Objective To investigate the effect of NK cells on the proliferation of four kinds of colorec-tal cancer(CRC)lines,and to explore the feasibility of adoptive NK cell immunotherapy in the treatment of CRC so as to provide an experimental basis for the diagnosis and treatment of CRC.Methods Peripheral blood mononuclear cells were isolated by the Ficoll density gradient centrifuge method,which were in vitro in-duced to activate as the NK cells and amplified.The CCK-8 method was used to detect the effect of NK cells on the proliferation of CRC cell lines RKO,HCT15,HCT116 and LoVo.The inhibition rate of NK cells on CRC cell lines was statistically analyzed and compared.Results The inhibitory rate of NK cells against the same target cells was significantly different at different effect target ratios(P＜0.05).Under different num-ber of target cells(5 × 103 vs.1 × 104),the inhibitory rate of NK cells against RKO(effect-target ratio 0.4∶1),HCT15(effect-target ratio 0.4∶1 and 0.2∶1),HCT116(effect-target ratio 3.2∶1,1.6∶1,0.8∶1,0.4∶1 and 0.2∶1)and LoVo(effect-target ratio 1.6∶1,0.8∶1,0.4∶1,0.2∶1 and 0.1∶1)were significantly different(P＜0.05),while no statistical differences were found among other groups(P＞0.05).The effect-target ratio corresponding to the maximum inhibitory rate of NK cells against four CRC cell lines was 12.8∶1 under different target cell numbers.Conclusion Adoptive NK cell immunotherapy has an impor-tant significance for the early intervention and treatment of CRC,moreover 12.8∶1 may be a safe and effec-tive effect-target ratio.

AIM　To investigate protective effects and mechanism of tanshinones on ischemia-like injury models. METHODS　Six ischemia models including hypoxia, hypoglucose, oxidant injury, caffeine injury, nitric oxide neurotoxicity and excitatory amino acid injury were used to assay the anti-ischemic roles of tanshinones in cultured primary cortex neurons. The changes of injuried cortex neurons were observed by the way of morphological examination, and live neurons of crystal violet staining were measured according to absorbent index. RESULTS　It was found that tanshinones possessed obvious protective effects on primary neurons in injury models by the way of morphological examination. Crystal violet staining also indicated that tanshinones increased number of live neurons in injury models significantly. The protective effects of tanshinones on models of oxidant injury, caffeine injury and NMDA injury were superior to other injury models. CONCLUSIONS　83.0 μmol*L-1 tanshinones protected rat cortex cells from all injury models effectively in vitro.

Aim To investigate protective effects and mechanism of TPG on ischemia_like injury models. Methods Six ischemia models including hypoxia, hypoglucose, oxidant injury, calcium overload, nitric oxide neurotoxicity and excitatory amino acid injury were used to assay the anti_ischemic roles of TPG in cultured primary cortex neurons. Results It was found that TPG possessed obvious protective effects on primary neurons in injury models by the way of morphological examination. Crystal violet staining also indicated that TPG increased number of life neurons in injury models significantly. Couclusions 50～200 ?g?ml-1 TPG protected rat cortex cells from all injury models effectively in vitro.

AIM To investigate protective effects and mechanism of tanshinones on ischemia-like injury models. METHODS Six ischemia models including hypoxia, hypoglucose, oxidant injury, caffeine injury, nitric oxide neurotoxicity and excitatory amino acid injury were used to assay the anti-ischemic roles of tanshinones in cultured primary cortex neurons. The changes of injuried cortex neurons were observed by the way of morphological examination, and live neurons of crystal violet staining were measured according to absorbent index. RESULTS it was found that tanshinones possessed obvious protective effects on primary neurons in injury models by the way of morphological e~nation. Crystal violet staining also indicated that tanshinones increased number of live neurons in injury models significantly. The protective effects of tanshinones on models of oxidant injury, caffeine injury and NMDA injury were superior to other injury models. CONCLUSIONS 83.0 ?mol? L- 1 tanshinones protected rat cortex cells fm all injury models effectively in vitro.