ABSTRACT
【Objective】 To observe the penetration and biological activity of PTD4-Cu, Zn-SOD into human astrocytes and whether it can mitigate hypoxia damages. 【Methods】 ①Immunohistochemistry and fluorescence test: We labeled the Cu, Zn-SOD by a monoclonal antibody, combined it with the fluorescent secondary antibody labeled with fluorescein isothiocyanate (FITC) to observe the effect of transduced PTD4-Cu, Zn-SOD on the viability of human astrocytes. ② The experimental group: After hypoxic damage model, the cells were divided into three groups: blank control, group Cu, Zn-SOD, and group PTD4-Cu, Zn-SOD. Group blank was added with DMEM medium (excluding serum) as control; DMEM medium was added to the other two for one hour (excluding serum) with its fusion proteins (Cu, Zn-SOD and PTD4 -Cu, Zn-SOD) with the final concentration of 2 μmoL/L. After the intervention, we used SOD and MDA test kits to observe PTD4-Cu, Zn-SOD and Cu, Zn-SOD in astrocytes after fusion protein intervention. 【Results】 The PTD4-Cu, Zn-SOD fusion protein could have aggregation distribution in the nucleus by FITC fluorescently labeled. After the intervention, it could increase the SOD activity in astrocytes in group PTD4-Cu, Zn-SOD and group Cu, Zn-SOD compared with control group, but the SOD activity was more obvious in the fusion proteins PTD4-Cu, Zn-SOD group. And the dose of MDA was reduced in group PTD4-Cu, Zn-SOD compared with group Cu, Zn-SOD and control group. 【Conclusion】 PTD4-Cu, Zn-SOD fusion protein can transcellular membrane of human astrocytes. The fusion protein PTD4-Cu, Zn-SOD can increase the SOD activity and reduce the content of MDA by human astrocytes from hypoxia injury.