Abstract:This study intends to obtain recombinant proteins of ALT1 and ALT2 isozymes by using genetic recombination technology. Monoclonal antibodies ALT1 and ALT2 with high specificity and high activity were prepared and screened (ALT1 monoclonal antibody has been successfully prepared and published). The localization, distribution and expression of ALT1 and ALT2 isozymes in human tissues were discussed. The ALT2 genes were amplified from human liver cancer cell (HepG2) by RT-PCR method. The mature ALT2 gene was subcloned into the pET32a-ALT2 prokaryotic expression vector. Its ligation product was transformed into BL21(DE3) competent cells, and transformed into competent cells to express ALT2 proteins induced by IPTG. The recombinant proteins of ALT2 were purified by nickel column (Ni+) affinity chromatography. Balb/c mice were immunized with recombinant proteins of ALT2. Positive serum mouse spleen cells and myeloma cells SP2/0 were selected for cell fusion. The positive cell lines were selected by indirect ELISA and subcloned by limited dilution method. Affinity chromatography was used to purify ALT2 antibodies. The expression and distribution of ALT2 in human normal tissues were detected by RT-PCR and Western blotting. Results show that the expression of ALT isoenzyme in tissues was almost the same at gene mRNA level and protein level. ALT1 is highly expressed in liver, kidney and skeletal muscle, and moderately expressed in gastrointestinal smooth muscle. ALT2 is highly expressed in fat, skeletal muscle and myocardium, and is poorly expressed in gastrointestinal smooth muscle. Immunohistochemical studies show that ALT1 is highly expressed in hepatocytes, renal medullary tubules and muscle fibers, ALT2 is highly expressed in adipocytes and myocardial cells, and ALT1 and ALT2 in gastrointestinal tissues are mainly expressed in mucosa of upper intestinal wall region. The results showed that the isoenzymes ALT1 and ALT2 were mainly expressed in the mucosa of the upper part of the intestinal wall. It is widely distributed in the tissues, providing theoretical basis for understanding the mechanism of ALT activity increase under different pathological conditions.