动物造模 Z-bio 2022-12-26 258

　　Objective To establish a genetically modified mouse with low expression of lipoic acid synthase gene and detect its antioxidant capacity.

　　Methods The Loxp mice in the 3 '- UTR region of lipoic acid synthase gene were hybridized with E2a Cre mice, and the LiasL/+mice were identified from the offspring mice, and further reproduction and genotype identification were conducted. Ten 8-week old male mice with LiasL/L and Lias+/+genotypes were selected; After weighing and anesthesia, blood was collected through femoral artery, and then lungs, kidneys and livers of mice were separated and weighed. The expression of lipoic acid synthase (LIAS) protein in lung, kidney and liver tissues was detected by Western Blot and immunohistochemistry; Serum was separated and total antioxidant capacity (TAC) was measured; The total protein was extracted from kidney, liver and lung homogenates, and the activity of SOD, CAT enzyme and the content of MDA were detected.

　　Results Western Blot and immunohistochemical analysis showed that except the results of liver LIAS immunohistochemical analysis, the expression level of Lias protein in kidney, liver and lung tissues of mice in LiasL/L group was significantly lower than that of mice in LIAS+/+group (P<0 05)。 Compared with Lias+/+group mice, the serum TAC level of LiasL/L group mice decreased significantly (P<0 05), the activities of SOD and CAT enzymes in kidney, liver and lung of LiasL/L mice decreased significantly, and the level of MDA increased significantly (P<0 05)。

　　Conclusion The gene modified mice with low expression of lipoic acid synthase gene were identified in this study. The expression of lipoic acid synthase gene in kidney, liver and lung was lower than that in wild-type mice, and caused oxidative damage to corresponding organs.