Crowe J E, Bui P T, Davis A R, Chanock R M, Murphy B R
Respiratory Viruses Section, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Bethesda, MD 20892.
Vaccine. 1994 Jul;12(9):783-90. doi: 10.1016/0264-410x(94)90286-0.
A cold-passage (cp), temperature-sensitive (ts) RSV mutant designated RSV cpts-248 (shut-off temperature 38 degrees C), which possesses host-range mutations acquired during 52 passages at low temperature in bovine tissue culture and a ts phenotype introduced by subsequent chemical mutagenesis, was found previously to be attenuated, immunogenic, and protective against wild-type challenge in seronegative chimpanzees. We sought to introduce additional attenuating mutations such as small-plaque (sp) and ts mutations into RSV cpts-248 by chemical mutagenesis with 5-fluorouracil with the intent of obtaining cpts-248 derivatives that are more attenuated in mice or chimpanzees and that are more genetically stable following replication in vivo. Ten mutants of RSV cpts-248 which had acquired a sp phenotype or a second ts mutation were generated by chemical mutagenesis. Five cpts-248 derivatives which had acquired mutations that specified a 36 degrees C shut-off temperature for plaque formation and one which had acquired only a sp phenotype were more restricted in replication in Balb/c mice than the cpts-248 parental strain. One mutant, designated RSV cpts-248/404 (shut-off temperature 36 degrees C), was 100 times more restricted in replication in the nasal turbinates of mice and 100 times more restricted in the nasopharynx of seronegative chimpanzees than its cpts-248 parent. The cpts-248/404 mutant was completely restricted in replication in the lower respiratory tract of chimpanzees even following direct intratracheal administration. The ts phenotype of the cpts-248/404 mutant was stable during replication in vivo in mice and chimpanzees.(ABSTRACT TRUNCATED AT 250 WORDS)
一种冷传代(cp)、温度敏感(ts)的呼吸道合胞病毒(RSV)突变体,命名为RSV cpts - 248(关闭温度为38摄氏度),它在牛组织培养中经52代低温传代获得了宿主范围突变,并通过后续化学诱变引入了ts表型。先前发现该突变体在血清阴性黑猩猩中具有减毒、免疫原性,并能抵御野生型病毒攻击。我们试图通过用5 - 氟尿嘧啶进行化学诱变,将额外的减毒突变(如小蚀斑(sp)和ts突变)引入RSV cpts - 248,目的是获得在小鼠或黑猩猩中减毒程度更高、在体内复制后遗传稳定性更高的cpts - 248衍生物。通过化学诱变产生了10个具有sp表型或第二个ts突变的RSV cpts - 248突变体。五个获得了指定蚀斑形成关闭温度为36摄氏度突变的cpts - 248衍生物和一个仅获得sp表型的衍生物,在Balb/c小鼠中的复制比cpts - 248亲代菌株更受限制。一个名为RSV cpts - 248/404(关闭温度36摄氏度)的突变体,在小鼠鼻甲中的复制受限程度比其cpts - 248亲代高100倍,在血清阴性黑猩猩鼻咽中的复制受限程度也高100倍。即使直接经气管内给药,cpts - 248/404突变体在黑猩猩下呼吸道中的复制也完全受限。cpts - 248/404突变体的ts表型在小鼠和黑猩猩体内复制过程中是稳定的。(摘要截短为250字)
