Munderloh U G, Kurtti T J
University of Minnesota, Department of Entomology, St. Paul 55108.
Exp Appl Acarol. 1989 Aug;7(3):219-29. doi: 10.1007/BF01194061.
We examined the effectiveness of bovine cholesterol concentrate in reducing the high level (10-20%) of fetal bovine serum (FBS) necessary to promote tick cell growth in vitro. Tick cell lines isolated from embryos of Anocentor nitens (ANE 58), Boophilus microplus (BME 26), and Rhipicephalus appendiculatus (RAE 25) were used. They were incubated in L-15 (BME 26) or L-15B (ANE 58 and RAE 25) supplemented with 10% tryptose phosphate broth (TPB), 5% (ANE 58 and BME 26) or 3% FBS, 10-90 microns/ml cholesterol. A concentration of 10 micrograms/ml cholesterol stimulated the growth rate of all three lines but more than 30 micrograms/ml depressed growth in ANE 58 and RAE 25 cells, while multiplication of BME 26 cells was enhanced by all cholesterol concentrations tested. All three lines could be continuously grown in 5% FBS, provided that 10 micrograms/ml cholesterol was included. Nutrients added to L-15 in the formulation of L-15B were tested singly or in combination for their ability to support tick cell growth in medium supplemented only with 5% FBS and 10 microns/ml cholesterol. In L-15 alone, RAE 25 cells did not multiply. Adding glucose (Glc), glutamic acid (Glu), or alpha-ketoglutaric acid (alpha K) had little or no effect, and the same was true for combinations of Glc plus alpha K, aspartic acid (Asp) plus proline (Pro) and glutamine (Gln), and minerals plus vitamins (MV). When Asp, Gln, Pro, and alpha K were combined with Glc and/or MV and added to L-15, there was appreciable growth stimulation, but best results were obtained when Glu was also included. In this medium, i.e., L-15B with 5% FBS and 10 mu/ml cholesterol, lines BME 26 and RAE 25 could be continuously subcultured.
我们研究了牛胆固醇浓缩物在降低促进蜱细胞体外生长所需的高水平(10 - 20%)胎牛血清(FBS)方面的效果。使用了从微小牛蜱(BME 26)、安氏革蜱(ANE 58)和血红扇头蜱(RAE 25)胚胎中分离出的蜱细胞系。它们在添加了10%胰蛋白胨磷酸盐肉汤(TPB)、5%(ANE 58和BME 26)或3% FBS、10 - 90微克/毫升胆固醇的L - 15(BME 26)或L - 15B(ANE 58和RAE 25)中培养。10微克/毫升的胆固醇浓度刺激了所有三个细胞系的生长速率,但超过30微克/毫升会抑制ANE 58和RAE 25细胞的生长,而所有测试的胆固醇浓度都增强了BME 26细胞的增殖。只要包含10微克/毫升胆固醇,所有三个细胞系都可以在5% FBS中连续生长。单独测试或组合测试添加到L - 15B配方中的L - 15中的营养物质,以评估它们在仅添加5% FBS和10微克/毫升胆固醇的培养基中支持蜱细胞生长的能力。仅在L - 15中,RAE 25细胞不增殖。添加葡萄糖(Glc)、谷氨酸(Glu)或α - 酮戊二酸(αK)几乎没有影响,Glc加αK、天冬氨酸(Asp)加脯氨酸(Pro)和谷氨酰胺(Gln)以及矿物质加维生素(MV)的组合也是如此。当Asp、Gln、Pro和αK与Glc和/或MV组合并添加到L - 15中时,有明显的生长刺激,但当也包含Glu时获得最佳结果。在这种培养基中,即含有5% FBS和10微克/毫升胆固醇的L - 15B中,BME 26和RAE 25细胞系可以连续传代培养。
