In this study, we found, through biochemical synthesis of DNA with the incorporation of ~3HTdR and morphological observation of the tumor cells, that aidiron (912), an extract from earthworm, had a stronger kilting ef...In this study, we found, through biochemical synthesis of DNA with the incorporation of ~3HTdR and morphological observation of the tumor cells, that aidiron (912), an extract from earthworm, had a stronger kilting effect (27%) on mouse ascitic hepatoma tumor cells (H_(22)) in vitro, and that laser-hematoporphyrin derivative (HpD) combined with 912 markedly enhanced the kilting effect (74%) on tumor cells. By means of the fluoresoence spectrophotography we also dis- covered that the killing effect of laser-HpD-912 on tumor calls was closely related with the produc- tion of free radicals and lipid peroxidation.展开更多
To elucidate the mechanism of photodynamic damage of cells, the effect of HPD plus light on transcriptlonal ectlvlty In the mucleus Isolate from the normal rat liver was studied in vitor by 3H- UTP incorporation into ...To elucidate the mechanism of photodynamic damage of cells, the effect of HPD plus light on transcriptlonal ectlvlty In the mucleus Isolate from the normal rat liver was studied in vitor by 3H- UTP incorporation into RNA. Measurements of fluorescence spectrum showed that HPD was bound to the nucleus and its fluorescence Intensity Increased with the Increase of HPD concentration. The experimental results Indicated that no changes could be observed when either HPD or light was used alone. Whereas the nuclear transcription activity was found to be inhibited significantly by both HPD and light treatment, and the degree of Inhibition was dependent on the HPD concentration and the time of exposure to light. After treatment by 3 μg/ ml HPD, the inhibition rate of the nuclear transcription activity was 23% ,45% ,69% ,80% and 90%, respectively for light exposure of 2, 5, 10, 20 and 30 minutes. Our results suggested that dose-dependent decreases in the nuclear transcription activity, and marked inhibition of the activity was found in the range from 3 to 7 μg/ml HPD following exposure to light.展开更多
Photodynamic therapy(PDT)not only destroys tumor cells directly but also induced anti-tumor immune response through damage-associated molecular patterns(DAMPs).It is reported that anti-tumor response was associated wi...Photodynamic therapy(PDT)not only destroys tumor cells directly but also induced anti-tumor immune response through damage-associated molecular patterns(DAMPs).It is reported that anti-tumor response was associated with light dose and photosensitizer used in PDT.In this study,4T1 tumor cells were implanted on both the right and left flanks of mice.Only the right tumor was treated by HpD-PDT,while the left tumor was not irradiated.The anti-tumor immune response induced by HpD-PDT was investigated.The expression of DAMPs and costimulatory molecules induced by HpD-PDT were tested by immuno fluorescence and flow cytometry in vivo.Different light doses of PDT were designed to treat 4T1 cells.The killing effect was assessed by CCK-8 kit and apoptosis kit.The expression of DAMPs on 4T1 cells after HpDPDT were evaluated by flow cytometry,western blot and ATP kit.This study showed that CD4^(+)T,CD8^(+)T and the production of IFN-γwere increased significantly on day 10 in righttumor after PDT treatment compared with control group.HpD-PDT enhanced the expression of calreticulin(CRT)on tumor tissue.Importantly,co-stimulatory molecular OX-40 and 4-1BB were elevated on CD8^(+)T cells.In vitro,immunogenic death of 4T1 cells was induced after PDT.Besides,the expression of DAMPs increased with the increasing of energy density.This study indicates that anti-tumor immune effect was induced by HpD-PDT.The knowledge of the involvement of CRT,ATP and co-stimulatory molecules uncovers important mechanistic insight into the anti-tumor immunogenicity.It was the first time that co-stimulatory molecules were investigated and found to elevate after PDT.展开更多
Murine monoclonal antibody (MoAb) BB4.3, raised against the human gastric cancer cell line BGC823, was puriffied with Protein A-Sepharose CL-4B affinity chromatography and identified as IgG2a. It was then conjugated w...Murine monoclonal antibody (MoAb) BB4.3, raised against the human gastric cancer cell line BGC823, was puriffied with Protein A-Sepharose CL-4B affinity chromatography and identified as IgG2a. It was then conjugated with a hematoporphyrin derivative (HPD) by using carbodiimide. The qualitative analysis of this conjugate showed that the amount of free HPD was negligible and there were no IgG aggregates among the conjugates. The conjugate retained both the antibody and photochemical activity of HPD.In vitro, the phototoxic effect of this HPD-BB4.3 