【 摘 要 】

Adeno-associated virus (AAV) is an important vector system for human gene therapy. Although use of AAV serotypes can result in efficient myocardial gene transfer, improvements in the transduction efficiency and specificity are still required. As a method for artificial modification and selection of gene function, directed evolution has been used for diverse applications in genetic engineering of enzymes and proteins. Since 2000, pioneering work has been performed on directed evolution of viral vectors. We further attempted to evolve the AAV using DNA shuffling and in vivo biopanning in a mouse model. An AAVM41 mutant was characterized, which was found to have improved transduction efficiency and specificity in myocardium, an attribute unknown for any natural AAV serotypes. This review focuses on the development of AAV vector for cardiac gene transfer, the history of directed evolution of viral vectors, and our creation of a cardiotropic AAV, which might have implications for the future design and application of viral vectors.

【 授权许可】

   
2013 Yang and Xiao; licensee BioMed Central Ltd.

【 预 览 】

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【 参考文献 】

• [1]Sonntag F, Schmidt K, Kleinschmidt JA: A viral assembly factor promotes AAV2 capsid formation in the nucleolus. Proc Natl Acad Sci USA 2010, 107:10220-10225.
• [2]Ding W, Zhang L, Yan Z, Engelhardt JF: Intracellular trafficking of adeno-associated viral vectors. Gene Ther 2005, 12:873-880.
• [3]Nonnenmacher M, Weber T: Intracellular transport of recombinant adeno-associated virus vectors. Gene Ther 2012, 19:649-658.
• [4]Schnepp BC, Clark KR, Klemanski DL, Pacak CA, Johnson PR: Genetic fate of recombinant adeno-associated virus vector genomes in muscle. J Virol 2003, 77:3495-3504.
• [5]Zhu J, Huang X, Yang Y: The TLR9-MyD88 pathway is critical for adaptive immune responses to adeno-associated virus gene therapy vectors in mice. J Clin Invest 2009, 119:2388-2398.
• [6]Maguire AM, Simonelli F, Pierce EA, Pugh EN Jr, Mingozzi F, Bennicelli J, Banfi S, Marshall KA, Testa F, Surace EM, Rossi S, Lyubarsky A, Arruda VR, Konkle B, Stone E, Sun J, Jacobs J, Dell’Osso L, Hertle R, Ma JX, Redmond TM, Zhu X, Hauck B, Zelenaia O, Shindler KS, Maguire MG, Wright JF, Volpe NJ, McDonnell JW, Auricchio A, High KA, Bennett J: Safety and efficacy of gene transfer for Leber’s congenital amaurosis. N Engl J Med 2008, 358:2240-2248.
• [7]Bainbridge JW, Smith AJ, Barker SS, Robbie S, Henderson R, Balaggan K, Viswanathan A, Holder GE, Stockman A, Tyler N, Petersen-Jones S, Bhattacharya SS, Thrasher AJ, Fitzke FW, Carter BJ, Rubin GS, Moore AT, Ali RR: Effect of gene therapy on visual function in Leber’s congenital amaurosis. N Engl J Med 2008, 358:2231-2239.
• [8]Cideciyan AV, Aleman TS, Boye SL, Schwartz SB, Kaushal S, Roman AJ, Pang JJ, Sumaroka A, Windsor EA, Wilson JM, Flotte TR, Fishman GA, Heon E, Stone EM, Byrne BJ, Jacobson SG, Hauswirth WW: Human gene therapy for RPE65 isomerase deficiency activates the retinoid cycle of vision but with slow rod kinetics. Proc Natl Acad Sci USA 2008, 105:15112-15117.
• [9]Kaplitt MG, Feigin A, Tang C, Fitzsimons HL, Mattis P, Lawlor PA, Bland RJ, Young D, Strybing K, Eidelberg D, During MJ: Safety and tolerability of gene therapy with an adeno-associated virus (AAV) borne GAD gene for Parkinson’s disease: an open label, phase I trial. Lancet 2007, 369:2097-2105.
