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Expression of Bcl-2, Bcl-x, and Bax after T cell activation and IL-2 withdrawal. Broome H E,Dargan C M,Krajewski S,Reed J C Journal of immunology (Baltimore, Md. : 1950) Bcl-2, bcl-x, and bax genes code for proteins that affect the susceptibility of cells to apoptosis. In general, the expression of bcl-2 or bcl-x inhibits apoptosis while bax promotes apoptosis. We examined the levels of these proteins by immunoblotting in resting and activated T cells and in thymocytes. Bcl-2 and Bax proteins vary coordinately, but Bcl-x varies independently: Bcl-2 and Bax are higher in splenic T cells than in thymocytes, and their levels increase even more after T cell activation. In contrast, Bcl-x is almost undetectable in splenic T cells but is manyfold greater in thymocytes and in activated splenic T cells. When CTLL-2 cells or activated T cells are starved of IL (IL-2), the level of Bcl-x but not Bcl-2 protein drops before the onset of apoptosis. Stable transfection of either bcl-2 or bcl-x expression plasmids promotes the survival of CTLL-2 cells in the setting of IL-2 withdrawal. Over 70 to 90% of the transfected cells remain viable at 48 h after IL-2 withdrawal when all of the control transfected cells are apoptotic. These findings suggest that a decrease in Bcl-x protein levels precedes apoptosis after IL-2 withdrawal in T cells and that transfected bcl-2 promotes survival after IL-2 withdrawal by functionally masking this drop in Bcl-x.
Iron induces B cell pyroptosis through Tom20-Bax-caspase-gasdermin E signaling to promote inflammation post-spinal cord injury. Journal of neuroinflammation BACKGROUND:Immune inflammatory responses play an important role in spinal cord injury (SCI); however, the beneficial and detrimental effects remain controversial. Many studies have described the role of neutrophils, macrophages, and T lymphocytes in immune inflammatory responses after SCI, although little is known about the role of B lymphocytes, and immunosuppression can easily occur after SCI. METHODS:A mouse model of SCI was established, and HE staining and Nissl staining were performed to observe the pathological changes. The size and morphology of the spleen were examined, and the effects of SCI on spleen function and B cell levels were detected by flow cytometry and ELISA. To explore the specific mechanism of immunosuppression after SCI, B cells from the spleens of SCI model mice were isolated using magnetic beads and analyzed by 4D label-free quantitative proteomics. The level of inflammatory cytokines and iron ions were measured, and the expression of proteins related to the Tom20 pathway was quantified by western blotting. To clarify the relationship between iron ions and B cell pyroptosis after SCI, we used FeSO and CCCP, which induce oxidative stress to stimulate SCI, to interfere with B cell processes. siRNA transfection to knock down Tom20 (Tom20-KD) in B cells and human B lymphocytoma cell was used to verify the key role of Tom20. To further explore the effect of iron ions on SCI, we used deferoxamine (DFO) and iron dextran (ID) to interfere with SCI processes in mice. The level of iron ions in splenic B cells and the expression of proteins related to the Tom20-Bax-caspase-gasdermin E (GSDME) pathway were analyzed. RESULTS:SCI could damage spleen function and lead to a decrease in B cell levels; SCI upregulated the expression of Tom20 protein in the mitochondria of B cells; SCI could regulate the concentration of iron ions and activate the Tom20-Bax-caspase-GSDME pathway to induce B cell pyroptosis. Iron ions aggravated CCCP-induced B cell pyroptosis and human B lymphocytoma pyroptosis by activating the Tom20-Bax-caspase-GSDME pathway. DFO could reduce inflammation and promote repair after SCI by inhibiting Tom20-Bax-caspase-GSDME-induced B cell pyroptosis. CONCLUSIONS:Iron overload activates the Tom20-Bax-caspase-GSDME pathway after SCI, induces B cell pyroptosis, promotes inflammation, and aggravates the changes caused by SCI. This may represent a novel mechanism through which the immune inflammatory response is induced after SCI and may provide a new key target for the treatment of SCI. 10.1186/s12974-023-02848-0