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Tumor derived UBR5 promotes ovarian cancer growth and metastasis through inducing immunosuppressive macrophages.


ABSTRACT: Immunosuppressive tumor microenvironment (TME) and ascites-derived spheroids in ovarian cancer (OC) facilitate tumor growth and progression, and also pose major obstacles for cancer therapy. The molecular pathways involved in the OC-TME interactions, how the crosstalk impinges on OC aggression and chemoresistance are not well-characterized. Here, we demonstrate that tumor-derived UBR5, an E3 ligase overexpressed in human OC associated with poor prognosis, is essential for OC progression principally by promoting tumor-associated macrophage recruitment and activation via key chemokines and cytokines. UBR5 is also required to sustain cell-intrinsic ?-catenin-mediated signaling to promote cellular adhesion/colonization and organoid formation by controlling the p53 protein level. OC-specific targeting of UBR5 strongly augments the survival benefit of conventional chemotherapy and immunotherapies. This work provides mechanistic insights into the novel oncogene-like functions of UBR5 in regulating the OC-TME crosstalk and suggests that UBR5 is a potential therapeutic target in OC treatment for modulating the TME and cancer stemness.

SUBMITTER: Song M 

PROVIDER: S-EPMC7722725 | biostudies-literature | 2020 Dec

REPOSITORIES: biostudies-literature

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Tumor derived UBR5 promotes ovarian cancer growth and metastasis through inducing immunosuppressive macrophages.

Song Mei M   Yeku Oladapo O OO   Rafiq Sarwish S   Purdon Terence T   Dong Xue X   Zhu Lijing L   Zhang Tuo T   Wang Huan H   Yu Ziqi Z   Mai Junhua J   Shen Haifa H   Nixon Briana B   Li Ming M   Brentjens Renier J RJ   Ma Xiaojing X  

Nature communications 20201208 1


Immunosuppressive tumor microenvironment (TME) and ascites-derived spheroids in ovarian cancer (OC) facilitate tumor growth and progression, and also pose major obstacles for cancer therapy. The molecular pathways involved in the OC-TME interactions, how the crosstalk impinges on OC aggression and chemoresistance are not well-characterized. Here, we demonstrate that tumor-derived UBR5, an E3 ligase overexpressed in human OC associated with poor prognosis, is essential for OC progression principa  ...[more]

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