conjugate on target cells was about 15 times higher than that of free HPD. The quality of selective photocytotoxicity was proven by the greater cytotoxi-city this conjugate showed than that of corresponding normal mouse IgG (NIgG) conjugated with HPD. It showed less cytotoxicity to colon cancer cell line B-80 (negative reaction to MoAb BB4.3) than to BGC825. Moreover, its cytotoxicity to BGC823 cells could be blocked specifically by excess BB4.3 antibody, but not by another MoAb 3G9, which combines with BGC823 at different binding sites from MoAb BB4.3.Nude mice inoculated with 2 × 10- BGC823 cells were given HPD-BB4.3, HPD, HPD-NIgG, HPD plus BB4.3 and PBS, respectively then exposed to light. Four out of six animals treated with the HPD-BB4.3 conjugate remained tumor-free for a long period. Although two developed tumors, there was a significant difference between the HPD-BB4.3-treated group and all the control groups in tumor induction time, tumor growth rate, and survival time (p<0.001). The HPD-BB4.3 conjugate inhibited the growth of established tumors by more than 40% in comparison with control groups (p<0.05).展开更多
During autologous bone marrow graft in treatment of malignant diseases, it is critical to purge malignant cells from the marrow. In the present study, the sensitivity to photodynamic inactivation of 3 leukemic cell li...During autologous bone marrow graft in treatment of malignant diseases, it is critical to purge malignant cells from the marrow. In the present study, the sensitivity to photodynamic inactivation of 3 leukemic cell lines was compared with their counterpart normal hematopoietic cells. After mouse leukemic L1210 cells were treated with a preparation of hematoporphyrin derivatives, YHpD, 10 μg/ml for 1 hr. and irradiated with blacklight (peak wavelength 395 nm, light intensity 0.6 mW/cm2) for 5 minutes, the survival rate of clonogenic cells decreased to <10%, while that of bone marrow granulocyte macrophage progenitor cells (CFU-GM) in DBA/2 mice remained at nearly normal level (>80%). Similar results were obtained when human leukemic HL-60 cells were compared with human CFU-GM and mouse leukemic L615 cells with CFU-GM in 615 strain mice. It is suggested that hematoporphyrin photoradiation may be useful for Iselectively killing leukemic cells in bone marrow.展开更多
Dengue vector is responsible for millions of deaths every year and has caused disastrous impacts on health systems. The continuous use of chemical insecticides, such as carbamates, pyrethroids and organophosphates gen...Dengue vector is responsible for millions of deaths every year and has caused disastrous impacts on health systems. The continuous use of chemical insecticides, such as carbamates, pyrethroids and organophosphates generates resistant populations of the mosquito, therefore, new control methods must be investigated. The joint action of the population and guidelines for preventing the reproduction of the mosquito associated with the use of photoactivatable insecticides can be the alternative for the control of epidemiological outbreaks in affected regions. In this study, the photo-larvicidal activity of Photogem^(PG), a derivative of hematoporphyrin, was investigated against 2nd-early 3rd instar of Aedes aegypti larvae (Diptera: Culicidae) under different lighting conditions (artificial lighting system and sunlight). The dynamics of PG accumulation was characterized by CLSM (confocal laser scanning microscopy) and total time PG eliminationin solution was investigated by ultraviolet-visible spectrophotometry. The maximum photo-activity of PG was observed in 0.5 h under sunlight exposure which achieved 100% larval mortality. Fluorescence images showed a uniform distribution of PG along the digestive tract. PG remained stable in the sunlight for 48 h and in an artificial lighting system for longer periods, therefore, it can be used for the control ofAedes aegypti larvae as a new alternative to chemical insecticides. The method is considered environmentally friendly due to its rapid degradation in the presence of light. Further studies are required, so that the potential of the technique can be explored in real breeding places.展开更多
文摘In this study, we found, through biochemical synthesis of DNA with the incorporation of ~3HTdR and morphological observation of the tumor cells, that aidiron (912), an extract from earthworm, had a stronger kilting effect (27%) on mouse ascitic hepatoma tumor cells (H_(22)) in vitro, and that laser-hematoporphyrin derivative (HpD) combined with 912 markedly enhanced the kilting effect (74%) on tumor cells. By means of the fluoresoence spectrophotography we also dis- covered that the killing effect of laser-HpD-912 on tumor calls was closely related with the produc- tion of free radicals and lipid peroxidation.
