1.1H NMR based metabonomics study on the antidepressant effect of genipin in rat hippocampus.
Guojiang PENG ; Biyun SHI ; Junsheng TIAN ; Shan GAO ; Xuemei QIN
Acta Pharmaceutica Sinica 2014;49(2):209-16
The purpose of this study is to explore depression metabolic markers in rat hippocampus and to investigate the anti-depressant effect of genipin and its mechanisms using nuclear magnetic resonance (NMR) metabonomics. Chronic unpredictable mild stress (CUMS) procedure was conducted to establish the depressive rat model. At the beginning of the third week, genipin low dose (25 mg x kg(-1)), middle dose (50 mg x kg(-1)), high dose (100 mg x kg(-1)), and venlafaxine (50 mg x kg(-1)) were given to the CUMS rats separately once daily for two weeks except control and model groups. Rat hippocampus was analyzed by 1H NMR based metabonomics after drug administration for 2 weeks. Significant differences in the metabolic profile of rat hippocampus of the CUMS treated group and the control group were observed with metabolic effects of CUMS including decreasing in glycine and N-acetylaspartate, increasing in inositol, glutamate, lactate, glutamine, taurine and alanine. Genipin showed ideal antidepressive effects at a dose of 50 mg x kg(-1) in rats, decrease of inositol, glutamate, lactate, alanine were observed, while glycine and N-acetylaspartate were increased. Important influence has been found on normal nervous system function of these significant changed metabolites, which suggests that the antidepressant effect of genipin may be played by enhancing the activity of neurons in hippocampus, repairing and improving the function of the neuron. The metabonomics approach is an effective tool for the investigation of the anti-depressant effect and pharmacologic mechanisms of genipin.
2.Investigating the killing effect of photodynamic therapy induced by different photosensitizers on human leukemia cell in vitro
Hongli CHEN ; Yingxin LI ; Huijuan YIN ; Yuxiao CUI ; Liqing ZHENG ; Peng LI ; Guojiang GAO
International Journal of Biomedical Engineering 2012;35(4):197-200
Objective To investigate and compare the killing effect of photodynamic therapy (PDT)induced by hematoporphyrin derivative (HpD),hematoporphyrin monomethyl ether (HMME) and photocarcinorin (PsD007) on human leukemia cells K562 in vitro.Methods Human leukemia cells were cultured with serial concentrations of photosensitizers followed by irradiation of different dosage of laser light,then MTT colorimetric assay was applied to measure the relative survival rate of PDT for the cells.Results Significant difference in the inhibitory between the PDT group and control group was observed (P<0.05).The survival rate of PDT for the cells elevated along with the increase in the concentration of sensitizer and dose of laser light.When the photosensitizer concentration was bigger (25 μg/ml) or the energy density was bigger (7.2 J/cm2),the effect of PsD007 was better than HMME,and they were significantly better than HpD (P<0.05).Conclusion PDT has significant killing effect on human leukemia cells K562,and its relative inhibitory rate appears to be correlated with the dose of sensitizer and laser light irritation.The effect of PDT is related to the photosensitizers.The effect of HpD-PDT is not as effective as PsD007 and HMME.On the conditions of higher energy density and larger photosensitizer concentration,the effect of PsD007-PDT is better than HMME-PDT.
