SHAFFER J M, KUCERA C J, SPINK W W
J Exp Med. 1953 Jan;97(1):77-90. doi: 10.1084/jem.97.1.77.
A method for the in vitro study of intracellular brucella has been described. Exudative leukocytes containing intracellular brucella have been maintained in vitro in a synthetic tissue culture medium or in human or animal serum. Intracellular brucella are protected in vitro against the lethal action of therapeutic agents or the bactericidal action of serum. This protection of intracellular brucella is dependent upon the presence of an intact, viable host cell. None of the currently available therapeutic agents, whether used alone or in combinations, were capable of killing all intracellular brucella in vitro in 24 hours. A remarkable protection of intracellular brucella against streptomycin has been demonstrated. The most effective reduction in the number of viable intracellular brucella was accomplished by exposure of the host cells to streptomycin plus aureomycin, terramycin, or chloramphenicol. The available evidence suggests that the ability of brucella to localize and remain viable within the cells of an infected host is an important biologic factor in establishing and perpetuating brucella infections, despite therapeutic measures or the operation of the host's humoral defense mechanisms. Reduction of neotetrazolium by leukocytes and brucella in vitro provides a method for assessing the metabolic status of the host cell, but does not discriminate with any degree of certainty a viable from a non-viable intracellular organism.
已经描述了一种用于体外研究细胞内布鲁氏菌的方法。含有细胞内布鲁氏菌的渗出性白细胞已在合成组织培养基或人或动物血清中进行体外培养。细胞内布鲁氏菌在体外受到治疗剂的致死作用或血清的杀菌作用的保护。细胞内布鲁氏菌的这种保护取决于完整、有活力的宿主细胞的存在。目前可用的治疗剂,无论是单独使用还是联合使用,在24小时内都无法在体外杀死所有细胞内布鲁氏菌。已经证明细胞内布鲁氏菌对链霉素有显著的保护作用。通过将宿主细胞暴露于链霉素加金霉素、土霉素或氯霉素,可最有效地减少细胞内有活力的布鲁氏菌数量。现有证据表明,尽管采取了治疗措施或宿主的体液防御机制发挥作用,但布鲁氏菌在受感染宿主细胞内定位并保持存活的能力是建立和持续布鲁氏菌感染的一个重要生物学因素。白细胞和布鲁氏菌在体外对新四氮唑的还原提供了一种评估宿主细胞代谢状态的方法,但不能确定地区分存活的和非存活的细胞内生物体。