Yong Beom Cho1, Hye Kyung Hong1, Yoon-La Choi2, Ensel Oh2, Kyeung Min Joo3, Juyoun Jin4, Do-Hyun Nam4, Young-Hyeh Ko2, Woo Yong Lee5. 1. Department of Surgery, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Korea. 2. Department of Pathology, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Korea. 3. Department of Anatomy and Cell Biology, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Korea. 4. Department of Neurosurgery, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Korea. 5. Department of Surgery, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Korea. Electronic address: lwy555@skku.edu.
Abstract
BACKGROUND: Despite significant improvements in colon cancer outcomes over the past few decades, preclinical development of more effective therapeutic strategies is still limited by the availability of clinically relevant animal models. To meet those clinical unmet needs, we generated a well-characterized in vivo preclinical platform for colorectal cancer using fresh surgical samples. METHODS: Primary and metastatic colorectal tumor tissues (1-2 mm(3)) that originate from surgery were implanted into the subcutaneous space of nude mice and serially passaged in vivo. Mutation status, hematoxylin and eosin staining, short tandem repeat profiling, and array comparative genomic hybridization were used to validate the similarity of molecular characteristics between the patient tumors and tumors obtained from xenografts. RESULTS: From surgical specimens of 143 patients, 97 xenograft models were obtained in immunodeficient mice (establish rate = 67%). Thirty-nine xenograft models were serially expanded further in mice with a mean time to reach a size of 1000-1500 mm(3) of 90 ± 20 d. Histologic and immunohistochemical analyses revealed a high degree of pathologic similarity including histologic architecture and expression of CEA, CK7, and CD20 between the patient and xenograft tumors. Molecular analysis showed that genetic mutations, genomic alterations, and gene expression patterns of each patient tumor were also well conserved in the corresponding xenograft tumor. CONCLUSIONS: Xenograft animal models derived from fresh surgical sample maintained the key characteristic features of the original tumors, suggesting that this in vivo platform can be useful for preclinical development of novel therapeutic approaches to colorectal cancers.
BACKGROUND: Despite significant improvements in colon cancer outcomes over the past few decades, preclinical development of more effective therapeutic strategies is still limited by the availability of clinically relevant animal models. To meet those clinical unmet needs, we generated a well-characterized in vivo preclinical platform for colorectal cancer using fresh surgical samples. METHODS: Primary and metastatic colorectal tumor tissues (1-2 mm(3)) that originate from surgery were implanted into the subcutaneous space of nude mice and serially passaged in vivo. Mutation status, hematoxylin and eosin staining, short tandem repeat profiling, and array comparative genomic hybridization were used to validate the similarity of molecular characteristics between the patienttumors and tumors obtained from xenografts. RESULTS: From surgical specimens of 143 patients, 97 xenograft models were obtained in immunodeficientmice (establish rate = 67%). Thirty-nine xenograft models were serially expanded further in mice with a mean time to reach a size of 1000-1500 mm(3) of 90 ± 20 d. Histologic and immunohistochemical analyses revealed a high degree of pathologic similarity including histologic architecture and expression of CEA, CK7, and CD20 between the patient and xenograft tumors. Molecular analysis showed that genetic mutations, genomic alterations, and gene expression patterns of each patienttumor were also well conserved in the corresponding xenograft tumor. CONCLUSIONS: Xenograft animal models derived from fresh surgical sample maintained the key characteristic features of the original tumors, suggesting that this in vivo platform can be useful for preclinical development of novel therapeutic approaches to colorectal cancers.
Authors: Christopher D Willey; Ashley N Gilbert; Joshua C Anderson; George Yancey Gillespie Journal: Semin Radiat Oncol Date: 2015-05-14 Impact factor: 5.934
Authors: Anastasia Katsiampoura; Kanwal Raghav; Zhi-Qin Jiang; David G Menter; Andreas Varkaris; Maria P Morelli; Shanequa Manuel; Ji Wu; Alexey V Sorokin; Bahar Salimian Rizi; Christopher Bristow; Feng Tian; Susan Airhart; Mingshan Cheng; Bradley M Broom; Jeffrey Morris; Michael J Overman; Garth Powis; Scott Kopetz Journal: Mol Cancer Ther Date: 2017-05-03 Impact factor: 6.261