Gene therapy for hemophilia B mediated by recombinant adeno-associated viral vector with hFIXR338A, a high catalytic activity mutation of human coagulation factor IX |
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Authors: | Huazhong Lu Li Chen Hongwei Wang Zhijian Wu Xiaobing Wu Xuefeng Wang Hongli Wang Daru Lu Xinfang Qiu Jinglun Xue |
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Affiliation: | (1) The State Key Laboratory of Genetic Engineering, Institute of Genetics, School of Life Sciences, Fudan University, 200433 Shanghai, China;(2) The State Key Laboratory of Molecular Virology and Gene Engineering, Chinese Academy of Preventive Medical Sciences, 100050 Beijing, China;(3) Shanghai Institute of Hematology, Ruijin Hospital of Shanghai Second Medical University, 200025 Shanghai, China;(4) Present address: Laboratory for Blood Engineering, Shanghai Institute of Blood Transfusion, Shanghai Blood Center, 200051 Shanghai |
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Abstract: | A mutant human factor IX with arginine at 338 residual changed to alanine (hFIXR338A) by site-directed mutagenesis was introduced into AAV vectors, and a recombinant adeno-associated viral vector containing hFIXR338A, prepared by rHSV/AAV hybrid helper virus system, was directly introduced to the hind leg muscle of factor IX knock out mice. The expression and the biological activity of human factor IX mutant, hFIXR338A, and the immune response against it in the treated mice were assayed and detected. The results showed that (i) the high-level expression of human factor IX mutant protein, hFIXR338A, has been detected in rAAV-hFIXR338A treated hemophilia B mice and lasted more than 15 weeks; (ii) the clotting activity of hFIXR338A in plasma is 34.2%±5.23%, which is remarkably higher than that of (14.27% ± 3.4%) of wild type hFIX treated mice in the activated partial thromboplastin assay; (iii) immune response against factor IX R338A was absent, with no factor IX mutant protein (hFIXR338A) inhibitors development in the treated mice; and (iv) no local or systemic side-effects and toxicity associated with the gene transfer were found. It demonstrated the potential use of treating hemophilia B by recombinant adeno-associated viral vectors with mutant hFIXR338A gene, an alternative strategy for hemophilia B gene therapy to wild-type human factor IX. |
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Keywords: | hemophilia B factor IX mutation adeno-associated viral vectors gene therapy. |
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