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Objective: To summarize and evaluate the existing animal models of pharyngitis, in order to provide a theoretical basis for its treatment and research of traditional Chinese medicine (TCM) for throat impediment. Method: Nearly 5 years of literatures were retrieved form databases of Chinese national knowledge infrastructure (CNKI), SinoMed and Pubmed, with throat impediment, pharyngitis, and animal model as medicine subject headings terms. Result: At present, rats, rabbits, guinea pigs and macaques are available as model animals. The main methods for reproduction of pharyngitis animal model were direct ammonia molding, ammonia and turpentine combined molding and bacterial injection molding. The rarely used methods, such as pyridine induction method, capsaicin induction method and sand dust induction method, have their own characteristics. The pharyngitis animal models with the combination of TCM syndrome include YIN-deficiency type and stagnation of liver-Qi with deficiency of spleen type. These models evaluation indexes were diverse, including apparent behavior, histopathology, biochemical indicator and hemorheology. The problems of these modeling methods included the differences in etiology and mechanism between the methods of modeling and the formation of clinical patients, the lack of molecular level of pathological mechanism elaboration, the non-uniform standard for concentration, frequency and cycle of drug administration during modeling, the subjectivity in judging partial evaluation indexes and the deficiency of the pharyngitis animal model with the combination of TCM syndrome. Conclusion: Firstly, the existing models needed to be further improved by such means as the exploration of the correlation or consistency between the molecular pathology mechanism and the clinical pathogenesis, and the concentration and frequency of uniform model administration and uniform standard for evaluation indexes. Secondly, the pharyngitis animal model with the combination of TCM syndrome and modern medicine disease was urgently needed to be explored, in order to facilitate the development of basic research in TCM.
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Aim To study the effects of L-borneol on the chloride channel and cell volume of human umbili-cal vein endothelial cells (HUVECs). Methods Whole-cell patch-clamp technique was used to record chloride currents. The expression of ClC-3 protein was down-regulated by siRNA interference technique. The cell volume was measured by dynamic image analysis. Results 20 nmol·L-1L-borneol significantly activa-ted chloride current in HUVEC (79.59 ± 4.90) pA/pF, which could be inhibited by chloride channel blockers,NPPB and DIDS. The outward current inhib-itory rate of NPPB was (95.57 ± 2.57)%, while that of DIDS was (97.28 ± 6.36)%. The chloride current activated by L-borneol significantly decreased after the silence of ClC-3 (27.03 ± 3.89) pA/pF. Cell volume was markedly reduced by L-borneol (14.38 ± 1.58)%,which was inhibited after NPPB appliance. Conclusion L-borneol can activate ClC-3 chloride channel in HUVECs, which induces Cl- outflow then cell volume decrease.
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AIM:To study the effect of ClC-3 gene over-expression on thyroid structure and function in mice. METHODS:Three-months-old FVB mice were used to study the difference of thyroid structure and function between wild-type(WT)mouse and ClC-3 transgene mice.The expression and distribution of ClC-3 in the thyroid of mice were deter-mined by the methods of qPCR,Western blot and immunofluorescence.Behavioral monitoring was performed on the daily activities of mice.Serum concentrations of total triiodothyronine(TT3), total thyroxine(TT4)and thyrotropin(TSH) were measured by ELISA.RESULTS:Compared with the WT group,the expression of ClC-3 in the thyroid of ClC-3 trans-gene group was significantly increased(P<0.05).The thyroid gland showed obvious hyperplasia and the folliculi glandu-lae thyreoideae was significantly bigger in ClC-3 transgene mice(P<0.05).The weight loss was increased in ClC-3 trans-gene mice(P<0.05).The expression of TT3 and TT4 were significantly higher than that of WT group(P<0.05),but the change of TSH was not obvious.CONCLUSION:ClC-3 over-expression results in thyroid hyperplasia and thyroid hor-mone secretion.This study suggests that ClC-3 is likely to be involved in the synthesis of thyroid hormones.
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The aim of this study was to investigate the relationship between the acetylcholine concentration in the blood and gelsenicine-induced death in mice. Kunming mice were given intraperitoneal injections of normal saline, gelsenicine or different doses of acetylcholine chloride. Atropine was given to the mice which received gelsenicine or medium dose acetylcholine chloride injection. The blood was sampled immediately when the mice died or survived for 20 min after injection. The acetylcholine concentration and acetylcholinesterase activity in the blood were measured by the testing kits, and the mortality was calculated and analyzed. The results showed that half lethal dose of gelsenicine (0.15 mg/kg) reduced the acetylcholinesterase activity and increased the blood acetylcholine concentration. The blood acetylcholine concentration of the dead mice in the gelsenicine group was increased to 43.0 μg/mL (from 31.1 μg/mL in the control), which was lower than that (53.9 μg/mL) of the dead mice in the medium dose acetylcholine chloride group, but almost equal to that (42.7 μg/mL) of the survival mice in the medium dose acetylcholine chloride group. Atropine could successfully rescue the mice from acetylcholine poisoning, but its efficiency of rescuing the mice from gelsenicine intoxication was weak. These results suggest that gelsenicine can inhibit acetylcholinesterase activity and increase blood acetylcholine concentration, but the accumulation of acetylcholine may not be the only or main cause of the death induced by gelsenicine in mice.