开发一种临床相关的卵巢癌模型,结合手术细胞减灭术来评估治疗微转移疾病的效果。
Development of a clinically relevant ovarian cancer model incorporating surgical cytoreduction to evaluate treatment of micro-metastatic disease.
机构信息
Division of Gynecologic Oncology, Department of Obstetrics and Gynecology, University of Washington, Seattle, WA 98195, United States of America; Program in Immunology, Clinical Research Division, Fred Hutchinson Cancer Research Center, Seattle, WA 98109, United States of America; Division of Gynecologic Oncology, Allegheny Health Network, West Penn Hospital, Mellon Pavilion, Suite 310, 4815 Liberty Avenue, Pittsburgh, PA 15224, United States of America.
Vaccine and Infectious Disease Division, Fred Hutchinson Cancer Research Center, Seattle, WA 98109, United States of America.
出版信息
Gynecol Oncol. 2021 Feb;160(2):427-437. doi: 10.1016/j.ygyno.2020.11.009. Epub 2020 Nov 20.
OBJECTIVES
Mouse models of ovarian cancer commonly transfer large numbers of tumor cells into the peritoneal cavity to establish experimental metastatic disease, which may not adequately model early metastatic spread from a primary tumor site. We hypothesized we could develop an ovarian cancer model that predictably represents micro-metastatic disease.
METHODS
Murine ID8 ovarian cancer cells were transduced to express enhanced luciferase (eLuc) to enable intravital detection of microscopic disease burden and injected beneath the ovarian bursa of C57Bl/6 mice. At 6 or 10 weeks after orthotopic injection, when mice had detectable metastases, hysterectomy and bilateral salpingo-oophorectomy was performed to remove all macroscopic disease, and survival monitored. Immunohistochemistry and gene expression profiling were performed on primary and metastatic tumors.
RESULTS
eLuc-transduced ID8 cells were brighter than cells transduced with standard luciferase, enabling in vivo visualization of microscopic intra-abdominal metastases developing after orthotopic injection. Primary surgical cytoreduction removed the primary tumor mass but left minimal residual disease in all mice. Metastatic sites that developed following orthotopic injection were similar to metastatic human ovarian cancer sites. Gene expression and immune infiltration were similar between primary and metastatic mouse tumors. Surgical cytoreduction prolonged survival compared to no surgery, with earlier cytoreduction more beneficial than delayed, despite micro-metastatic disease in both settings.
CONCLUSIONS
Mice with primary ovarian tumors established through orthotopic injection develop progressively fatal metastatic ovarian cancer, and benefit from surgical cytoreduction to remove bulky disease. This model enables the analysis of therapeutic regimens designed to target and potentially eradicate established minimal residual disease.
目的
卵巢癌的小鼠模型通常将大量肿瘤细胞转移到腹腔中,以建立实验性转移性疾病,而这可能无法充分模拟原发性肿瘤部位的早期转移扩散。我们假设可以开发一种可预测微转移疾病的卵巢癌模型。
方法
将小鼠 ID8 卵巢癌细胞转导以表达增强型荧光素酶(eLuc),从而能够对微疾病负担进行活体检测,并注射到 C57Bl/6 小鼠的卵巢囊下。在原位注射后 6 或 10 周时,当小鼠出现可检测的转移时,进行子宫切除术和双侧输卵管卵巢切除术以去除所有肉眼可见的疾病,并监测存活情况。对原发性和转移性肿瘤进行免疫组织化学和基因表达谱分析。
结果
转导了 eLuc 的 ID8 细胞比转导了标准荧光素酶的细胞更亮,从而能够在体内可视化原位注射后发展的微小腹腔内转移。初次手术减瘤去除了原发性肿瘤肿块,但所有小鼠仍有少量残留疾病。原位注射后发展的转移部位与转移性人类卵巢癌部位相似。原发性和转移性小鼠肿瘤的基因表达和免疫浸润相似。与不进行手术相比,手术减瘤可延长存活时间,早期减瘤比延迟减瘤更有益,尽管两种情况下均存在微小的转移疾病。
结论
通过原位注射建立原发性卵巢肿瘤的小鼠会发展出进行性致命性转移性卵巢癌,并受益于手术减瘤以去除大量疾病。该模型可用于分析旨在靶向和潜在根除已建立的微小残留疾病的治疗方案。
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