Parker S E, Khatibi S, Margalith M, Anderson D, Yankauckas M, Gromkowski S H, Latimer T, Lew D, Marquet M, Manthorpe M, Hobart P, Hersh E, Stopeck A T, Norman J
Vical, Inc., San Diego, CA 92121, USA.
Cancer Gene Ther. 1996 May-Jun;3(3):175-85.
The plasmid DNA vector pVCL-1102 containing the coding sequence for the human IL-2 gene was evaluated for expression in tumor cells in vitro and in vivo. In vitro transfection of murine B16 tumor cells with pVCL-1102 resulted in the expression of 36,000 IU (5.7 micrograms) of biologically active IL-2/10(6) cells/48 h. In vitro transfection of human tumor lines and primary cultures from human biopsies with pVCL-1102 resulted in the expression of 1,289 to 9345 IU of IL-2/10(6) cells/48 h and 30 to 794 IU of IL-2/10(6) cells/48 h, respectively. In vivo, direct intratumor injection of pVCL-1102 resulted in retention of intact plasmid DNA in the tumor tissue and IL-2 secretion by cell cultures derived from the injected tumors. Formulation of pVCL-1102 with the cationic lipid DMRIE/DOPE inhibited DNA degradation and enhanced in vivo transfection efficiency over plasmid DNA alone. Antitumor activity of the pVCL-1102/DMRIE/DOPE complex was evaluated in a B16 melanoma model in mice. An IL-2-specific effect could not be demonstrated in a subcutaneous model because the intratumor injection of plasmid DNA lacking the IL-2 coding sequence also resulted in a significant reduction in tumor volume. However, an IL-2-specific effect was observed when B16 cells were transfected in vitro prior to implantation into the mouse. Transient transfection of B16 cells with pVCL-1102 rendered the cells less tumorigenic in vivo and produced a significant reduction in tumor volume. These data demonstrate that a plasmid DNA expression vector can be used to deliver the IL-2 gene to tumor cells in vitro and in vivo, resulting in the expression of significant levels of IL-2 protein. These data also illustrate the need for the use of appropriate controls when evaluating the in vivo biological activity of plasmid DNA in murine tumor models.
对含有人类白细胞介素-2(IL-2)基因编码序列的质粒DNA载体pVCL-1102进行了体外和体内肿瘤细胞表达评估。用pVCL-1102对小鼠B16肿瘤细胞进行体外转染,结果显示每10⁶个细胞/48小时表达36,000国际单位(5.7微克)具有生物活性的IL-2。用pVCL-1102对人类肿瘤细胞系和来自人类活检的原代培养物进行体外转染,结果分别显示每10⁶个细胞/48小时表达1,289至9345国际单位的IL-2和每10⁶个细胞/48小时表达30至794国际单位的IL-2。在体内,直接瘤内注射pVCL-1102导致完整的质粒DNA保留在肿瘤组织中,并使源自注射肿瘤的细胞培养物分泌IL-2。将pVCL-1102与阳离子脂质DMRIE/DOPE配制在一起可抑制DNA降解,并比单独的质粒DNA提高体内转染效率。在小鼠B16黑色素瘤模型中评估了pVCL-1102/DMRIE/DOPE复合物的抗肿瘤活性。在皮下模型中未证明有IL-2特异性作用,因为注射缺乏IL-2编码序列的质粒DNA进行瘤内注射也导致肿瘤体积显著减小。然而,当将B16细胞在植入小鼠前进行体外转染时,观察到了IL-2特异性作用。用pVCL-1102对B16细胞进行瞬时转染使细胞在体内的致瘤性降低,并使肿瘤体积显著减小。这些数据表明,质粒DNA表达载体可用于在体外和体内将IL-2基因递送至肿瘤细胞,从而导致显著水平的IL-2蛋白表达。这些数据还说明了在评估小鼠肿瘤模型中质粒DNA的体内生物活性时使用适当对照的必要性。
