Abstract
The cell culture became an invaluable tool for studying cell behaviour, development, function, gene expression, toxicity of compounds and efficacy of novel drugs. Although most results were obtained from cell cultivation in two-dimensional (2D) systems, in which cells are grown in a monolayer, three-dimensional (3D) cultures are more promising as they correspond closely to the native arrangement of cells in living tissues. In our study, we focused on three types of 3D in vitro systems used for cultivation of one cell type. Cell morphology, their spatial distribution inside of resulting multicellular structures and changes in time were analysed with histological examination of samples harvested at different time periods. In multilayered cultures of WRL 68 hepatocytes grown on semipermeable membranes and non-passaged neurospheres generated by proliferation of neural progenitor cells, the cells were tightly apposed, showed features of cell differentiation but also cell death that was observable in short-term cultures. Biogenic scaffolds composed of extracellular matrix of the murine tibial anterior muscle were colonized with C2C12 myoblasts in vitro. The recellularized scaffolds did not reach high cell densities comparable with the former systems but supported well cell anchorage and migration without any signs of cell regression.
Highlights
Cell culture offers the consistency and reproducibility of results and for that reason it is used as a valuable tool in biological research
When cells with migratory and proliferative potential are cultured in vitro on an adhesive surface they grow in a sheath to form a monolayer. This anchorage-dependent approach to cell cultivation allowed studying biology of individual cells, to establish continuous cell lines, which laid down the basis for modern cellular and molecular biology
In this study we describe and compare morphological analyses of three different approaches for generation of histotypic cultures: multilayered cultures of WRL 68 hepatocytes grown on semipermeable membranes, spheroids generated by neural stem/progenitor cells called neurospheres, and acellular muscle scaffolds recellularized with C2C12 myoblasts
Summary
Cell culture offers the consistency and reproducibility of results and for that reason it is used as a valuable tool in biological research It became a common approach for the investigation of morphological, biochemical and physiological properties of cells as well as large scale manufacturing of biological compounds. When cells with migratory and proliferative potential are cultured in vitro on an adhesive surface they grow in a sheath to form a monolayer. This anchorage-dependent approach to cell cultivation allowed studying biology of individual cells, to establish continuous cell lines, which laid down the basis for modern cellular and molecular biology. The cells cannot maintain correct morphology and adopt flattened shapes [26]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
