Garcia Patrick L, Council Leona N, Christein John D, Arnoletti J Pablo, Heslin Marty J, Gamblin Tracy L, Richardson Joseph H, Bjornsti Mary-Ann, Yoon Karina J
Department of Pharmacology and Toxicology, University of Alabama at Birmingham, Birmingham, Alabama, United States of America.
PLoS One. 2013 Oct 23;8(10):e78183. doi: 10.1371/journal.pone.0078183. eCollection 2013.
Pancreatic cancer is the one of the deadliest of all malignancies. The five year survival rate for patients with this disease is 3-5%. Thus, there is a compelling need for novel therapeutic strategies to improve the clinical outcome for patients with pancreatic cancer. Several groups have demonstrated for other types of solid tumors that early passage human tumor xenograft models can be used to define some genetic and molecular characteristics of specific human tumors. Published studies also suggest that murine tumorgraft models (early passage xenografts derived from direct implantation of primary tumor specimens) may be useful in identifying compounds with efficacy against specific tumor types. Because pancreatic cancer is a fatal disease and few well-characterized model systems are available for translational research, we developed and characterized a panel of pancreatic tumorgraft models for biological evaluation and therapeutic drug testing. Of the 41 primary tumor specimens implanted subcutaneously into mice, 35 produced viable tumorgraft models. We document the fidelity of histological and morphological characteristics and of KRAS mutation status among primary (F0), F1, and F2 tumors for the twenty models that have progressed to the F3 generation. Importantly, our procedures produced a take rate of 85%, higher than any reported in the literature. Primary tumor specimens that failed to produce tumorgrafts were those that either contained <10% tumor cells or that were obtained from significantly smaller primary tumors. In view of the fidelity of characteristics of primary tumor specimens through at least the F2 generation in mice, we propose that these tumorgraft models represent a useful tool for identifying critical characteristics of pancreatic tumors and for evaluating potential therapies.
胰腺癌是所有恶性肿瘤中致死率最高的疾病之一。该疾病患者的五年生存率为3%至5%。因此,迫切需要新的治疗策略来改善胰腺癌患者的临床结局。几个研究小组已证明,对于其他类型的实体瘤,早期传代的人肿瘤异种移植模型可用于确定特定人类肿瘤的一些遗传和分子特征。已发表的研究还表明,小鼠肿瘤移植模型(直接植入原发性肿瘤标本获得的早期传代异种移植)可能有助于识别对特定肿瘤类型有效的化合物。由于胰腺癌是一种致命疾病,且用于转化研究的特征明确的模型系统很少,我们开发并表征了一组用于生物学评估和治疗药物测试的胰腺肿瘤移植模型。在皮下植入小鼠的41个原发性肿瘤标本中,35个产生了可行的肿瘤移植模型。对于已进展到F3代的20个模型,我们记录了原发性(F0)、F1和F2肿瘤之间组织学和形态学特征以及KRAS突变状态的保真度。重要的是,我们的方法产生的成功率为85%,高于文献中报道的任何成功率。未能产生肿瘤移植的原发性肿瘤标本是那些肿瘤细胞含量<10%或来自明显较小原发性肿瘤的标本。鉴于原发性肿瘤标本在小鼠中至少到F2代的特征保真度,我们认为这些肿瘤移植模型是识别胰腺肿瘤关键特征和评估潜在疗法的有用工具。