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Creation of rabbit bone and soft tissue tumor using cultured VX2 cells
Authors:John A. Handal  Jacob F. Schulz  Gerson B. Florez  Simon C.M. Kwok  Jasvir S. Khurana  Solomon P. Samuel
Affiliation:1. Department of Orthopedic Surgery, Einstein Medical Center, Philadelphia, Pennsylvania;2. Office of Research and Technology Development, Einstein Medical Center, Philadelphia, Pennsylvania;3. Department of Pathology, Temple University Hospital, Philadelphia, Pennsylvania
Abstract:BackgroundTo create rabbit VX2 bone tumors, it is surgically less demanding to implant VX2 cell suspensions than minced tumor fragments. A VX2 cell line that can be expanded using standard cell culture techniques might provide an unlimited supply of cells needed to create these bone tumors. Therefore, the aim of the present study was to establish a VX2 cell line and verify its tumorigenicity in an athymic mouse and rabbit animal model.Materials and methodsMinced VX2 tumor fragments were allowed to grow as a monolayer in 10 mL Dulbecco’s modified Eagle medium/nutrient mixture F-12 (1:1) supplemented with 10% fetal calf serum and passaged multiple times. The tumorigenecity of the cultured VX2 cells were tested in athymic mice (intradermal tumor development) and in New Zealand white rabbits (bone and soft tissue tumor model).ResultsThe VX2 cells proliferated rapidly in tissue culture flasks containing Dulbecco’s modified Eagle medium/nutrient mixture F-12 medium supplemented with 10% fetal bovine serum. After reaching confluence, the VX2 cells can only be subcultured when plated at a greater density (e.g., at a dilution of 1:1). All 6 athymic mice developed tumors within 15 d of VX2 cell suspension implantation. In the rabbits, the VX2 cells were able to produce tumors in muscle tissue and in the distal femurs but not in the proximal tibia.ConclusionsVX2 cell lines can be successfully created from VX2 tumor fragments and passaged multiple times. In contrast to previous reports, the VX2 cells grown in vitro are capable of maintaining their tumorigenecity. However, successful tumor growth might depend on the initial number of cells implanted and the use of extracellular matrices for tumor proliferation.
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