| Literature DB >> 33802595 |
Taro Ikegami1, Hitoshi Hirakawa1, Narutoshi Tsukahara2,3, Akikazu Murakami2,3, Norimoto Kise1, Asanori Kiyuna1, Takayoshi Kosugi1, Shinya Agena1, Hidetoshi Kinjyo1, Narumi Hasegawa1, Masatomo Touyama1, Shunsuke Kondo1, Hiroyuki Maeda1, Mikio Suzuki1, Akira Ganaha1,4.
Abstract
Laryngeal papilloma (LP) associated with human papillomavirus (HPV)-6 or -11 infection shows aggressive growth. However, the detailed molecular mechanism of virus-driven tumorigenesis has not been uncovered fully. HPV-6 viral gene expression and dynamic alterations were investigated with in situ localization of viral DNA and RNA in 13 patients with HPV-6-infected laryngeal papilloma. The average viral load was 4.80 × 105 ± 1.86 × 105 copies/ng DNA. E4, E5a, and E5b mRNAs accounted for 96% of the expression of 9 mRNAs. The alteration of viral DNA load during recurrence paralleled the mRNA expression levels, and the expression of all mRNAs showed a similar curve. E4, E5a, and E5b were expressed in the middle to upper part of the epithelium and were co-expressed in the same cells. E4 immunohistochemistry demonstrated an extensively positive reaction in the upper cell layer in accordance with E4 mRNA expression. These results suggest that individual viral genes are coordinately expressed for viral replication, virus release, and immunosurveillance avoidance. The newly developed E4-specific monoclonal antibody can be applied to further functional studies and clinical applications such as targeted molecular therapies.Entities:
Keywords: anti-E4 monoclonal antibody; human papillomavirus 6; laryngeal papilloma; long-term alteration of viral load; viral lineage; viral mRNA expression
Year: 2021 PMID: 33802595 PMCID: PMC7998961 DOI: 10.3390/microorganisms9030520
Source DB: PubMed Journal: Microorganisms ISSN: 2076-2607