Characterizations of the murine mesenchymal cell line expressing GFP

Abstract

We established and characterized a murine mesenchymal stem cell line from the bone marrow of a transgenic C57BL mouse that ubiquitously expressed green fluorescent protein (GFP). Immunostaining revealed the presence of several markers common for mesenchymal stem cells (MSCs). The cells expressed specific fibroblast proteins, such as smooth muscle actin, which is localized in stress fibrils, and vimentin, a major protein of intermediate filaments in connective tissue cells. These proteins are responsible for the ability to differentiate into adipocytes or osteoblasts under appropriate conditions. The MSC karyotype was unstable. At the 6th passage cells, were aneuploid and genetically heterogeneous. The number of chromosomes ranged from near 2n to 8n. 80% of cells had chromosome numbers between 50 and 85 without a well-defined modal class. Differential G-staining of metaphase spreads showed variability in the copy numbers of individual chromosomes and presence of random chromosome rearrangements, such as ectopic associations of nonhomologous chromosomes. All cells analyzed contained a single dicentric marker chromosome. Some cells also had mini-chromosomes regarded as indicators of gene amplification. We suppose that the karyotypic instability of MSCs that express GFP is provoked by the insertion of foreign GFP transgenes into the murine genome. These cells could be useful for the study of genomic alterations during the spontaneous oncogenic transformation of stem cells.