BACKGROUND & AIMS: Migrating cancer stem cells (MCSCs) are believed to form metastases. We sought to identify markers of MCSCs from human colorectal cancers (CRCs) and determine their roles in organ-specific metastasis. METHODS: To identify colorectal MCSCs that contribute to organ-specific metastasis, we developed a model of liver or lung metastasis using primary tumor cells from patients with CRC who had liver and lung metastases. Distinct organ-specific metastatic cells were isolated by 6 cycles of selecting for cells that formed liver and lung tumors after subcutaneous injection into mice. Microarray analysis was used to identify markers of the organ-specific MCSCs. We then measured levels of these markers in CRC cell lines and 128 CRC samples. We characterized the functional roles of these markers in organ-specific metastasis. RESULTS: We identified CD110 and CDCP1 as cell surface markers of MCSCs from human colorectal tumors that metastasized to liver and lung. We observed a distinct pattern of CD110 and CDCP1 in a panel of primary colorectal tumor samples and their matched liver or pulmonary metastases, indicating that these proteins might serve as biomarkers of organ-specific metastasis. Functional studies showed that thrombopoietin attracts CD110(+) CSCs and increases their self-renewal to promote formation of liver metastases. CDCP1 promoted adhesion of CRC cells to the lung endothelium. CONCLUSIONS: We isolated MCSCs from primary human CRCs and found that the CD110(+) and CDCP1(+) subpopulations mediate organ-specific metastasis. These findings might be used to aid in selection of patients for postoperative adjuvant therapy.
BACKGROUND & AIMS: Migrating cancer stem cells (MCSCs) are believed to form metastases. We sought to identify markers of MCSCs from humancolorectal cancers (CRCs) and determine their roles in organ-specific metastasis. METHODS: To identify colorectal MCSCs that contribute to organ-specific metastasis, we developed a model of liver or lung metastasis using primary tumor cells from patients with CRC who had liver and lung metastases. Distinct organ-specific metastatic cells were isolated by 6 cycles of selecting for cells that formed liver and lung tumors after subcutaneous injection into mice. Microarray analysis was used to identify markers of the organ-specific MCSCs. We then measured levels of these markers in CRC cell lines and 128 CRC samples. We characterized the functional roles of these markers in organ-specific metastasis. RESULTS: We identified CD110 and CDCP1 as cell surface markers of MCSCs from humancolorectal tumors that metastasized to liver and lung. We observed a distinct pattern of CD110 and CDCP1 in a panel of primary colorectal tumor samples and their matched liver or pulmonary metastases, indicating that these proteins might serve as biomarkers of organ-specific metastasis. Functional studies showed that thrombopoietin attracts CD110(+) CSCs and increases their self-renewal to promote formation of liver metastases. CDCP1 promoted adhesion of CRC cells to the lung endothelium. CONCLUSIONS: We isolated MCSCs from primary human CRCs and found that the CD110(+) and CDCP1(+) subpopulations mediate organ-specific metastasis. These findings might be used to aid in selection of patients for postoperative adjuvant therapy.
Authors: Heather J Wright; Jue Hou; Binzhi Xu; Marvin Cortez; Eric O Potma; Bruce J Tromberg; Olga V Razorenova Journal: Proc Natl Acad Sci U S A Date: 2017-07-24 Impact factor: 11.205
Authors: Umar Wazir; Mona M A W Orakzai; Tracey Amanda Martin; Wen G Jiang; Kefah Mokbel Journal: Cancer Genomics Proteomics Date: 2019 Mar-Apr Impact factor: 4.069
Authors: Y He; A C Wu; B S Harrington; C M Davies; S J Wallace; M N Adams; J S Palmer; D K Roche; B G Hollier; T F Westbrook; H Hamidi; G E Konecny; B Winterhoff; N P Chetty; A J Crandon; N B Oliveira; C M Shannon; A V Tinker; C B Gilks; J I Coward; J W Lumley; L C Perrin; J E Armes; J D Hooper Journal: Oncogene Date: 2015-04-20 Impact factor: 9.867
Authors: J Wang; B Zhang; H Wu; J Cai; X Sui; Y Wang; H Li; Y Qiu; T Wang; Z Chen; Q Zhu; H Xia; W Song; A P Xiang Journal: Oncogene Date: 2016-09-05 Impact factor: 9.867
Authors: Jennifer E Hardingham; Phulwinder Grover; Marnie Winter; Peter J Hewett; Timothy J Price; Benjamin Thierry Journal: Mol Med Date: 2015-10-27 Impact factor: 6.354