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Death effector domain-containing protein induces vulnerability to cell cycle inhibition in triple-negative breast cancer.


ABSTRACT: Lacking targetable molecular drivers, triple-negative breast cancer (TNBC) is the most clinically challenging subtype of breast cancer. In this study, we reveal that Death Effector Domain-containing DNA-binding protein (DEDD), which is overexpressed in?>?60% of TNBCs, drives a mitogen-independent G1/S cell cycle transition through cytoplasm localization. The gain of cytosolic DEDD enhances cyclin D1 expression by interacting with heat shock 71?kDa protein 8 (HSC70). Concurrently, DEDD interacts with Rb family proteins and promotes their proteasome-mediated degradation. DEDD overexpression renders TNBCs vulnerable to cell cycle inhibition. Patients with TNBC have been excluded from CDK 4/6 inhibitor clinical trials due to the perceived high frequency of Rb-loss in TNBCs. Interestingly, our study demonstrated that, irrespective of Rb status, TNBCs with DEDD overexpression exhibit a DEDD-dependent vulnerability to combinatorial treatment with CDK4/6 inhibitor and EGFR inhibitor in vitro and in vivo. Thus, our study provided a rationale for the clinical application of CDK4/6 inhibitor combinatorial regimens for patients with TNBC.

SUBMITTER: Ni Y 

PROVIDER: S-EPMC6599020 | biostudies-literature | 2019 Jun

REPOSITORIES: biostudies-literature

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Death effector domain-containing protein induces vulnerability to cell cycle inhibition in triple-negative breast cancer.

Ni Yingjia Y   Schmidt Keon R KR   Werner Barnes A BA   Koenig Jenna K JK   Guldner Ian H IH   Schnepp Patricia M PM   Tan Xuejuan X   Jiang Lan L   Host Misha M   Sun Longhua L   Howe Erin N EN   Wu Junmin J   Littlepage Laurie E LE   Nakshatri Harikrishna H   Zhang Siyuan S  

Nature communications 20190628 1


Lacking targetable molecular drivers, triple-negative breast cancer (TNBC) is the most clinically challenging subtype of breast cancer. In this study, we reveal that Death Effector Domain-containing DNA-binding protein (DEDD), which is overexpressed in > 60% of TNBCs, drives a mitogen-independent G1/S cell cycle transition through cytoplasm localization. The gain of cytosolic DEDD enhances cyclin D1 expression by interacting with heat shock 71 kDa protein 8 (HSC70). Concurrently, DEDD interacts  ...[more]

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