脊髓性肌萎缩                        
                
                                
                        
                            SMN1型                        
                
                                
                        
                            遗传增强                        
                
                                
                        
                            体内分布                        
                
                                
                        
                            运动神经元                        
                
                                
                        
                            基因表达                        
                
                                
                        
                            中枢神经系统                        
                
                                
                        
                            生物                        
                
                                
                        
                            内科学                        
                
                                
                        
                            病理                        
                
                                
                        
                            医学                        
                
                                
                        
                            基因                        
                
                                
                        
                            疾病                        
                
                                
                        
                            内分泌学                        
                
                                
                        
                            体内                        
                
                                
                        
                            遗传学                        
                
                        
                    
            作者
            
                Gretchen M. Thomsen,Arthur H.M. Burghes,Caroline Hsieh,Janet Do,Binh T. T. Chu,Stephanie T. Perry,Basam Z. Barkho,Petra Kaufmann,Douglas M. Sproule,Douglas E. Feltner,Wendy K. Chung,Vicki L. McGovern,Robert F. Hevner,Miriam Conces,Christopher R. Pierson,Mariacristina Scoto,Francesco Muntoni,Jerry R. Mendell,Kevin D. Foust            
         
                    
            出处
            
                                    期刊:Nature Medicine
                                                         [Nature Portfolio]
                                                        日期:2021-10-01
                                                        卷期号:27 (10): 1701-1711
                                                        被引量:83
                                 
         
        
    
            
            标识
            
                                    DOI:10.1038/s41591-021-01483-7
                                    
                                
                                 
         
        
                
            摘要
            
            Spinal muscular atrophy type 1 (SMA1) is a debilitating neurodegenerative disease resulting from survival motor neuron 1 gene (SMN1) deletion/mutation. Onasemnogene abeparvovec (formerly AVXS-101) is a gene therapy that restores SMN production via one-time systemic administration. The present study demonstrates widespread biodistribution of vector genomes and transgenes throughout the central nervous system (CNS) and peripheral organs, after intravenous administration of an AAV9-mediated gene therapy. Two symptomatic infants with SMA1 enrolled in phase III studies received onasemnogene abeparvovec. Both patients died of respiratory complications unrelated to onasemnogene abeparvovec. One patient had improved motor function and the other died shortly after administration before appreciable clinical benefit could be observed. In both patients, onasemnogene abeparvovec DNA and messenger RNA distribution were widespread among peripheral organs and in the CNS. The greatest concentration of vector genomes was detected in the liver, with an increase over that detected in CNS tissues of 300-1,000-fold. SMN protein, which was low in an untreated SMA1 control, was clearly detectable in motor neurons, brain, skeletal muscle and multiple peripheral organs in treated patients. These data support the fact that onasemnogene abeparvovec has effective distribution, transduction and expression throughout the CNS after intravenous administration and restores SMN expression in humans.
         
            
 
                 
                
                    
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