InVitria, Junction City, Kansas.
Division of Vector-Borne Diseases, Centers for Disease Control and Prevention, Fort Collins, Colorado.
Biotechnol Bioeng. 2020 Nov;117(11):3277-3285. doi: 10.1002/bit.27486. Epub 2020 Aug 1.
Vaccines provide effective protection against many infectious diseases as well as therapeutics for select pathologies, such as cancer. Many viral vaccines require amplification of virus in cell cultures during manufacture. Traditionally, cell cultures, such as VERO, have been used for virus production in bovine serum-containing culture media. However, due to concerns of potential adventitious agents present in fetal bovine serum (FBS), regulatory agencies suggest avoiding the use of bovine serum in vaccine production. Current serum-free media suitable for VERO-based virus production contains high concentrations of undefined plant hydrolysates. Although these media have been extensively used, the lack of chemical definition has the potential to adversely affect cell growth kinetics and subsequent virus production. As plant hydrolysates are made from plant raw materials, performance variations could be significant among different lots of production. We developed a chemically defined, serum-free medium, OptiVERO, which was optimized specifically for VERO cells. VERO cell growth kinetics were demonstrated to be equivalent to EMEM-10% FBS in this chemically defined medium while the plant hydrolysate-containing medium demonstrated a slower doubling time in both two-dimensional (2D) and 3D cultures. Virus production comparisons demonstrated that the chemically defined OptiVERO medium performed at least as good as the EMEM-10%FBS and better than the plant hydrolysate-containing media. We report the success in using recombinant proteins to replace undefined plant hydrolysates to formulate a chemically defined medium that can efficiently support VERO cell expansion and virus production.
疫苗不仅可以预防许多传染病,还可以治疗某些疾病,如癌症。许多病毒疫苗在制造过程中需要在细胞培养物中扩增病毒。传统上,细胞培养物(如 VERO)已用于含有牛血清的培养基中生产病毒。然而,由于担心胎牛血清(FBS)中存在潜在的外来物质,监管机构建议在疫苗生产中避免使用牛血清。目前适合基于 VERO 的病毒生产的无血清培养基含有高浓度未定义的植物水解物。尽管这些培养基已被广泛使用,但缺乏化学定义有可能对细胞生长动力学和随后的病毒生产产生不利影响。由于植物水解物是由植物原料制成的,因此不同批次的生产之间可能存在显著的性能差异。我们开发了一种化学定义的、无血清的培养基 OptiVERO,专门针对 VERO 细胞进行了优化。在这种化学定义的培养基中,VERO 细胞的生长动力学与 EMEM-10%FBS 相当,而含有植物水解物的培养基在二维(2D)和三维(3D)培养中显示出较慢的倍增时间。病毒生产比较表明,化学定义的 OptiVERO 培养基的性能至少与 EMEM-10%FBS 相当,优于含有植物水解物的培养基。我们报告了使用重组蛋白替代未定义的植物水解物来配制化学定义的培养基的成功经验,该培养基可以有效地支持 VERO 细胞的扩增和病毒的生产。