文摘To elucidate the mechanism of photodynamic damage of cells, the effect of HPD plus light on transcriptlonal ectlvlty In the mucleus Isolate from the normal rat liver was studied in vitor by 3H- UTP incorporation into RNA. Measurements of fluorescence spectrum showed that HPD was bound to the nucleus and its fluorescence Intensity Increased with the Increase of HPD concentration. The experimental results Indicated that no changes could be observed when either HPD or light was used alone. Whereas the nuclear transcription activity was found to be inhibited significantly by both HPD and light treatment, and the degree of Inhibition was dependent on the HPD concentration and the time of exposure to light. After treatment by 3 μg/ ml HPD, the inhibition rate of the nuclear transcription activity was 23% ,45% ,69% ,80% and 90%, respectively for light exposure of 2, 5, 10, 20 and 30 minutes. Our results suggested that dose-dependent decreases in the nuclear transcription activity, and marked inhibition of the activity was found in the range from 3 to 7 μg/ml HPD following exposure to light.
基金This work was supported by the National Key Research and Development Program of China[2018YFB0407200]National Natural Science Foundation of China[61975239]Medical and Health Technology Innovation Project of the Chinese Academy of Medical Sciences[2019-I2M-5-061].
文摘Photodynamic therapy(PDT)not only destroys tumor cells directly but also induced anti-tumor immune response through damage-associated molecular patterns(DAMPs).It is reported that anti-tumor response was associated with light dose and photosensitizer used in PDT.In this study,4T1 tumor cells were implanted on both the right and left flanks of mice.Only the right tumor was treated by HpD-PDT,while the left tumor was not irradiated.The anti-tumor immune response induced by HpD-PDT was investigated.The expression of DAMPs and costimulatory molecules induced by HpD-PDT were tested by immuno fluorescence and flow cytometry in vivo.Different light doses of PDT were designed to treat 4T1 cells.The killing effect was assessed by CCK-8 kit and apoptosis kit.The expression of DAMPs on 4T1 cells after HpDPDT were evaluated by flow cytometry,western blot and ATP kit.This study showed that CD4^(+)T,CD8^(+)T and the production of IFN-γwere increased significantly on day 10 in righttumor after PDT treatment compared with control group.HpD-PDT enhanced the expression of calreticulin(CRT)on tumor tissue.Importantly,co-stimulatory molecular OX-40 and 4-1BB were elevated on CD8^(+)T cells.In vitro,immunogenic death of 4T1 cells was induced after PDT.Besides,the expression of DAMPs increased with the increasing of energy density.This study indicates that anti-tumor immune effect was induced by HpD-PDT.The knowledge of the involvement of CRT,ATP and co-stimulatory molecules uncovers important mechanistic insight into the anti-tumor immunogenicity.It was the first time that co-stimulatory molecules were investigated and found to elevate after PDT.
