118: Cancer cells subvert the primate-specific KRAB zinc finger protein ZNF93 to control APOBEC3B episode artwork

EPISODE · Aug 26, 2025 · 19 MIN

118: Cancer cells subvert the primate-specific KRAB zinc finger protein ZNF93 to control APOBEC3B

from Base by Base · host Gustavo Barra

️ Episode 118: Cancer cells subvert the primate-specific KRAB zinc finger protein ZNF93 to control APOBEC3B In this episode of PaperCast Base by Base, we explore how cancer cells co-opt a primate-specific KRAB zinc finger protein, ZNF93, to fine-tune the mutagenic enzyme APOBEC3B and manage replication stress. Study Highlights:Using genome-wide KZFP binding maps, CUT&Tag, RNA-seq, and functional assays across multiple cancer cell lines, the authors identify ZNF93 as a proliferation-linked regulator enriched at promoters of young endonuclease-competent LINE-1 elements and as a direct repressor of APOBEC3B. ZNF93 knockdown consistently reduces proliferation, activates replication stress and DNA-damage checkpoints, and triggers inflammatory programs, while ZNF93 overexpression improves recovery from genotoxic insult similarly to APOBEC3B depletion. Mechanistically, ZNF93 binds the APOBEC3B promoter and suppresses its expression largely independent of TRIM28-mediated heterochromatin, with ZNF93 loss driving strong APOBEC3B upregulation and heightened stress signaling. Across human tumors, ZNF93 levels broadly correlate with proliferation and are elevated in many cancers, whereas HPV-positive cervical cancers show reduced ZNF93 alongside elevated APOBEC3B, suggesting tumors tune this axis to balance mutagenesis with tolerable replication stress. Conclusion:ZNF93 operates as a primate-specific rheostat that restrains APOBEC3B-driven replication stress and is exploited by tumors, highlighting a potential therapeutic lever to modulate genome instability in cancer. Reference:Forey R, Raclôt C, Pulver C, Rosspopoff O, Offner S, Duc J, Planet E, Martins F, Turelli P, Trono D. Cancer cells subvert the primate-specific KRAB zinc finger protein ZNF93 to control APOBEC3B. Proceedings of the National Academy of Sciences. 2025;122(34):e2505021122. https://doi.org/10.1073/pnas.2505021122 License:This episode is based on an open-access article published under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND 4.0) – https://creativecommons.org/licenses/by-nc-nd/4.0/ Support:If you'd like to support Base by Base, you can make a one-time or monthly donation here: https://basebybase.castos.com/ On PaperCast Base by Base you’ll discover the latest in genomics, functional genomics, structural genomics, and proteomics. Keywords: ZNF93; APOBEC3B; replication stress; KRAB zinc finger proteins; cancer epigenetics Chapters (00:00:00) - Base by Base(00:01:36) - How do cancer cells manage their own DNA?(00:05:56) - How ZNF93 regulates cancer cell growth(00:11:38) - ZNF93 regulation of APOB3B

️ Episode 118: Cancer cells subvert the primate-specific KRAB zinc finger protein ZNF93 to control APOBEC3B In this episode of PaperCast Base by Base, we explore how cancer cells co-opt a primate-specific KRAB zinc finger protein, ZNF93, to fine-tune the mutagenic enzyme APOBEC3B and manage replication stress. Study Highlights:Using genome-wide KZFP binding maps, CUT&Tag, RNA-seq, and functional assays across multiple cancer cell lines, the authors identify ZNF93 as a proliferation-linked regulator enriched at promoters of young endonuclease-competent LINE-1 elements and as a direct repressor of APOBEC3B. ZNF93 knockdown consistently reduces proliferation, activates replication stress and DNA-damage checkpoints, and triggers inflammatory programs, while ZNF93 overexpression improves recovery from genotoxic insult similarly to APOBEC3B depletion. Mechanistically, ZNF93 binds the APOBEC3B promoter and suppresses its expression largely independent of TRIM28-mediated heterochromatin, with ZNF93 loss driving strong APOBEC3B upregulation and heightened stress signaling. Across human tumors, ZNF93 levels broadly correlate with proliferation and are elevated in many cancers, whereas HPV-positive cervical cancers show reduced ZNF93 alongside elevated APOBEC3B, suggesting tumors tune this axis to balance mutagenesis with tolerable replication stress. Conclusion:ZNF93 operates as a primate-specific rheostat that restrains APOBEC3B-driven replication stress and is exploited by tumors, highlighting a potential therapeutic lever to modulate genome instability in cancer. Reference:Forey R, Raclôt C, Pulver C, Rosspopoff O, Offner S, Duc J, Planet E, Martins F, Turelli P, Trono D. Cancer cells subvert the primate-specific KRAB zinc finger protein ZNF93 to control APOBEC3B. Proceedings of the National Academy of Sciences. 2025;122(34):e2505021122. https://doi.org/10.1073/pnas.2505021122 License:This episode is based on an open-access article published under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND 4.0) – https://creativecommons.org/licenses/by-nc-nd/4.0/ Support:If you'd like to support Base by Base, you can make a one-time or monthly donation here: https://basebybase.castos.com/ On PaperCast Base by Base you’ll discover the latest in genomics, functional genomics, structural genomics, and proteomics. Keywords: ZNF93; APOBEC3B; replication stress; KRAB zinc finger proteins; cancer epigenetics

NOW PLAYING

118: Cancer cells subvert the primate-specific KRAB zinc finger protein ZNF93 to control APOBEC3B

0:00 19:11

No transcript for this episode yet

We transcribe on demand. Request one and we'll notify you when it's ready — usually under 10 minutes.

No similar episodes found.

No similar podcasts found.

Frequently Asked Questions

How long is this episode of Base by Base?

This episode is 19 minutes long.

When was this Base by Base episode published?

This episode was published on August 26, 2025.

What is this episode about?

️ Episode 118: Cancer cells subvert the primate-specific KRAB zinc finger protein ZNF93 to control APOBEC3B In this episode of PaperCast Base by Base, we explore how cancer cells co-opt a primate-specific KRAB zinc finger protein, ZNF93, to...

Can I download this Base by Base episode?

Yes, you can download this episode by clicking the download button on the episode player, or subscribe to the podcast in your preferred podcast app for automatic downloads.
URL copied to clipboard!