Rybak S M, Pearson J W, Fogler W E, Volker K, Spence S E, Newton D L, Mikulski S M, Ardelt W, Riggs C W, Kung H F, Longo D L
Laboratory of Biochemical Physiology, Biological Response Modifiers Program, National Cancer Institute-Frederick Center Research and Development Center, Frederick, MD 21702-1201, USA.
J Natl Cancer Inst. 1996 Jun 5;88(11):747-53. doi: 10.1093/jnci/88.11.747.
Onconase, a protein isolated from oocytes and early embryos of the frog Rana pipiens, shares extensive homology with bovine pancreatic ribonuclease (RNase A) and possesses similar enzyme activity. Onconase is cytotoxic toward cancer cells in vitro and exhibits antitumor activity in animal models. In addition, Onconase has been shown to enhance the cytotoxic activity of some chemotherapeutic agents in vitro.
We studied interactions between the cytotoxic effects of Onconase and the chemotherapeutic agent vincristine (VCR) in the treatment of drug-sensitive and multidrug-resistant human colon carcinoma cells in vitro and in mice.
Transplantable human colon carcinoma cells (HT-29par cells) were infected with a retrovirus containing human mdr1 (also known as MDR1 and PGY1) complementary DNA (encoding P-glycoprotein [P-gp]), and clones that were cross-resistant to colchicine, doxorubicin, and vinblastine were selected (HT-29mdr1 cells). Drug-resistant HT-29mdr1 cells and drug-sensitive HT-29par parental cells were treated with Onconase and/or VCR in vitro at varying concentrations to measure the effects on protein synthesis and cell viability. The impact of Onconase on VCR accumulation in both types of cells was determined in the presence or absence of MRK-16, an anti-P-gp monoclonal antibody capable of reversing the multidrug-resistant phenotype. The antitumor effects of Onconase and/or VCR treatment were assessed in nude mice bearing established HT-29par or HT-29mdr1 intraperitoneal tumors. IC50 values (drug concentrations resulting in 50% inhibition of protein synthesis or cell viability) for Onconase and VCR were determined from semilogarithmic dose-response curves; interactions between the cytotoxic effects of these two agents were evaluated using data from protein synthesis inhibition experiments and a two-way analysis of variance. Survival distributions from in vivo experiments were compared using Cox proportional hazards models.
The combination of Onconase and VCR yielded enhanced cytotoxicity in vitro that was independent of P-gp expression. Evaluation of the effects of these two compounds on protein synthesis over a wide range of drug concentrations indicated possible synergistic interactions (i.e., greater than additive effects) in both drug-resistant and drug-sensitive cells. The enhancement of VCR cytotoxicity was dependent on Onconase enzyme activity and was not associated with increased intracellular levels of VCR. Simultaneous treatment of mice bearing HT-29par tumors with Onconase and VCR did not extend their median survival time (MST) significantly (MST with VCR = 66 days; MST with VCR plus Onconase = 69 days; two-tailed P = .57); however, the MST of mice with HT-29mdr1 tumors was extended significantly by this treatment (MST with VCR = 44 days; MST with VCR plus Onconase = 66 days; two-tailed P<.001).
Combined administration of Onconase and VCR yields enhanced cytotoxicity in vitro and in vivo against human colon carcinoma cells that overexpress the mdr1 gene.
癌蛙酶是一种从豹蛙的卵母细胞和早期胚胎中分离出的蛋白质,与牛胰核糖核酸酶(RNase A)具有广泛的同源性,并具有相似的酶活性。癌蛙酶在体外对癌细胞具有细胞毒性,并在动物模型中表现出抗肿瘤活性。此外,癌蛙酶已被证明在体外可增强某些化疗药物的细胞毒性活性。
我们研究了癌蛙酶与化疗药物长春新碱(VCR)在体外和小鼠体内治疗药物敏感和多药耐药人结肠癌细胞时细胞毒性作用之间的相互作用。
将可移植的人结肠癌细胞(HT-29par细胞)用含有人类mdr1(也称为MDR1和PGY1)互补DNA(编码P-糖蛋白[P-gp])的逆转录病毒感染,并选择对秋水仙碱、阿霉素和长春碱具有交叉耐药性的克隆(HT-29mdr1细胞)。用不同浓度的癌蛙酶和/或VCR在体外处理耐药的HT-29mdr1细胞和药物敏感的HT-29par亲本细胞,以测量对蛋白质合成和细胞活力的影响。在存在或不存在MRK-16(一种能够逆转多药耐药表型的抗P-gp单克隆抗体)的情况下,测定癌蛙酶对两种类型细胞中VCR积累的影响。在携带已建立的HT-29par或HT-29mdr1腹腔肿瘤的裸鼠中评估癌蛙酶和/或VCR治疗的抗肿瘤效果。从半对数剂量反应曲线确定癌蛙酶和VCR的IC50值(导致蛋白质合成或细胞活力50%抑制的药物浓度);使用蛋白质合成抑制实验数据和双向方差分析评估这两种药物细胞毒性作用之间的相互作用。使用Cox比例风险模型比较体内实验的生存分布。
癌蛙酶和VCR的联合使用在体外产生增强的细胞毒性,且与P-gp表达无关。在广泛的药物浓度范围内评估这两种化合物对蛋白质合成的影响表明,在耐药和药物敏感细胞中都可能存在协同相互作用(即大于相加效应)。VCR细胞毒性增强依赖于癌蛙酶的酶活性,且与细胞内VCR水平升高无关。用癌蛙酶和VCR同时治疗携带HT-29par肿瘤的小鼠,其平均生存时间(MST)没有显著延长(VCR治疗组MST = 66天;VCR加癌蛙酶治疗组MST = 69天;双侧P = 0.57);然而,这种治疗显著延长了携带HT-29mdr1肿瘤小鼠的MST(VCR治疗组MST = 44天;VCR加癌蛙酶治疗组MST = 66天;双侧P<0.001)。
癌蛙酶和VCR联合给药在体外和体内对过表达mdr1基因的人结肠癌细胞产生增强的细胞毒性。