• [10]Jessup M, Greenberg B, Mancini D, Cappola T, Pauly DF, Jaski B, Yaroshinsky A, Zsebo KM, Dittrich H, Hajjar RJ, Calcium Upregulation by Percutaneous Administration of Gene Therapy in Cardiac Disease (CUPID) Investigators: Calcium upregulation by percutaneous administration of gene therapy in cardiac disease (CUPID): a phase 2 trial of intracoronary gene therapy of sarcoplasmic reticulum Ca2+-ATPase in patients with advanced heart failure. Circulation 2011, 124:304-313.
• [11]Mendell JR, Rodino-Klapac LR, Rosales XQ, Coley BD, Galloway G, Lewis S, Malik V, Shilling C, Byrne BJ, Conlon T, Campbell KJ, Bremer WG, Taylor LE, Flanigan KM, Gastier-Foster JM, Astbury C, Kota J, Sahenk Z, Walker CM, Clark KR: Sustained alpha-sarcoglycan gene expression after gene transfer in limb-girdle muscular dystrophy, type 2D. Ann Neurol 2010, 68:629-638.
• [12]Mingozzi F, High KA: Therapeutic in vivo gene transfer for genetic disease using AAV: progress and challenges. Nat Rev Genet 2011, 12:341-355.
• [13]Samulski RJ, Berns KI, Tan M, Muzyczka N: Cloning of adeno-associated virus into pBR322: rescue of intact virus from the recombinant plasmid in human cells. Proc Natl Acad Sci USA 1982, 79:2077-2081.
• [14]Xiao X, Li J, Samulski RJ: Efficient long-term gene transfer into muscle tissue of immunocompetent mice by adeno-associated virus vector. J Virol 1996, 70:8098-8108.
• [15]Fisher KJ, Jooss K, Alston J, Yang Y, Haecker SE, High K, Pathak R, Raper SE, Wilson JM: Recombinant adeno-associated virus for muscle directed gene therapy. Nat Med 1997, 3:306-312.
• [16]Svensson EC, Marshall DJ, Woodard K, Lin H, Jiang F, Chu L, Leiden JM: Efficient and stable transduction of cardiomyocytes after intramyocardial injection or intracoronary perfusion with recombinant adeno-associated virus vectors. Circulation 1999, 99:201-205.
• [17]Melo LG, Agrawal R, Zhang L, Rezvani M, Mangi AA, Ehsan A, Griese DP, Dell’Acqua G, Mann MJ, Oyama J, Yet SF, Layne MD, Perrella MA, Dzau VJ: Gene therapy strategy for long-term myocardial protection using adeno-associated virus-mediated delivery of heme oxygenase gene. Circulation 2002, 105:602-607.
• [18]Iwanaga Y, Hoshijima M, Gu Y, Iwatate M, Dieterle T, Ikeda Y, Date MO, Chrast J, Matsuzaki M, Peterson KL, Chien KR, Ross J Jr: Chronic phospholamban inhibition prevents progressive cardiac dysfunction and pathological remodeling after infarction in rats. J Clin Invest 2004, 113:727-736.
• [19]Hoshijima M, Ikeda Y, Iwanaga Y, Minamisawa S, Date MO, Gu Y, Iwatate M, Li M, Wang L, Wilson JM, Wang Y, Ross J Jr, Chien KR: Chronic suppression of heart-failure progression by a pseudophosphorylated mutant of phospholamban via in vivo cardiac rAAV gene delivery. Nat Med 2002, 8:864-871.
• [20]Yue Y, Li Z, Harper SQ, Davisson RL, Chamberlain JS, Duan D: Microdystrophin gene therapy of cardiomyopathy restores dystrophin-glycoprotein complex and improves sarcolemma integrity in the mdx mouse heart. Circulation 2003, 108:1626-1632.
• [21]Gao G, Vandenberghe LH, Wilson JM: New recombinant serotypes of AAV vectors. Curr Gene Ther 2005, 5:285-297.
• [22]Su H, Huang Y, Takagawa J, Barcena A, Arakawa-Hoyt J, Ye J, Grossman W, Kan YW: AAV serotype-1 mediates early onset of gene expression in mouse hearts and results in better therapeutic effect. Gene Ther 2006, 13:1495-1502.
