Microcalorimetry coupled with statistical analysis techniques for bio-activity evaluation of medicinal animal horns and shells
详细信息 查看全文
- 作者:Xiaoyan Xing ; Yanling Zhao ; Weijun Kong…
- 关键词:Microcalorimetry ; Bio ; activity evaluation ; Medicinal animal horns and shells ; Splenic lymphocytes ; Statistical analysis
- 刊名:Journal of Thermal Analysis and Calorimetry
- 出版年:2015
- 出版时间:April 2015
- 年:2015
- 卷:120
- 期:1
- 页码:973-979
- 全文大小:579 KB
- 参考文献:1. Guo, GY, Liu, LS, Guo, Y, Wang, SJ, Jiang, GZ (1998) Development of pharmaco-study of animal drugs. Inf Trad Chin Med 6: pp. 15-18
2. Sun, BS (2004) Medical study of animal drugs. Inf Trad Chin Med 21: pp. 25-26
3. Wu, F, Li, H, Jin, L, Li, X, Ma, Y, You, J, Li, S, Xu, Y (2013) Deer antler base as a traditional Chinese medicine: a review of its traditional uses, chemistry and pharmacology. J Ethnopharmacol 145: pp. 403-415 CrossRef
4. Li, ZF, Zhang, S (2008) The progress and prospect of fundamental research of the spleen. Acad J Xi’an Jiaotong Univ 29: pp. 1-6
5. Catherine, F (2005) Where do T Cells stand in rheumatoid arthritis. Joint Bone Spine 72: pp. 527-532 CrossRef
6. Xia, Q, Pang, W, Pan, H, Zheng, Y, Kang, JS, Zhu, SG (2004) Effects of ghrelin on the proliferation and secretion of splenic T lymphocytes in mice. Regul Pept 122: pp. 173-178 CrossRef
7. Cui, J, Xiao, Y, Shi, YH, Le, GW, Miao, XY (2010) Comparative proteome analysis of splenic lymphocytes in long-term high-fat diet and dietary supplement with lipoic acid mice. Cell Immunol 264: pp. 156-162 CrossRef
8. Kong, WJ, Zhao, YL, Xiao, XH, Wang, JB, Li, HB, Li, ZL, Jin, C, Liu, Y (2009) Spectrum-effect relationships between ultra performance liquid chromatography fingerprints and anti-bacterial activities of Rhizoma coptidis. Anal Chim Acta 634: pp. 279-285 CrossRef
9. Kong, WJ, Wang, JB, Xing, XY, Xiao, XH, Zhao, YL, Zang, QC, Zhang, P, Jin, C, Li, ZL, Liu, W (2011) Antifungal evaluation of cholic acid and its derivatives on Candida albicans by microcalorimetry and chemometrics. Anal Chim Acta 689: pp. 250-256 CrossRef
10. Braissant, O, Bonkata, G, Wirz, D, Bachmann, A (2013) Microbial growth and isothermal microcalorimetry: growth models and their application to microcalorimetric data. Thermochim Acta 555: pp. 64-71 CrossRef
11. Zhang, T, Li, X, Lu, Y, Liu, P, Zhang, CC, Luo, H (2014) Joint toxicity of heavy metals and chlorobenzenes to pyriformis Tetrahymena. Chemosphere 104: pp. 177-183 CrossRef
12. Chen, XJ (2014) Feng WS, Yu YH. Studies on the nongrowth metabolism of the different strains of Tetrahymena cells by isothermal microcalorimetry. J Therm Anal Calorim 115: pp. 2145-2149 CrossRef
13. Maskow, T, Kemp, R, Buchholz, F, Schubert, T, Kiesel, B, Harms, H (2010) What heat is telling us about microbial conversions in nature and technology: from chip-to megacalorimetry. Microbiol Biotechnol 3: pp. 269-284 CrossRef
14. Maskow, T, Harms, H (2006) Real time insights into bioprocesses using calorimetry: state of the art and potential. Eng Life Sci 6: pp. 266-277 CrossRef
15. Braissant, O, Wirz, D, G?pfert, B (2010) Daniels AU Use of isothermal microcalorimetry to monitor microbial activities. FEMS Microbiol Lett 303: pp. 1-8 CrossRef
16. Kong, WJ, Wang, JB, Xiao, XH, Zang, QC, Zhao, YL, Wei, JH, Chen, SL, Yang, MH (2012) Assessment of the toxicity of two Aconitum herbal medicines by microcalorimetry and chemometrics. Food Chem 132: pp. 2054-2059 CrossRef
17. Keiser, J, Manneck, T, Kirchhofer, C, Braissant, O (2013) Isothermal microcalorimetry to study the activity of triclabendazole and its metabolites on juvenile and adult Fasciola hepatica. Exp Parasitol 133: pp. 265-268
文摘
Microcalorimetry is an important analytical tool continuously measuring the heat output generated in the physical, chemical or biological processes. Here, the microcalorimetric method was used to evaluate the bio-activity differences of seven medicinal animal horns and shells on splenic lymphocytes. The cells were placed in the 20-mL glass ampoules containing RPMI-1640 and the test drugs (10?mg?mL?), and the heat output and motility of the cells were examined with an isothermal microcalorimeter. From the measured power–time curves, some quantitative thermokinetic parameters were obtained. By analyzing these parameters using principal component analysis, two main parameters, the maximum heat-output power P m and total heat output Q, were optimized, through which the effects of the seven drugs on splenic lymphocytes were quickly evaluated: 10?mg?mL? of Cornu Cervi Pantotrichum showed stronger promotion effect than Cornu Cervi on the growth and proliferation of splenic lymphocytes, whereas the other five horns and shells animal drugs including Cornu Saigae Tataricae, Cornu Caprae Hircus, Cornu Bubali, Squama Manis and Carapax Trionycis at 10?mg?mL? all inhibited the growth of splenic lymphocytes, and Cornu Saigae Tataricae expressed the strongest inhibitory effect. The result of hierarchical clustering analysis on the quantitative parameters indicated that the drugs with promotion effect on splenic lymphocytes clustered into one group and the other drugs with inhibitory effect consisted of another group. The results have highlighted the bio-activity differences of the seven horns and shells animal drugs referring to immune functions from the cell level, providing meaningful references for the clinical use of the valuable drugs.