文摘Murine monoclonal antibody (MoAb) BB4.3, raised against the human gastric cancer cell line BGC823, was puriffied with Protein A-Sepharose CL-4B affinity chromatography and identified as IgG2a. It was then conjugated with a hematoporphyrin derivative (HPD) by using carbodiimide. The qualitative analysis of this conjugate showed that the amount of free HPD was negligible and there were no IgG aggregates among the conjugates. The conjugate retained both the antibody and photochemical activity of HPD.In vitro, the phototoxic effect of this HPD-BB4.3 conjugate on target cells was about 15 times higher than that of free HPD. The quality of selective photocytotoxicity was proven by the greater cytotoxi-city this conjugate showed than that of corresponding normal mouse IgG (NIgG) conjugated with HPD. It showed less cytotoxicity to colon cancer cell line B-80 (negative reaction to MoAb BB4.3) than to BGC825. Moreover, its cytotoxicity to BGC823 cells could be blocked specifically by excess BB4.3 antibody, but not by another MoAb 3G9, which combines with BGC823 at different binding sites from MoAb BB4.3.Nude mice inoculated with 2 × 10- BGC823 cells were given HPD-BB4.3, HPD, HPD-NIgG, HPD plus BB4.3 and PBS, respectively then exposed to light. Four out of six animals treated with the HPD-BB4.3 conjugate remained tumor-free for a long period. Although two developed tumors, there was a significant difference between the HPD-BB4.3-treated group and all the control groups in tumor induction time, tumor growth rate, and survival time (p<0.001). The HPD-BB4.3 conjugate inhibited the growth of established tumors by more than 40% in comparison with control groups (p<0.05).
文摘During autologous bone marrow graft in treatment of malignant diseases, it is critical to purge malignant cells from the marrow. In the present study, the sensitivity to photodynamic inactivation of 3 leukemic cell lines was compared with their counterpart normal hematopoietic cells. After mouse leukemic L1210 cells were treated with a preparation of hematoporphyrin derivatives, YHpD, 10 μg/ml for 1 hr. and irradiated with blacklight (peak wavelength 395 nm, light intensity 0.6 mW/cm2) for 5 minutes, the survival rate of clonogenic cells decreased to <10%, while that of bone marrow granulocyte macrophage progenitor cells (CFU-GM) in DBA/2 mice remained at nearly normal level (>80%). Similar results were obtained when human leukemic HL-60 cells were compared with human CFU-GM and mouse leukemic L615 cells with CFU-GM in 615 strain mice. It is suggested that hematoporphyrin photoradiation may be useful for Iselectively killing leukemic cells in bone marrow.
文摘Dengue vector is responsible for millions of deaths every year and has caused disastrous impacts on health systems. The continuous use of chemical insecticides, such as carbamates, pyrethroids and organophosphates generates resistant populations of the mosquito, therefore, new control methods must be investigated. The joint action of the population and guidelines for preventing the reproduction of the mosquito associated with the use of photoactivatable insecticides can be the alternative for the control of epidemiological outbreaks in affected regions. In this study, the photo-larvicidal activity of Photogem^(PG), a derivative of hematoporphyrin, was investigated against 2nd-early 3rd instar of Aedes aegypti larvae (Diptera: Culicidae) under different lighting conditions (artificial lighting system and sunlight). The dynamics of PG accumulation was characterized by CLSM (confocal laser scanning microscopy) and total time PG eliminationin solution was investigated by ultraviolet-visible spectrophotometry. The maximum photo-activity of PG was observed in 0.5 h under sunlight exposure which achieved 100% larval mortality. Fluorescence images showed a uniform distribution of PG along the digestive tract. PG remained stable in the sunlight for 48 h and in an artificial lighting system for longer periods, therefore, it can be used for the control ofAedes aegypti larvae as a new alternative to chemical insecticides. The method is considered environmentally friendly due to its rapid degradation in the presence of light. Further studies are required, so that the potential of the technique can be explored in real breeding places.