• [23]Palomeque J, Chemaly ER, Colosi P, Wellman JA, Zhou S, Del Monte F, Hajjar RJ: Efficiency of eight different AAV serotypes in transducing rat myocardium in vivo. Gene Ther 2007, 14:989-997.
• [24]Rengo G, Lymperopoulos A, Zincarelli C, Donniacuo M, Soltys S, Rabinowitz JE, Koch WJ: Myocardial adeno-associated virus serotype 6-betaARKct gene therapy improves cardiac function and normalizes the neurohormonal axis in chronic heart failure. Circulation 2009, 119:89-98.
• [25]Gregorevic P, Blankinship MJ, Allen JM, Crawford RW, Meuse L, Miller DG, Russell DW, Chamberlain JS: Systemic delivery of genes to striated muscles using adeno-associated viral vectors. Nat Med 2004, 10:828-834.
• [26]Wang Z, Zhu T, Qiao C, Zhou L, Wang B, Zhang J, Chen C, Li J, Xiao X: Adeno-associated virus serotype 8 efficiently delivers genes to muscle and heart. Nat Biotechnol 2005, 23:321-328.
• [27]Zhu T, Zhou L, Mori S, Wang Z, McTiernan CF, Qiao C, Chen C, Wang DW, Li J, Xiao X: Sustained whole-body functional rescue in congestive heart failure and muscular dystrophy hamsters by systemic gene transfer. Circulation 2005, 112:2650-2659.
• [28]Inagaki K, Fuess S, Storm TA, Gibson GA, Mctiernan CF, Kay MA, Nakai H: Robust systemic transduction with AAV9 vectors in mice: efficient global cardiac gene transfer superior to that of AAV8. Mol Ther 2006, 14:45-53.
• [29]Pacak CA, Mah CS, Thattaliyath BD, Conlon TJ, Lewis MA, Cloutier DE, Zolotukhin I, Tarantal AF, Byrne BJ: Recombinant adeno-associated virus serotype 9 leads to preferential cardiac transduction in vivo. Circ Res 2006, 99:e3-e9.
• [30]Townsend D, Blankinship MJ, Allen JM, Gregorevic P, Chamberlain JS, Metzger JM: Systemic administration of micro-dystrophin restores cardiac geometry and prevents dobutamine-induced cardiac pump failure. Mol Ther 2007, 15:1086-1092.
• [31]Shin JH, Bostick B, Yue Y, Hajjar R, Duan D: SERCA2a gene transfer improves electrocardiographic performance in aged mdx mice. J Transl Med 2011, 9:132. BioMed Central Full Text
• [32]Pleger ST, Shan C, Ksienzyk J, Bekeredjian R, Boekstegers P, Hinkel R, Schinkel S, Leuchs B, Ludwig J, Qiu G, Weber C, Raake P, Koch WJ, Katus HA, Müller OJ, Most P: Cardiac AAV9-S100A1 gene therapy rescues post-ischemic heart failure in a preclinical large animal model. Sci Transl Med 2011, 3:92ra64.
• [33]Müller OJ, Leuchs B, Pleger ST, Grimm D, Franz WM, Katus HA, Kleinschmidt JA: Improved cardiac gene transfer by transcriptional and transductional targeting of adeno-associated viral vectors. Cardiovasc Res 2006, 70:70-78.
• [34]Asokan A, Conway JC, Phillips JL, Li C, Hegge J, Sinnott R, Yadav S, DiPrimio N, Nam HJ, Agbandje-McKenna M, McPhee S, Wolff J, Samulski RJ: Reengineering a receptor footprint of adeno-associated virus enables selective and systemic gene transfer to muscle. Nat Biotechnol 2010, 28:79-82.
• [35]Gao GP, Alvira MR, Wang L, Calcedo R, Johnston J, Wilson JM: Novel adeno-associated viruses from rhesus monkeys as vectors for human gene therapy. Proc Natl Acad Sci USA 2002, 99:11854-11859.
