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. 2025 Sep 8;60(17):2264-2278.e7.
doi: 10.1016/j.devcel.2025.04.005. Epub 2025 May 1.

Sumoylated Etv1 establishes mouse mammary cancer stem cells that support tumorigenesis by non-stem cancer cells

Zhijie Li  1 Kelsey E Koch  1 Dakota T Thompson  1 Dana M Van der Heide  1 Jeremy Chang  1 Christopher M Franke  1 Mohammed O Suraju  1 Anna C Beck  1 Allison W Lorenzen  1 Jeffrey R White  1 Nicholas I Bartschat  1 Mikhail V Kulak  1 David K Meyerholz  2 Colin Kenny  1 Ronald J Weigel  3
Affiliations

Sumoylated Etv1 establishes mouse mammary cancer stem cells that support tumorigenesis by non-stem cancer cells

Zhijie Li et al. Dev Cell. .

Abstract

The small ubiquitin-like modifier (SUMO) pathway is required for maintenance of cancer stem cells/tumor-initiating cells (CSCs/TICs), which drive tumorigenesis when transplanted into immunocompromised mice. We found that inhibition of the SUMO pathway blocked Neu-mediated mammary oncogenesis and inhibited the function of CSCs/TICs without effects on normal mammary stem cells. Transcriptomic analysis implicated SUMO-conjugated Etv1 as being critical for oncogenesis. After SUMO pathway inhibition, a SUMO-mimetic Etv1 protein, created by a fusion with SUMO1 or SUMO2, established a stem-like cell capable of tumorigenesis, whereas a SUMO-resistant Etv1 protein established a proliferative, non-tumorigenic cell. In mixing experiments, stem-like cells induced tumorigenesis by non-stem cells. We conclude that SUMO-conjugated Etv1 is necessary to maintain the CSC/TIC phenotype and that crosstalk between stem and non-stem cells is crucial for tumorigenesis. The findings demonstrate dynamic interactions between heterogeneous cell types to drive tumorigenesis, which has implications for future cancer therapeutic development.

Keywords: Etv1; breast cancer; cancer stem cell; mammary oncogenesis; mouse mammary carcinoma; neu; stem cells; sumoylation; transcription; tumorigenesis.

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Conflict of interest statement

Declaration of interests The authors declare no competing interests.

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