Conclusions
This study indicated that GCMSCs could exert immunosuppressive effects on NK cells by up-regulating FBP1 expression, opening up new avenues for NK cell-based GC immunotherapy.
Material and methods
CD107a and perforin expression of GCMSCs conditioned medium (GCMSCs-CM)-primed NK cells were detected by flow cytometry. To determine NK cell cytotoxicity, the CytoTox96 Non-Radioactive Cytotoxicity Assay kit was used. Glucose uptake and lactate production assay were performed to evaluate the metabolism state of NK cells treated with GCMSCs-CM. The expression of FBP1 in NK cells was analysed by immunoblotting.
Methods
CD107a and perforin expression of GCMSCs conditioned medium (GCMSCs-CM)-primed NK cells were detected by flow cytometry. To determine NK cell cytotoxicity, the CytoTox96 Non-Radioactive Cytotoxicity Assay kit was used. Glucose uptake and lactate production assay were performed to evaluate the metabolism state of NK cells treated with GCMSCs-CM. The expression of FBP1 in NK cells was analysed by immunoblotting.
Results
GCMSCs inhibited the degranulation capacity, perforin production and cytotoxicity of NK cells. GCMSCs-CM restrained NK cell glucose uptake and lactate production, thus weakening their glycolytic metabolism. FBP1 expression of NK cells was upregulated in the presence of GCMSCs-CM. Using FBP1 inhibitor could reverse the dysfunctional state of NK cells. Conclusions: This study indicated that GCMSCs could exert immunosuppressive effects on NK cells by up-regulating FBP1 expression, opening up new avenues for NK cell-based GC immunotherapy.