期刊论文详细信息
PLoS Pathogens
The SUMOylation Pathway Restricts Gene Transduction by Adeno-Associated Viruses
Petr Matula1  Karl Rohr1  Florian Sonntag2  Katharina Henrich2  Jürgen A. Kleinschmidt2  Martin Müller2  Christina Hölscher2  Qingxin Chen2  Lars Kaderali3  Nina Beil4  Jürgen Beneke4  Holger Erfle4 
[1] Biomedical Computer Vision Group, Dept. Bioinformatics and Functional Genomics, University of Heidelberg, BIOQUANT, IPMB, and German Cancer Research Center, Heidelberg, Germany;German Cancer Research Center, Heidelberg, Germany;University Medicine Greifswald, Institute for Bioinformatics, Greifswald, Germany;VIROQUANT-CellNetworks RNAi Screening Facility, BIOQUANT Center University Heidelberg, Heidelberg, Germany
关键词: SUMOylation;    Small interfering RNAs;    Transfection;    Luciferase;    Library screening;    HeLa cells;    Capsids;    Host cells;   
DOI  :  10.1371/journal.ppat.1005281
学科分类:生物科学(综合)
来源: Public Library of Science
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【 摘 要 】

Adeno-associated viruses are members of the genus dependoviruses of the parvoviridae family. AAV vectors are considered promising vectors for gene therapy and genetic vaccination as they can be easily produced, are highly stable and non-pathogenic. Nevertheless, transduction of cells in vitro and in vivo by AAV in the absence of a helper virus is comparatively inefficient requiring high multiplicity of infection. Several bottlenecks for AAV transduction have previously been described, including release from endosomes, nuclear transport and conversion of the single stranded DNA into a double stranded molecule. We hypothesized that the bottlenecks in AAV transduction are, in part, due to the presence of host cell restriction factors acting directly or indirectly on the AAV-mediated gene transduction. In order to identify such factors we performed a whole genome siRNA screen which identified a number of putative genes interfering with AAV gene transduction. A number of factors, yielding the highest scores, were identified as members of the SUMOylation pathway. We identified Ubc9, the E2 conjugating enzyme as well as Sae1 and Sae2, enzymes responsible for activating E1, as factors involved in restricting AAV. The restriction effect, mediated by these factors, was validated and reproduced independently. Our data indicate that SUMOylation targets entry of AAV capsids and not downstream processes of uncoating, including DNA single strand conversion or DNA damage signaling. We suggest that transiently targeting SUMOylation will enhance application of AAV in vitro and in vivo.

【 授权许可】

CC BY   

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