3.In vitro activity of artemether against Demodex folliculorum
Guojiang WANG ; Xiaoyan GAO ; Ting LI ; Haiqing ZHANG ; Xiangming CHEN ; Yang HU
Chinese Journal of Dermatology 2016;49(11):809-811
Objective To assess the in vitro antimite activity of artemether against Demodex folliculorum, and to provide evidence for the use of artemether in the treatment of skin diseases caused by Demodex folliculorum infection. Methods Artemether was diluted to different concentrations(20, 10, 5 and 2.5 g/L)with peanut oil. The pH values of working solutions of artemether and peanut oil were measured. Demodex folliculorum mites were divided into several groups(32 mites in each group)to be treated with artemether(20, 10, 5 and 2.5 g/L, artemether groups) or peanut oil(control group). Results There were significant differences in the time required for killing of Demodex folliculorum among the 20?, 10?, 5?and 2.5?g/L artemether groups and control group(Median[P25-P75]:3.00[2.00-3.88]vs. 6.00[4.13- 7.25]vs. 13.00[11.63- 14.50]vs. 17.00[15.25- 20.75]vs. 34.00[23.50- 39.50]hours, H=133.954, P<0.001). Additionally, the time required for killing of Demodex folliculorum was significantly shorter in these artemether groups than in the control group(all P<0.001), and was gradually shortened with the increase of artemether concentrations, but was similar between the 10? and 20?g/L artemether groups(P > 0.05). Moreover, the pH values of working solutions of artemether and peanut oil ranged between 7.0 and 7.1, and were close to neutral. Conclusion Artemether at 20, 10, 5 and 2.5 g/L can kill Demodex folliculorum in vitro, so artemether may serve as an alternative drug for the treatment of Demodex folliculorum infection.
4.Dynamic analysis of Oncomelania snail distribution in Jiangsu Province,2004-2008
Leping SUN ; Yousheng LIANG ; Zengxi TIAN ; Qingbiao HONG ; Guojiang YANG ; Kun YANG ; Wei WANG ; Yang GAO ; Jingzhang HUANG ; Lianheeng ZHANG ; Jiahong GUO ; Jie MIN ; Yixin HUANG
Chinese Journal of Schistosomiasis Control 2010;22(1):26-30
Objective To analyze the characteristics and changes of Oncomdania snail distribution in regions with different epidemic types and degrees of Jiangsu Province,so as to provide the evidence for implementing the feasible schistosomiasis control strategy.Methods A retrespeetive survey was performed,and the 5-year database of snail status in Jiangsu Province was established based on the collected reports of snail habitat cards and schistosomiasis control in Jiangsu Province from 2004 to 2008.The changes of snail areas,infected snail aroas,infection rates of snails in different years were analyzed,and tIIe annual vailations of snail areas,infected snail areas and infection rates of snails in areas with different epidemic types and degrees were eomparedI Results The actual snail areas and infected snail areas decreased by 3 799.86 hm~2 and 2 006.35 hm~2.respectively in Jiangsu Province.2006-2008.with the annual meaan decreasing rates of 9.64% and 18.83%.Among them,the actual snail areas in marshland and lake regions,water net regions and mountainous regions decreased by 3 546.10.209.19 hm~2 and 44.57 hm~2,respectively,with the annual meall decreasing rates of 9.59%,10.29% and 11.18%,respectively.An area of 22.02 hm~2 of new snail habitatswas detected during the 5 years,and thewater net regions accounted for 89.24%.Theproportions of actual snail areas in historical snail ale,as were between 2.77% and 5.36%.Among them.the proportions of actual snail areas in historical accumulative snail area8 in transmission-uncontrolled.trailsmission-controlled and transmission-interrupted areas were 13.29%-22.82%,0.88%-3.54% and 0.14%-0.32%,respectively,and there were significant differences among them(P<0.01).The constituent ratios of the actual snail areaswere 93.79%-95.60%.3.67%-5.45% and 0.73%-1.01%, respectively in marshland and lake regions,water net regions and mountainous regions from 2004 to 2008.The infection rate of snails in Jiangsu Province reduced from 0.15% in 2004 to 0.02% in 2008,with a reduction rate of 85.50%(P<0.01).The constituent ratios of infected snail areas in transmission-uncontrolled, transmission-controlled and transmission-interrupted areas were 98.15%-100%,0-0.81%, and 0-1.43%,respectively.Conclusions As a whole,there is a decreasing tendency of snail areas and infected snail areas in Jiangsu Province.and the snail control has been consohdated step by step in transmission-interrupted areas.The effective control of snails in marshland and lake regions and infected snails in transmission-uncontrolled areas are the key points in the future schistosomiasis control of Jiangsu Province.