OBJECTIVE Chloroquine is considered as a potential chemotherapy and radiotherapy sensitizer,but the anticancer effect of chloroquine alone is limited.Since we found that the flavonoid kaempferol effectively sensitizes...OBJECTIVE Chloroquine is considered as a potential chemotherapy and radiotherapy sensitizer,but the anticancer effect of chloroquine alone is limited.Since we found that the flavonoid kaempferol effectively sensitizes glioma cells to chloroquine-mediated cell death,we investigated the underlying mechanisms of glioma cell death induced by the combination of kaempferol and chloroquine.METHODS To examine the effect of kaempferol and/or chloroquine on various glioma cells,cell viability assay using calcein-AM and EthD-1was performed.The changes in the lysosomal structures following treatment with kaempferol and/or chloroquine were observed by electron microscopy and fluorescence microscopy using acridine orange or Lyso-tracker Red.The changes in cathepsin D proteins were analyzed by Western blotting,immunocytochemistry,and fluorescence microscopy using BODIPY FL-pepstatin.RESULTS Treatment with subtoxic doses of chloroquine,when combined with kaempferol,effectively induced cell death in various glioma cells,but not in normal astrocytes.While kaempferol treatment increased the numbers of lysosome,chloroquine treatment increased lysosomal masses.Combined treatment with kaempferol and chloroquine induced the expansion and subsequent rupture of lysosomes,leading to the spillage of the lysosomal contents into the cytosol.We found that while kaemfperol treatment increased the active mature forms of cathepsin D,chloroquine treatment completely blocked the processing of cathepsin D.The processing of cathepsin D was also blocked by the combined treatment,but the activity of cathepsin D,which was released from the lysosomes,was restored.The cell death induced by kaempferol and chloroquine in U251 MG cells was accompanied by mitochondrial dysfunction,ER stress,and DNA damage.CONCLUSION Disruption of lysosomal membrane integrity and a resultant release of lysosomal proteases may critically contribute to the irreparable damage of various organelles and glioma cell death by chloroquine plus kaempferol.展开更多
基金The project supported by the National Research Foundation of Korea(NRF)grant funded by the Korean government(MSIP)〔2011-0030043(SRC)〕a grant of the Korean Health Technology R&D Progect,Ministry of Health&Welfare(HI14C2230)
文摘OBJECTIVE Chloroquine is considered as a potential chemotherapy and radiotherapy sensitizer,but the anticancer effect of chloroquine alone is limited.Since we found that the flavonoid kaempferol effectively sensitizes glioma cells to chloroquine-mediated cell death,we investigated the underlying mechanisms of glioma cell death induced by the combination of kaempferol and chloroquine.METHODS To examine the effect of kaempferol and/or chloroquine on various glioma cells,cell viability assay using calcein-AM and EthD-1was performed.The changes in the lysosomal structures following treatment with kaempferol and/or chloroquine were observed by electron microscopy and fluorescence microscopy using acridine orange or Lyso-tracker Red.The changes in cathepsin D proteins were analyzed by Western blotting,immunocytochemistry,and fluorescence microscopy using BODIPY FL-pepstatin.RESULTS Treatment with subtoxic doses of chloroquine,when combined with kaempferol,effectively induced cell death in various glioma cells,but not in normal astrocytes.While kaempferol treatment increased the numbers of lysosome,chloroquine treatment increased lysosomal masses.Combined treatment with kaempferol and chloroquine induced the expansion and subsequent rupture of lysosomes,leading to the spillage of the lysosomal contents into the cytosol.We found that while kaemfperol treatment increased the active mature forms of cathepsin D,chloroquine treatment completely blocked the processing of cathepsin D.The processing of cathepsin D was also blocked by the combined treatment,but the activity of cathepsin D,which was released from the lysosomes,was restored.The cell death induced by kaempferol and chloroquine in U251 MG cells was accompanied by mitochondrial dysfunction,ER stress,and DNA damage.CONCLUSION Disruption of lysosomal membrane integrity and a resultant release of lysosomal proteases may critically contribute to the irreparable damage of various organelles and glioma cell death by chloroquine plus kaempferol.