中华放射医学与防护杂志
中華放射醫學與防護雜誌
중화방사의학여방호잡지
Chinese Journal of Radiological Medicine and Protection
2009年
1期
9-12
,共4页
张江虹%Prise KM%金一尊%邵春林
張江虹%Prise KM%金一尊%邵春林
장강홍%Prise KM%금일존%소춘림
乏氧%肝癌细胞%辐射旁效应%微核%信号因子
乏氧%肝癌細胞%輻射徬效應%微覈%信號因子
핍양%간암세포%복사방효응%미핵%신호인자
Hypoxia%Hepatoma cell%Radiation-induced bystander effect%Micreuncleus%Signaling factor
目的 研究乏氧条件下辐射诱导人肝癌细胞HepG2的旁效应及其发生机制.方法 采用条件培养基和细胞共培养两种方式,研究细胞在乏氧条件下经x线照射后对未照射旁细胞的影响.结果 乏氧可以显著降低细胞的直接辐射损伤效应,即微核的产生.HepG2细胞微核率的氧增比约为1.6.无论是有氧还是乏氧条件下,受辐射细胞均可引起未受照射旁细胞微核率的显著增高,且旁效应程度基本相当,与辐射剂量也存在一定的相关性.另外,活性氧自由基(ROS)清除剂二甲基亚砜(DMSO)和iNOS抑制剂氨基胍(AG)均可显著降低乏氧条件下辐射旁效应引起的细胞微核率,DMSO的降低率为42.2%~46.7%,AG的降低率为42%.结论 ROS和NO及其下游信号因子在HepG2细胞乏氧辐射旁效应中具有重要作用.
目的 研究乏氧條件下輻射誘導人肝癌細胞HepG2的徬效應及其髮生機製.方法 採用條件培養基和細胞共培養兩種方式,研究細胞在乏氧條件下經x線照射後對未照射徬細胞的影響.結果 乏氧可以顯著降低細胞的直接輻射損傷效應,即微覈的產生.HepG2細胞微覈率的氧增比約為1.6.無論是有氧還是乏氧條件下,受輻射細胞均可引起未受照射徬細胞微覈率的顯著增高,且徬效應程度基本相噹,與輻射劑量也存在一定的相關性.另外,活性氧自由基(ROS)清除劑二甲基亞砜(DMSO)和iNOS抑製劑氨基胍(AG)均可顯著降低乏氧條件下輻射徬效應引起的細胞微覈率,DMSO的降低率為42.2%~46.7%,AG的降低率為42%.結論 ROS和NO及其下遊信號因子在HepG2細胞乏氧輻射徬效應中具有重要作用.
목적 연구핍양조건하복사유도인간암세포HepG2적방효응급기발생궤제.방법 채용조건배양기화세포공배양량충방식,연구세포재핍양조건하경x선조사후대미조사방세포적영향.결과 핍양가이현저강저세포적직접복사손상효응,즉미핵적산생.HepG2세포미핵솔적양증비약위1.6.무론시유양환시핍양조건하,수복사세포균가인기미수조사방세포미핵솔적현저증고,차방효응정도기본상당,여복사제량야존재일정적상관성.령외,활성양자유기(ROS)청제제이갑기아풍(DMSO)화iNOS억제제안기고(AG)균가현저강저핍양조건하복사방효응인기적세포미핵솔,DMSO적강저솔위42.2%~46.7%,AG적강저솔위42%.결론 ROS화NO급기하유신호인자재HepG2세포핍양복사방효응중구유중요작용.
Objective To investigate radiation induced bystander effect and its mechanism on hepatoma HepG2 cells under hypoxia condition. Methods Non-irradiated bystander hepatoma cells were co-cultured with irradiated cells or treated with the conditioned medium (CM) from irradiated cells, then micronuclei (MN) were measured for both irradiated cells and bystander cells. Results The MN yield of irradiated HepG2 cells under hypoxic condition was significantly lower than that under normoxia, the oxygen enhancement ratio of HepG2 cells of MN was 1.6. For both hypoxic and normoxic condition, the MN yield of bystander cells were obviously enhanced to a similar high level after co-culturing with irradiated cells or with CM treatment, and it also correlated with the irradiation dose. When the hypoxic HepG2 cells were treated with either DMSO, a scavenger of reactive oxygen species (ROS), or aminognanidine, an iNOS inhibitor, the yield of bystander MN was partly diminished, and the reducing rate of DMSO was 42.2%-46.7 %, the reducing rate of aminognanidine was 42 %. Conclusion ROS, NO and their downstream signal facets are involved in the radiation induced bystander effect of hypoxic HepG2 cells.
