It is known that multipotent stromal cells (MSCs) and thymocytes possess membrane affinity and interaction in the thymic niches that is essentially important for thymocytes differentiation. However there are no data about possible influence of intercellular contacts in the reverse direction: from the thymocytes to the MSCs.Materials and methods. The MSCs were obtained from the thymuses of С57ВL mice, using the explants technique, and cultivated under standard conditions during 8-12 passages. Thymocytes or bone marrow cells (106) were added to 4×104 MSCs for 24 hours. Thereafter they were eliminated and standard culture medium was changed by osteogenic or adipogenic differentiation medium and cultured during 10 days. After fixation the cells were stained by 1 % alizarin red S solution or 0.2 % solution of oil red О respectively. After extraction of the stains with 10 % acetic acid or isopropyl alcohol the optic density of extracts at 520 nm was measured.Results. We found that thymic multipotent stromal cells of the C57BL mice were effectively differentiated in vitro into the osteogenic and adipogenic lineages in the appropriate differentiation media that was evidenced by alizarin red and oil red staining of cell cultures. According to the results of measurement of optic density of the dye extracts, it was found that effectiveness of thymic MSCs differentiation into the osteogenic lineage after prior short-term co-cultivation with the thymocytes is increased.Conclusions. The contact of thymic stromal cells with thymocytes but not with bone marrow cells in the previous 24 hours potentiates the osteogenic differentiation and has no effect on the adipogenic cells maturation.
Tripeptides T-36 and, particularly, T-38 in concentrations of 0.1, 1, and 10 ng/ml inhibited proliferation of primary trypsinized embryonic mesenchymal stem cells, rat transplantable KF-1 fibroblasts, and human erythromyelosis K-562 cells. Inhibition of proliferation in embryonic and immortalized cells under the influence of tripeptides probably reflects antitumor activity of these substances. Tripeptides had no effect on lymphocyte survival and their adhesive, cytotoxic, and induced proliferative activities. T-36 did not modulate the proliferative properties of erythromyelosis K-562 cells. Tripeptides did not change engulfment activity and spontaneous and induced bactericidal activities of granulocytes. T-36 in a concentration of 0.1 ng/ml increased spontaneous proliferation of normal lymphocytes. These data suggest that tripeptides stimulate nontumor immune cells in adult people.
Physical interaction of multipotent stromal cells (MSCs) and hematopoietic stem cells (HSCs) is a modern approach to effective and focused changes in the properties of HSCs. Resulting of those contact interaction is significant activation of cells with following immune system restoration. The purpose of the study is to investigate the effect of co-transplantation of bone marrow hematopoietic stem cells (HSCs) and thymic multipotent stromal cells (MSCs) separately and as a union of cells on regeneration of the murine immune system, damaged by cyclophosphamide. MSCs were obtained from thymuses of C57BL mice using explant technique. Bone marrow cells (BMCs) were obtained by flushing out the femur with a nutrient medium. BMCs were cocultivated for 2 hours on the monolayer of thymus-derived MSCs. The immune deficiency of mice was modelled by the treatment with cyclophosphamide (CP). After that, the cells were co-transplanted in two methods (separately into different the retroorbital sinus and as a union after co-cultivation) and the parameters of the immune system were evaluated. It was shown, that separate co-transplantation of BMCs and thymus-derived MSCs is associated with the restoration of the number of bone marrow cells, thymus, spleen and lymph nodes with an increase in the proliferation index of lymph node cells by 1.4 times compared to control. It normalized the previous reduced concentration of hemoglobin and hematocrit in the blood. Co-transplantation had a suppressive effect on the blast transformation reaction, induced by phytohemagglutinin, by 4.3 times, but showed a stimulating effect on DTHR response by 1.6 times compared to control. Co-transplantation of the union of BMCs and MSCs is associated with the restoration of the number of bone marrow cells, spleen and lymph nodes. The level of spontaneous apoptosis of lymph node cells significantly increased by 3.3 times compared to control. It had not effect on hematological parameters, but is activated to impact the immune system. Thus, as a result of cells union administration showed normalization of the bactericidal activity of peritoneal macrophages, unlike the separate co-transplantation. This cells graft had a suppressive effect on the number of antibody-producing cells in the spleen by 4.2 times compared to control. Previous co-cultivation and contact interaction of cells change the properties of cell graft. The effect of co-transplantation of BMCs and thymic MSCs is not a simple additive effect of cells. It is acquiring the features typical to certain cell types, and the expression of new characteristics. We assume this phenomenon as a result development of complex cells cooperative processes in vivo and in vitro
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