High Risk alpha-HPV E6 Impairs Translesion Synthesis by Blocking POL eta Induction

High Risk alpha-HPV E6 Impairs Translesion Synthesis by Blocking POL eta Induction

Simple Summary Cervical cancers (CaCx) are caused by the expression of human papillomavirus oncogenes (HPV E6 and E7). Here, in vitro assays, computational approaches and immunohistochemical analysis of cervical biopsies show that HPV oncogenes impair translesion synthesis (TLS). This limits the pat...

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Veröffentlicht in:Cancers 2020-12, Vol.13 (1), p.28, Article 28
Hauptverfasser: Wendel, Sebastian O., Snow, Jazmine A., Bastian, Tyler, Brown, Laura, Hernandez, Candy, Burghardt, Emily, Kahn, Andrew, Murthy, Vaibhav, Neill, Daniel, Smith, Zachary C., Ault, Kevin, Tawfik, Ossama, Wu, Cen, Wallace, Nicholas A.
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container_issue 1
container_start_page 28
container_title Cancers
container_volume 13
creator Wendel, Sebastian O.
Snow, Jazmine A.
Bastian, Tyler
Brown, Laura
Hernandez, Candy
Burghardt, Emily
Kahn, Andrew
Murthy, Vaibhav
Neill, Daniel
Smith, Zachary C.
Ault, Kevin
Tawfik, Ossama
Wu, Cen
Wallace, Nicholas A.
description Simple Summary Cervical cancers (CaCx) are caused by the expression of human papillomavirus oncogenes (HPV E6 and E7). Here, in vitro assays, computational approaches and immunohistochemical analysis of cervical biopsies show that HPV oncogenes impair translesion synthesis (TLS). This limits the pathway's ability to prevent replication stress from causing fork collapse and DNA damage. As a result, HPV oncogenes make cells more sensitive to replication stressing agents, such as Cisplatin. Mechanistically, HPV E6 prevents replication stress from triggering the accumulation of a TLS-specific polymerase (POL eta). Supplying exogenous POL eta to CaCx cells rescues TLS and lowers Cisplatin toxicity. High risk genus alpha human papillomaviruses (alpha-HPVs) express two versatile oncogenes (alpha-HPV E6 and E7) that cause cervical cancer (CaCx) by degrading tumor suppressor proteins (p53 and RB). alpha-HPV E7 also promotes replication stress and alters DNA damage responses (DDR). The translesion synthesis pathway (TLS) mitigates DNA damage by preventing replication stress from causing replication fork collapse. Computational analysis of gene expression in CaCx transcriptomic datasets identified a frequent increased expression of TLS genes. However, the essential TLS polymerases did not follow this pattern. These data were confirmed with in vitro and ex vivo systems. Further interrogation of TLS, using POL eta as a representative TLS polymerase, demonstrated that alpha-HPV16 E6 blocks TLS polymerase induction by degrading p53. This doomed the pathway, leading to increased replication fork collapse and sensitivity to treatments that cause replication stress (e.g., UV and Cisplatin). This sensitivity could be overcome by the addition of exogenous POL eta.
doi_str_mv 10.3390/cancers13010028
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Here, in vitro assays, computational approaches and immunohistochemical analysis of cervical biopsies show that HPV oncogenes impair translesion synthesis (TLS). This limits the pathway's ability to prevent replication stress from causing fork collapse and DNA damage. As a result, HPV oncogenes make cells more sensitive to replication stressing agents, such as Cisplatin. Mechanistically, HPV E6 prevents replication stress from triggering the accumulation of a TLS-specific polymerase (POL eta). Supplying exogenous POL eta to CaCx cells rescues TLS and lowers Cisplatin toxicity. High risk genus alpha human papillomaviruses (alpha-HPVs) express two versatile oncogenes (alpha-HPV E6 and E7) that cause cervical cancer (CaCx) by degrading tumor suppressor proteins (p53 and RB). alpha-HPV E7 also promotes replication stress and alters DNA damage responses (DDR). The translesion synthesis pathway (TLS) mitigates DNA damage by preventing replication stress from causing replication fork collapse. Computational analysis of gene expression in CaCx transcriptomic datasets identified a frequent increased expression of TLS genes. However, the essential TLS polymerases did not follow this pattern. These data were confirmed with in vitro and ex vivo systems. Further interrogation of TLS, using POL eta as a representative TLS polymerase, demonstrated that alpha-HPV16 E6 blocks TLS polymerase induction by degrading p53. This doomed the pathway, leading to increased replication fork collapse and sensitivity to treatments that cause replication stress (e.g., UV and Cisplatin). 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subjects Life Sciences & Biomedicine
Oncology
Science & Technology
title High Risk alpha-HPV E6 Impairs Translesion Synthesis by Blocking POL eta Induction
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