摘要
Objective: To establish a stable and high efficient method for collection of CD4^+CD25^+ regulatory T cells from rats in vitro. Methods: CD4^+CD25^+ regulatory T cells were isolated from the rat splenic cells through two steps by magic cell sorting (MACS) system. The first step was negative selection of CD4^+T cells by cocktail antibodies and anti-IgG magic microbeads, and the second step was positive selection of CD25^+T cells by anti-CD25 PE and anti-PE magic microbeads. The purity and viability of separated cells were measured by flow cytometry (FACS) and Trypan blue staining. The suppressive ability of seperated cells on the proliferation of CD4^+CD25^- T cells was assessed by cell proliferation assay. Results: The purity of negatively enriched CD4^+ T cells was 79%-87% (83.6%±2.5% ) , and the purity of positively enriched CD4^+CD25^+ T cells was 86%- 93% ( 90.2±1.8% ) with the viability of 92%~95% (92.8% ± 3.4% ). The enriched cells significantly suppressed the proliferation of CD4^+CD25^- T cells in mixed lymphocyte culture (P 〈 0.05). Conclusion: An effective method can be established for enrichment of CD4^+CD25^+ regulatory T cells in two steps by MACS, with satisfied cell purity, viability and function.
Objective: To establish a stable and high efficient method for collection of CD4^+CD25^+ regulatory T cells from rats in vitro. Methods: CD4^+CD25^+ regulatory T cells were isolated from the rat splenic cells through two steps by magic cell sorting (MACS) system. The first step was negative selection of CD4^+T cells by cocktail antibodies and anti-IgG magic microbeads, and the second step was positive selection of CD25^+T cells by anti-CD25 PE and anti-PE magic microbeads. The purity and viability of separated cells were measured by flow cytometry (FACS) and Trypan blue staining. The suppressive ability of seperated cells on the proliferation of CD4^+CD25^- T cells was assessed by cell proliferation assay. Results: The purity of negatively enriched CD4^+ T cells was 79%-87% (83.6%±2.5% ) , and the purity of positively enriched CD4^+CD25^+ T cells was 86%- 93% ( 90.2±1.8% ) with the viability of 92%~95% (92.8% ± 3.4% ). The enriched cells significantly suppressed the proliferation of CD4^+CD25^- T cells in mixed lymphocyte culture (P 〈 0.05). Conclusion: An effective method can be established for enrichment of CD4^+CD25^+ regulatory T cells in two steps by MACS, with satisfied cell purity, viability and function.
基金
135 Medical Emphasis Grant from Government of Jiangsu Province (135-43)
