James P. Trempe scite author profile

Prior genetic analysis provided evidence for transacting regulatory proteins (Rep) coded by the left-hand open reading frame (orf-1) of adeno-associated virus (AAV). We have used immunoblotting analysis to identify four protein products of orf-1. Antibodies elicited against an oligopeptide encoded by orf-1 were reacted with extracts of cells that were infected with AAV or transfected with AAV recombinant vectors in the presence or absence of helper adenovirus. The antibody recognized four polypeptides with apparent molecular weights of 78,000, 68,000, 52,000, and 40,000. The 78,000-dalton (78K) (Rep78) and 68K (Rep68) proteins appear to be encoded by the unspliced 4.2-kilobase (kb) and spliced 3.9-kb mRNAs, respectively, transcribed from the Ps promoter. The 52K (Rep52) and 40K (Rep4O) proteins appear to be the products of the unspliced 3.6-kb and the spliced 3.3-kb mRNAs, respectively, transcribed from the Plg promoter. Rigorous identification of Rep68 as an AAV-coded protein is compromised by a cross-reacting cellular protein of similar size. All four proteins were expressed in the human cell lines 293, HeLa, HT29, and A549 infected with AAV together with adenovirus. Rep78 and Rep52 were detected at lower levels in cells infected with AAV at high multiplicity in the absence of adenovirus. Human 293 cells transfected with a recombinant AAV vector (pAV2) also expressed Rep proteins in the presence or absence of adenovirus. Mutations introduced into the Rep region of pAV2 further identified the Rep proteins. The amount of each Rep protein varied between nuclear and cytoplasmic extracts, but all four proteins accumulated during the lytic cycle of the viral infection. Other studies have indicated that the Rep proteins have independent transacting functions in viral DNA replication and negative and positive regulation of gene expression. Correlation of each transacting function with individual Rep proteins will be facilitated with the antibodies described herein.

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Adeno-associated virus rep proteins produced in insect and mammalian expression systems: Wild-type and dominant-negative mutant proteins bind to the viral replication origin

Owens

Trempe

Chejanovsky

et al. 1991

Virology

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Characterization of adeno-associated virus rep proteins in human cells by antibodies raised against rep expressed in Escherichia coli

1987

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Adeno-associated virus and adenovirus coinfection induces a cellular DNA damage and repair response via redundant phosphatidylinositol 3-like kinase pathways

et al. 2009

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During Adeno-Associated Virus and Adenovirus (AAV/Ad) coinfection, accumulation of viral genomes and proteins can alter cellular stress responses. To determine how AAV/Ad coinfection affects the host we screened over 60 cellular proteins for their responses. AAV/Ad coinfections induce a robust DNA damage response (DDR) that is distinct from that induced by Ad infection alone. Using chemical inhibitors, deficient cell lines and siRNA knockdowns of the DDR kinases, ATM, ATR and DNA-PK, we determined that DNA-PK and ATM kinases are the initial transducers of this response. AAV/Ad coinfection induces ATM-and DNA-PK mediated phosphorylation of RPA2, NBS1, H2AX and the checkpoint kinases CHK1/2. Inhibition of one or more of the DDR kinases reduces the level of phosphorylation of downstream targets but does not dramatically reduce Ad or AAV protein expression. However, AAV DNA levels are moderately affected by kinase inhibition. These experiments provide new insights into the cellular responses to AAV/Ad coinfections.

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James P. Trempe

Identification of the trans-acting Rep proteins of adeno-associated virus by antibodies to a synthetic oligopeptide

Adeno-associated virus rep proteins produced in insect and mammalian expression systems: Wild-type and dominant-negative mutant proteins bind to the viral replication origin

Characterization of adeno-associated virus rep proteins in human cells by antibodies raised against rep expressed in Escherichia coli

Adeno-associated virus and adenovirus coinfection induces a cellular DNA damage and repair response via redundant phosphatidylinositol 3-like kinase pathways

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