Mahvi D M, Burkholder J K, Turner J, Culp J, Malter J S, Sondel P M, Yang N S
Department of Surgery, University of Wisconsin, Madison 53792, USA.
Hum Gene Ther. 1996 Aug 20;7(13):1535-43. doi: 10.1089/hum.1996.7.13-1535.
The necessity for prolonged tissue culture manipulations limits the clinical application of many form of gene therapy in patients with malignancies. We hypothesized that granulocyte-macrophage colony-stimulating factor (GM-CSF) cDNA in a plasmid expression vector could be effectively introduced into resting tumor cells, without the need for tissue culture propagation prior to or following transfection, and that efficient expression of transgenic GM-CSF by the transfected tumor cells would confer an effective immune response against tumors. GM-CSF cDNA in expression vectors was coated onto gold particles and accelerated with a gene gun device into mouse and human tumor cells. Human tumor tissue transfected within 4 hr of surgery produced significant levels of transgenic human GM-CSF protein in vitro. Human GM-CSF was readily detectable in serum and at the injection site following subcutaneous implantation of these transfected tumor cells into nude mice. Transfected and irradiated murine B16 melanoma cells produced > or = 100 ng/ml murine GM-CSF/10(6) cells per 24 hr in vitro for at least 10 days. The antitumor efficacy of this nonviral approach was tested using irradiated B16 tumor cells that were transfected with mGM-CSF cDNA and injected into mice as tumor "vaccine". Subsequent challenge of these mice with nonirradiated, nontransfected B16 tumor cells showed that 58% of the animals wer protected from the tumor by the prior vaccine treatment. In contrast, only 2% of control animals were protected by prior treatment with irradiated B16 cells transfected with the vector containing the luciferase gene. These results suggest that particle-mediated transfection of fresh tumor explants with cytokine cDNA is an effective and clinically attractive approach for cancer therapy.
长时间组织培养操作的必要性限制了多种形式的基因治疗在恶性肿瘤患者中的临床应用。我们推测,质粒表达载体中的粒细胞-巨噬细胞集落刺激因子(GM-CSF)cDNA能够有效地导入静止的肿瘤细胞,而无需在转染之前或之后进行组织培养增殖,并且转染的肿瘤细胞对转基因GM-CSF的高效表达将赋予针对肿瘤的有效免疫反应。将表达载体中的GM-CSF cDNA包被在金颗粒上,并用基因枪装置加速导入小鼠和人类肿瘤细胞。在手术4小时内转染的人类肿瘤组织在体外产生了显著水平的转基因人类GM-CSF蛋白。将这些转染的肿瘤细胞皮下植入裸鼠后,在血清和注射部位很容易检测到人类GM-CSF。转染并经辐照的小鼠B16黑色素瘤细胞在体外每24小时每10(6)个细胞产生≥100 ng/ml的小鼠GM-CSF,持续至少10天。使用经mGM-CSF cDNA转染并作为肿瘤“疫苗”注射到小鼠体内的辐照B16肿瘤细胞,测试了这种非病毒方法的抗肿瘤效果。随后用未辐照、未转染的B16肿瘤细胞对这些小鼠进行攻击,结果显示58%的动物通过先前的疫苗治疗免受肿瘤侵害。相比之下,用含有荧光素酶基因的载体转染的辐照B16细胞进行先前治疗,只有2%的对照动物得到保护。这些结果表明,用细胞因子cDNA对新鲜肿瘤外植体进行颗粒介导的转染是一种有效且在临床上有吸引力的癌症治疗方法。
