Nielsen L L, Dell J, Maxwell E, Armstrong L, Maneval D, Catino J J
Tumor Biology Department, Schering-Plough Research Institute Kenilworth, New Jersey 07033-0539, USA.
Cancer Gene Ther. 1997 Mar-Apr;4(2):129-38.
In response to DNA damage, p53 protein accumulates in the cell nucleus causing cells to undergo DNA repair or apoptosis, programmed cell death. Reintroduction of wild-type p53 into tumors with null or mutant p53 offers a novel strategy for controlling tumor growth, by inducing apoptotic death in neoplastic cells. The efficacy of a replication-deficient p53 adenovirus construct was tested against three human breast cancer cell lines expressing mutant p53, MDA-MB-231, -468, and -435. 231 and 468 cells were both highly transduced at a multiplicity of infection of 10. By contrast, 435 cells were rarely transduced. p53 adenovirus-mediated gene therapy was highly effective against 231 and 468 tumor xenografts in nude mice. At a total dose of 2.2 x 10(9) cellular infectious units (CIU), inhibition of 231 tumor growth was 86% (P < or = .01). Thirty-seven percent of that growth inhibition was due to p53, while 49% was adenovirus-specific. Inhibition of 468 tumor growth was 74% (P < or = .001). Forty-five percent of that inhibition was p53-specific, while 28% was adenovirus-specific. The ED50 values for 231 tumors and 468 tumor growth inhibition were 3 x 10(8) CIU and 2 x 10(8) CIU, respectively. Injection of p53 Ad into 231 or 468 tumors induced apoptosis. By contrast, growth inhibition in 435 tumors treated with p53 adenovirus was not significant, probably due to low adenovirus transduction. 231 and 435 cells both expressed high levels of alpha v, beta 1, beta 3, and beta 5 integrin subunits, ruling out lack of the appropriate integrins as the reason for the low infection rate in 435 cells. Our results demonstrate the ability of wild-type p53 to curtail cancerous cell growth in vivo in tumors expressing mutant p53. The ability of beta-gal Ad to infect tumor cells in vitro was generally predictive of in vivo p53 Ad efficacy.
作为对DNA损伤的反应,p53蛋白在细胞核中积累,促使细胞进行DNA修复或凋亡(程序性细胞死亡)。将野生型p53重新导入p53缺失或突变的肿瘤中,通过诱导肿瘤细胞凋亡来控制肿瘤生长,提供了一种新的策略。针对三种表达突变型p53的人乳腺癌细胞系MDA-MB-231、-468和-435,测试了一种复制缺陷型p53腺病毒构建体的疗效。在感染复数为10时,231和468细胞均被高效转导。相比之下,435细胞很少被转导。p53腺病毒介导的基因治疗对裸鼠体内的231和468肿瘤异种移植物非常有效。在总剂量为2.2×10⁹细胞感染单位(CIU)时,对231肿瘤生长的抑制率为86%(P≤0.01)。该生长抑制的37%归因于p53,而49%是腺病毒特异性的。对468肿瘤生长的抑制率为74%(P≤0.001)。该抑制的45%是p53特异性的,而28%是腺病毒特异性的。231肿瘤和468肿瘤生长抑制的半数有效剂量(ED50)值分别为3×10⁸CIU和2×10⁸CIU。将p53腺病毒注射到231或468肿瘤中可诱导凋亡。相比之下,用p53腺病毒治疗的435肿瘤中的生长抑制不显著,可能是由于腺病毒转导率低。231和435细胞均高水平表达αv、β1、β3和β5整合素亚基,排除了缺乏合适的整合素作为435细胞感染率低的原因。我们的结果证明了野生型p53在体内抑制表达突变型p53的肿瘤中癌细胞生长的能力。β-半乳糖苷酶腺病毒在体外感染肿瘤细胞的能力通常可预测体内p53腺病毒的疗效。
