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Transcriptional coregualtor NUPR1 maintains tamoxifen resistance in breast cancer cells.

ABSTRACT: To support cellular homeostasis and mitigate chemotherapeutic stress, cancer cells must gain a series of adaptive intracellular processes. Here we identify that NUPR1, a tamoxifen (Tam)-induced transcriptional coregulator, is necessary for the maintenance of Tam resistance through physical interaction with ESR1 in breast cancers. Mechanistically, NUPR1 binds to the promoter regions of several genes involved in autophagy process and drug resistance such as BECN1, GREB1, RAB31, PGR, CYP1B1, and regulates their transcription. In Tam-resistant ESR1 breast cancer cells, NUPR1 depletion results in premature senescence in vitro and tumor suppression in vivo. Moreover, enforced-autophagic flux augments cytoplasmic vacuolization in NUPR1-depleted Tam resistant cells, which facilitates the transition from autophagic survival to premature senescence. Collectively, these findings suggest a critical role for NUPR1 as a transcriptional coregulator in enabling endocrine persistence of breast cancers, thus providing a vulnerable diagnostic and/or therapeutic target for endocrine resistance.

SUBMITTER: Wang L 

PROVIDER: S-EPMC7862277 | biostudies-literature | 2021 Feb

REPOSITORIES: biostudies-literature

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Transcriptional coregualtor NUPR1 maintains tamoxifen resistance in breast cancer cells.

Wang Lingling L   Sun Jiashen J   Yin Yueyuan Y   Sun Yanan Y   Ma Jinyi J   Zhou Ruimin R   Chang Xinzhong X   Li Ding D   Yao Zhi Z   Tian Shanshan S   Zhang Kai K   Liu Zhe Z   Ma Zhenyi Z  

Cell death & disease 20210204 2

To support cellular homeostasis and mitigate chemotherapeutic stress, cancer cells must gain a series of adaptive intracellular processes. Here we identify that NUPR1, a tamoxifen (Tam)-induced transcriptional coregulator, is necessary for the maintenance of Tam resistance through physical interaction with ESR1 in breast cancers. Mechanistically, NUPR1 binds to the promoter regions of several genes involved in autophagy process and drug resistance such as BECN1, GREB1, RAB31, PGR, CYP1B1, and re  ...[more]

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