The influence of a substrate including extracellular matrix proteins on karyotypic variability in two cell lines of Indian muntjac skin fibroblasts

Abstract

The influence of cell-culture conditions on numerical and structural karyotypic variability has been investigated in two Indian muntjac skin fibroblast “markerless” cell lines, M and MT. The cells were cultivated on a substrate consisting of extracellular matrix proteins (ECMs) synthesized by human mesenchymal stem cells (SC5-MSC). The character of cell distribution for the chromosome number of the cell line M changed after cultivation for 1 and 4 days as compared to control cells, which were cultured on a hydrophilic surface without ECM coating. These changes involve a significant decrease in frequency of cells with the modal numbers of chromosomes and an increase in frequency of cells with lower chromosome numbers. Many new types of additional structural variants of the karyotype (SVK) appear. The MT cell line, differing from M line in the number of homologous chromosomes, exhibited a character of cell distribution similar to that of the M line for the chromosome number for only 1 day after cultivation on the ECM substrate, but not after 4 days under the same culture conditions, when no difference from the control cells was observed. Further cultivation of MT cells for 8 days did not change the character of cell distribution for the chromosome number relative to the control variant. The observed alterations seem to be due to disturbances in the correct chromosome-segregation process, which were caused by an abrupt shift in the cell-culture conditions. Analysis of the structural karyotypic variability revealed a significant increase in frequency of chromosomal aberrations in the M cell line for 1 and 4 days in culture on the ECM substrate as compared to the control cells. The frequency of dicentric chromosomes (telomeric associations) was increased and constituted more than 50% of all chromosome aberrations. No increase in frequency of chromosome aberrations was observed for MT cells cultured under the same conditions. It can be suggested that the differing by the karyotypic structure, but the genetically identical cell lines have different response to the substrate. In contrast to the M line, in the MT line, a fast normalization of numerical karyotypic characteristics and no enhancement of structural karyotypic variability takes place. This provides a possibility to cultivate an MT cell on the given protein substrate while maintaining a balanced karyotypic structure characteristic of MT cell line.