Relationship between Retroviral DNA-Integration-Site Selection and Host Cell Transcription

Retroviral DNA integration occurs throughout the genome; however, local "hot spots" exist where a strong preference for certain sites over others are seen, and more global preferences associated with genes have been reported. Previous data from our laboratory suggested that there are fewer...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2005-02, Vol.102 (5), p.1436-1441
Hauptverfasser: Maxfield, Lori F., Fraize, Camilla D., Coffin, John M.
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Sprache:eng
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Zusammenfassung:Retroviral DNA integration occurs throughout the genome; however, local "hot spots" exist where a strong preference for certain sites over others are seen, and more global preferences associated with genes have been reported. Previous data from our laboratory suggested that there are fewer integration events into a DNA template when it is undergoing active transcription than when it is not. Because these data were generated by using a stably transfected foreign gene that was only weakly inducible, we have extended this observation by comparing integration events into a highly inducible endogenous gene under both induced and uninduced transcriptional states. To examine the influence of transcription on site selection directly, we analyzed the frequency and distribution of integration of avian retrovirus DNA into the metallothionein gene, before and after its induction to a highly sustained level of expression by addition of ZnSO4. We found a 6-fold reduction in integration events after 100-fold induction of transcription. This result implies that, despite an apparent preference for integration of retroviral DNA into transcribed regions of host DNA, high-level transcription can be inhibitory to the integration process. Several possible models for our observation are as follows. First, when a DNA template is undergoing active transcription, integration might be blocked by the RNA polymerase II complex because of steric hindrance. Alternatively, the integrase complex may require DNA to be in a double-stranded conformation, which would not be the case during active transcription. Last, transcription might lead to remodeling of chromatin into a structure that is less favorable for integration.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.0409204102