ABSTRACT
OBJECTIVE:To establish a method for determining recombinant human calmodulin B subunit(rhCNB)in rat plas-ma,and study its pharmacokinetics characteristics. METHODS:ELISA double-antibody sandwich method was adopted. 1 μg/ml rhCNB monoclonal antibody mAb was wrapped,added to the to-be-test sample,rhCNB polyclonal antibody pAb(dilution ratio of 1∶5 000)and HRP-labeled conjugate of anti-IgG(dilution ratio of 1∶10 000)were added. Using tetramethylbenzidine for develop-ing,microplate reader was conducted in wavelength of 450 nm to determine the absorbance value(OD value)and plasma concen-tration of 6 rats after 2,15,30,60,120,240,480,720 min of iv 2.5 mg/kg rhCNB,and the pharmacokinetic parameters were calculated by BAPP 3.0 software. RESULTS:The linear range of rhCNB were 0.195-12.5 ng/ml(r2=0.995 0),lower limit of quan-titation was 0.195 ng/ml,accuracy were 97.300%-103.622%(RSD<7.5%,n=6);RSDs of within-batch,inter-batch,freezing and thawing 3 times were no higher than 8.5%(n=6,18,15). rhCNB pharmacokinetics characteristics in rat fitted to two-com-partment model,AUC0-720 min was 173.038 mg·min/L and t1/2 was 94.62 min. CONCLUSIONS:The established method has high specificity and sensitivity,good accuracy and precision,which can be used for rhCNB quantitative detection and pharmacokinetics study in biological samples.
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Aim To discuss the application of tissue spontane-ous fluorescence for draw focal cerebral ischemia reperfusion in-jury in rats based on specific fluorescence detection technology. Methods The change of spontaneous fluorescence WAS COM-PARED between the brains of normal rats and those of rats with draw focal cerebral ischemia-reperfusion injury and an quantita-tive analysis was then made. Result The results showed that spontaneous fluorescence of brain tissue for focal cerebral ische-mia reperfusion injury changed significantly. Spontaneous fluo-rescence signal of injury considerably enhanced. The fluores-cence signal which was quantified by IVIS had significant statisti-cal significance compared with normal brain tissue, P <0. 05. Conclusion Our research shows that spontaneous fluorescence of brain tissue enhances obviously after focal cerebral ischemia-reperfusion injury. Our research provides a method for the re-search and evaluation of focal cerebral ischemia-reperfusion inju-ry model in rats.
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Objective:To investigate the antitumor activity of the compound HS-4 and the action mechanism.Methods:MTT method was used to testin vitroantitumor activity of the compound HS-4. Orthotopic xenotransplantation tumor model of liver cancer was established in nude mice, and,in vivoantitumor activity of compound HS-4 was tested with a small animal in-vivo imaging system. Sequencing of small RNA library and RNA library was performed in HS-4 treated tumor cell group and control group to investigate the anti-cancer mechanism of HS-4 at level of functional genomics, using high-throughput sequencing technology. Results:HS-4 was found to have relatively highin-vitro antitumor activity against liver cancer cells, gastric cancer cells, renal cancer cells, lung cancer cells, breast cancer cells and colon cancer cells. The IC50 values against SMMC-7721 and Bel-7402 of liver cancer cells were 0.14 and 0.13 nmol/L respectively, while the IC50 values against MGC-803 and SGC-7901 of gastric cancer cells were 0.19 and 0.21 nmol/L, respectively. It was demonstrated that HS- 4 possessed a better therapeutic effect in liver cancer.Conclusions: A new reliable orthotopic xenotransplantation tumor model of liver cancer in nude mice is established. The new compounds HS-4 was found to possess relatively highin vivo andin vitroantitumor activity against liver cancer cells.