[Stability of bone marrow stromal cells to low temperatures during differentiation].

On the bases of earlier conducted research about the stability of heterogeneous population of keratinocytes to low temperatures according to their stages of differentiation this experiment' studies in vitro the stability to low temperatures of rat bone marrow stromal cells before and after their adipocyte and osteocyte differentiation. Results show that bone marrow stromal cells after their differentiation into either adipocytes or octeocytes became least stable to low temperatures. Findings may serve as foundation for further studies that may explain the changes of processes and mechanisms that play a major role in BMSC stability to low temperatures according to their stage of differentiation.

[The effect of low temperatures on the viability of human epidermal keratinocytes found at different stages of differentiation].

The aim of this study was a comparative analysis to the degree of stability of human epidermal cells found at different stages of differentiation to low temperatures. The effect of different subzero temperatures of liquid nitrogen vapor on keratinocytes found both in human skin fragments and as isolated cells extracted from skin fragments has been studied. The degree of stability of epidermal cells low temperatures was evaluated by their ability to form a multilayer stratum in culture; hence this phenomenon explains the survival of a sufficient amount of proliferative cells after exposure to subzero temperatures. Quantitative analysis of the ratio of epidermal stem, transitory and differentiated cells in a population of viable cells before and after exposure to low temperatures were determined using antibodies corresponding to their different stages of differentiation. The results of this research show that the stability of human epidermal cells to low temperature differs depending on their stage of differentiation both in situ and in vitro. Epidermal stem cells and transitory cells are more stable than differentiated cells.

[The effect of cryopreservation on the cytogenetic characteristics of a cell subline of skin fibroblasts from the Indian muntjac]. / Vliianie kriokonservatsii na tsitogeneticheskie kharakteristiki kletochnoi sublinii fibroblastov kozhi indiiskogo muntzhaka.

After thawing cells, previously cryopreserved in the presence of dimethyl sulfoxide (DMSO), a decrease in their viability and increase in unscheduled DNA synthesis was observed. In 7 days, these parameters restored to the control level. Cryopreservation without DMSO resulted in the decrease in both cell viability and replicative and unscheduled DNA synthesis. In 14 days, these characteristics were seen to return to the normal level. Cryopreservation of cells without DMSO and their preservation in liquid nitrogen induced the frequency of chromosomal aberrations, mostly chromosomal breaks. The frequency of chromosomal aberrations increased with the duration of cell preservation in liquid nitrogen. The normal level was achieved following 7 days after cell thawing. Cells treated with DMSO only (without cryopreservation) display an increased number of chromosomal and chromatid breaks and translocations. Nonrandom distribution of chromosomal aberrations was observed, with particular chromosomes being involved in the appearance of dicentrics and translocations. The data obtained indicate that cryoprotective activity of DMSO is probably associated with the cell repair systems. The detected antimutagenic and mutagenic activity of DMSO may presumably reflect various conditions for its interaction with cells (with or without cryopreservation), as well as it may be specific for the muntjac cell line used in the present work.