Background
It was tested whether the difference in carcinogenesis between noxa and human papillomavirus (HPV)‐driven head and neck squamous cell carcinoma (HNSCC) is associated with a variation in genomic instability.
Methods
Conventional and molecular cytogenetics in HPV‐positive and HPV‐negative HNSCC cell lines.
Results
Numerical aneuploidy determined by multicolor fluorescence in situ hybridization and DNA ploidy was very similar for both entities with most chromosomes being present either in quadruplicate or triplicate, and only few are still diploid with, however, a striking similarity in the overall pattern. A clear difference was seen concerning the translocations formed, with no difference in the total amount but with a significantly higher genomic instability of HPV‐positive cell lines at chromosome 3 as compared to HPV‐negative cells.
Conclusion
The different processes of carcinogenesis of HPV‐positive and HPV‐negative HNSCC appear to result in a similar pattern of numerical but a clear difference in structural chromosomal aberrations.
The efficiency of viruses in cancer therapy is enhanced by proteins that mediate the fusion of infected cells with their neighbors. It was reported that replication-competent adenovirus particles can spread between nuclei within fusion-generated syncytia. To assess this conjecture, we generated fusogenic adenoviruses that express a balanced ratio of the F and H glycoproteins of measles virus. The viruses displayed enhanced cytotoxicity but largely unchanged replication efficiencies compared to a nonfusogenic virus. Most notably, the virus genomes did not spread through fusion-generated multinuclear cells. Hence, adenovirus replication in syncytia remains largely restricted to initially transduced nuclei.
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