ABSTRACT
Aim To explore the internal mechanism of NK2 activation of NK cells from the perspective of "mitochondrial dysfunction-abnormal cell activation".Methods NK-92MI cells were divided into blank group, TSLP group, 1, 5, and 10 μmol·L-1 Mdivi-1 dose groups.The levels of IL-4, IL-5, and IFN-γ in the supernatant of each group were determined by ELISA; The expression of p-Drp1 and MnSOD protein in each group was determined by Western blotting; the ROS level of each group was detected by DHE staining and flow cytometry; mitochondrial morphology was observed by confocal laser in each group of cells.Results ELISA showed that compared with control group, the levels of IL-4 and IL-5 in cell supernatant of TSLP group significantly increased, and the level of IFN-γ was down-regulated(P<0.05); Compared with TSLP group, the levels of IL-4 and IL-5 in cell supernatant of 5 and 10 μmol·L-1 Mdivi-1 group decreased, and the IFN-γ concentration of the 10 μmol·L-1 Mdivi-1 group rose(P<0.05).DHE staining and flow cytometry showed that ROS level of cells in TSLP group was significantly higher than control group.Compared with TSLP group, ROS level of the 5 and 10 μmol·L-1 Mdivi-1 groups decreased(P<0.05).The laser confocal results showed that after TSLP stimulation, a large number of spherical mitochondria were formed in cells.This phenomenon was improved to a certain extent after the intervention of 5, 10 μmol·L-1 Mdivi-1.Western blot analysis showed that the p-Drp1 level of NK-92MI cells in TSLP group was significantly up-regulated, and the expression of MnSOD decreased, while the intervention of Mdivi-1 effectively reversed the changes in the expression of the above-mentioned molecules.Conclusions Mitochondrial dynamic imbalance may be one of the internal mechanisms of abnormal activation of NK cells, and it may be an important target for regulating NK2 activation of NK cells and improving the allergic inflammatory response mediated by it.
ABSTRACT
@#The signal transducer and activator of transcription(STAT)proteins, which can transmit signals from extracellular to nucleus, play important roles in biological processes. The abnormal activation of STAT3 signaling pathway usually results in many malignant diseases such as tumors(leukemias, lymphomas, breast cancer and lung cancer), inflammation or immune and rheumatoid arthritis. Numerous studies have demonstrated that the activation of STAT3, which means the phosphorylation of the residue 705, can inhibit apoptosis, induce cell proliferation and angiogenesis and finally lead to malignant diseases mentioned above. In this review, the biological functions of STAT family proteins and the related diseases of STAT3 are introduced, and the inhibitors of STAT3 are summarized simply. Further development of STATs is also proposed.
ABSTRACT
Objective To explore the role and possible mechanism of CD28/B7 molecules in T cell ab-normal activation by establishing a mouse model of the autoimmune aplastic anemia. Methods Unmanipulated B6D2F1 or CByB6F1 hybrid mice were infused with about 40 × 106 lymph node (LN) cells from their C57BL/6 (B6) parent. Distribution of the injected T cells was assayed by CFDA-SE fluorescent staining. Anti-D80 and anti-CD86 monoclonal antibodies were used to block CD28/B7 signal transduction pathways and to test the change of peripheral blood of F1 mice at different times. Damage was assessed by histological staining. Bone marrow (BM) cells and LN iymphocytes were cultured to observe the effect of different number of lymphocytes in the LN on BM cells' hematopoiesis by the count of hematopoietic colony-forming cells, and to test the effect of cyclosporine A of different concentration on BM cells' hematopoiesis. Results Infusion of about 40 × 106/mouse B6 LN cells led to the development of BM failure in the fifth day: anemia, neutropenia and thrombocytopenia. At 21st day recipients began to appear death. Frozen section revealed the injected lymph node major in myeloid tissue. Pathological sec-tion revealed obvious immune-induced marrow destruction and tissue destruction. There was similar performance of the above in the recipients infused with anti-D80 and anti-CD86 monoclonal antibodies. B6 LN five times the num-ber of lymphocytes in the blood cells F1, CFU-E and CFU-G colony formation of a blank group difference was not significant (P >0.05); When B6 LN 10 times the number of lymphocytes in the blood cells F1, CFU-E colony forming significantly reduce the number of (P < 0.05) ; When B6 LN lymphocytes 50 times in F1 hematopoietic cells, not observed CFU-E colony formation. CFU-E and CFU-G colony formation reducing the number of lympho-cytes showed a dose-dependent. Cyclosporine A can significantly increase the CFU-E and CFU-G colony forming rate. Conclusion This mouse model indicates that activated lymphocytes play important roles in marrow destruc-tion in lymphocyte infusion-induced BM failure. Only blocking the CD28/B7 signal transduction can not block the abnormal T-cells activated.