• [36]Gao G, Alvira MR, Somanathan S, Lu Y, Vandenberghe LH, Rux JJ, Calcedo R, Sanmiguel J, Abbas Z, Wilson JM: Adeno-associated viruses undergo substantial evolution in primates during natural infections. Proc Natl Acad Sci USA 2003, 100:6081-6086.
• [37]Soong NW, Nomura L, Pekrun K, Reed M, Sheppard L, Dawes G, Stemmer WP: Molecular breeding of viruses. Nat Genet 2000, 25:436-439.
• [38]Stemmer WP: DNA shuffling by random fragmentation and reassembly: in vitro recombination for molecular evolution. Proc Natl Acad Sci USA 1994, 91:10747-10751.
• [39]Müller OJ, Kaul F, Weitzman MD, Pasqualini R, Arap W, Kleinschmidt JA, Trepel M: Random peptide libraries displayed on adeno-associated virus to select for targeted gene therapy vectors. Nat Biotechnol 2003, 21:1040-1046.
• [40]Maheshri N, Koerber JT, Kaspar BK, Schaffer DV: Directed evolution of adeno-associated virus yields enhanced gene delivery vectors. Nat Biotechnol 2006, 24:198-204.
• [41]Yang L, Jiang J, Drouin LM, Agbandje-McKenna M, Chen C, Qiao C, Pu D, Hu X, Wang DZ, Li J, Xiao X: A myocardium tropic adeno-associated virus (AAV) evolved by DNA shuffling and in vivo selection. Proc Natl Acad Sci USA 2009, 106:3946-3951.
• [42]Xiao PJ, Li C, Neumann A, Samulski RJ: Quantitative 3D tracing of gene-delivery viral vectors in human cells and animal tissues. Mol Ther 2012, 20:317-328.
• [43]Koerber JT, Klimczak R, Jang JH, Dalkara D, Flannery JG, Schaffer DV: Molecular evolution of adeno-associated virus for enhanced glial gene delivery. Mol Ther 2009, 17:2088-2095.
• [44]Jang JH, Koerber JT, Kim JS, Asuri P, Vazin T, Bartel M, Keung A, Kwon I, Park KI, Schaffer DV: An evolved adeno-associated viral variant enhances gene delivery and gene targeting in neural stem cells. Mol Ther 2011, 19:667-675.
• [45]Excoffon KJ, Koerber JT, Dickey DD, Murtha M, Keshavjee S, Kaspar BK, Zabner J, Schaffer DV: Directed evolution of adeno-associated virus to an infectious respiratory virus. Proc Natl Acad Sci USA 2009, 106:3865-3870.
• [46]Michelfelder S, Kohlschütter J, Skorupa A, Pfennings S, Müller O, Kleinschmidt JA, Trepel M: Successful expansion but not complete restriction of tropism of adeno-associated virus by in vivo biopanning of random virus display peptide libraries. PLoS One 2009, 4:e5122.
• [47]Ying Y, Müller OJ, Goehringer C, Leuchs B, Trepel M, Katus HA, Kleinschmidt JA: Heart-targeted adeno-associated viral vectors selected by in vivo biopanning of a random viral display peptide library. Gene Ther 2010, 17:980-990.
• [48]Pulicherla N, Shen S, Yadav S, Debbink K, Govindasamy L, Agbandje-McKenna M, Asokan A: Engineering liver-detargeted AAV9 vectors for cardiac and musculoskeletal gene transfer. Mol Ther 2011, 19:1070-1078.
• [49]Manno CS, Pierce GF, Arruda VR, Glader B, Ragni M, Rasko JJ, Ozelo MC, Hoots K, Blatt P, Konkle B, Dake M, Kaye R, Razavi M, Zajko A, Zehnder J, Rustagi PK, Nakai H, Chew A, Leonard D, Wright JF, Lessard RR, Sommer JM, Tigges M, Sabatino D, Luk A, Jiang H, Mingozzi F, Couto L, Ertl HC, High KA, Kay MA: Successful transduction of liver in hemophilia by AAV-Factor IX and limitations imposed by the host immune response. Nat Med 2006, 12:342-347.