory epitheliumBrain Res2006110311412216814749
  • FuLLiangYDengLCharacterization of tetrandrine, a potent inhibitor of P-glycoprotein-mediated multidrug resistanceCancer Chemother Pharmacol20045334935614666379
  • WangFPWangLYangJSNomuraMMiyamotoKReversal of P-glycoprotein-dependent resistance to vinblastine by newly synthesized bisbenzylisoquinoline alkaloids in mouse leukemia P388 cellsBiol Pharm Bull2005281979198216204959
  • GindyMEPrud’hommeRKMultifunctional nanoparticles for imaging, delivery and targeting in cancer therapyExpert Opin Drug Deliv2009686587819637974
  • HaleyBFrenkelENanoparticles for drug delivery in cancer treatmentUrol Oncol200826576418190833
  • PeerDKarpJMHongSFarokhzadOCMargalitRLangerRNanocarriers as an emerging platform for cancer therapyNat Nanotechnol2007275176018654426
  • PridgenEMLangerRFarokhzadOCBiodegradable, polymeric nanoparticle delivery systems for cancer therapyNanomedicine2007266968017976029
  • GiouroudiIKoselJRecent progress in biomedical applications of magnetic nanoparticlesRecent Pat Nanotechnol2010411111820415657
  • RudolfHWilfriedACarlGPhysical limits of hyperthermia using magnetite fine particlesIEEE Trans Magn19983437453754
  • MilleronRSBrattonSB‘Heated’ debates in apoptosisCell Mol Life Sci2007642329233317572850
  • ItoAShinkaiMHondaHKobayashiTMedical application of functionalized magnetic nanoparticlesJ Biosci Bioeng200510011116233845
  • HildebrandtBWustPAhlersOThe cellular and molecular basis of hyperthermiaCrit Rev Oncol Hematol200243335612098606
  • ChengJWangJChenBAA promising strategy for overcoming MDR in tumor by magnetic iron oxide nanoparticles co-loaded with daunorubicin and 5-bromotetrandrinInt J Nanomedicine201162123213122114476
  • SonvicoFMornetSVasseurSFolate-conjugated iron oxide nanoparticles for solid tumor targeting as potential specific magnetic hyperthermia mediators: synthesis physicochemical characterization, and in vitro experimentsBioconjug Chem2005161181118816173796