Introduction. During enzyme replacement therapy in patients with Gaucher disease (GD) with recombinant glucocerebrosidase (GCase), regression of bone manifestations is possible, but with prolonged therapy osteonecrosis may occur. These changes may be due to impaired differentiation of multipotent mesenchymal stromal cells (MSCs).Aim: to study changes in the MSCs of healthy donors and a patient with GD when cultured in the presence of GCase.Material and methods. MSCs were isolated from the bone marrow of 17 healthy donors and a female patient with GD by a standard method and cultured in the presence of various concentrations of GCase after the second passage from 2 to 7 weeks. Cell proliferation and the ability to differentiate were analyzed, including after induction. The assessment was carried out by differential staining, elution, and expression of differentiation marker genes by real-time PCR.Results. Low concentrations of recombinant GCase (0.25–1.5 U/ml) did not affect the proliferative activity of MSCs. Prolonged cultivation of MSCs in the presence of low doses of GCase led to a change in the differentiation potential of these cells in the direction of adipogenesis. Concentrations of GCase of 3–5 U/ml inhibited the proliferation of MSCs and caused significant changes in cell differentiation. High doses of the enzyme (7–10 U/ml) had a cytotoxic effect and led to cell death within one passage. The proliferative and differentiation potential of the MSCs of a patient with GD differed significantly from the cells of healthy donors in all the parameters studied.Conclusion. The cultivation of donor MSCs in the presence of recombinant GCase alters the proliferation and differentiation potential of these cells. These changes depend on the dose of the enzyme in the medium and the duration of cultivation.
