Loss of androgen-regulated MicroRNA 1 activates SRC and promotes prostate cancer bone metastasis

Yen Nien Liu; Juan Juan Yin; Ben Barrett; Heather Sheppard-Tillman; Dongmei Li; Orla M. Casey; Lei Fang; Paul G. Hynes; Amir H. Ameri; Kathleen Kelly

doi:10.1128/MCB.00008-15

Loss of androgen-regulated MicroRNA 1 activates SRC and promotes prostate cancer bone metastasis

Yen Nien Liu, Juan Juan Yin, Ben Barrett, Heather Sheppard-Tillman, Dongmei Li, Orla M. Casey, Lei Fang, Paul G. Hynes, Amir H. Ameri, Kathleen Kelly

Research output: Contribution to journal › Article › peer-review

47 Citations (Scopus)

Abstract

Bone metastasis is the hallmark of progressive and castration-resistant prostate cancers. MicroRNA 1 (miR-1) levels are decreased in clinical samples of primary prostate cancer and further reduced in metastases. SRC has been implicated as a critical factor in bone metastasis, and here we show that SRC is a direct target of miR-1. In prostate cancer patient samples, miR-1 levels are inversely correlated with SRC expression and a SRC-dependent gene signature. Ectopic miR-1 expression inhibited extracellular signal-regulated kinase (ERK) signaling and bone metastasis in a xenograft model. In contrast, SRC overexpression was sufficient to reconstitute bone metastasis and ERK signaling in cells expressing high levels of miR-1. Androgen receptor (AR) activity, defined by an AR output signature, is low in a portion of castration-resistant prostate cancer. We show that AR binds to the miR-1-2 regulatory region and regulates miR-1 transcription. Patients with low miR-1 levels displayed correlated low canonical AR gene signatures. Our data support the existence of an AR-miR-1-SRC regulatory network. We propose that loss of miR-1 is one mechanistic link between low canonical AR output and SRC-promoted metastatic phenotypes.

Original language	English
Pages (from-to)	1940-1951
Number of pages	12
Journal	Molecular and Cellular Biology
Volume	35
Issue number	11
DOIs	https://doi.org/10.1128/MCB.00008-15
Publication status	Published - 2015

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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title = "Loss of androgen-regulated MicroRNA 1 activates SRC and promotes prostate cancer bone metastasis",

abstract = "Bone metastasis is the hallmark of progressive and castration-resistant prostate cancers. MicroRNA 1 (miR-1) levels are decreased in clinical samples of primary prostate cancer and further reduced in metastases. SRC has been implicated as a critical factor in bone metastasis, and here we show that SRC is a direct target of miR-1. In prostate cancer patient samples, miR-1 levels are inversely correlated with SRC expression and a SRC-dependent gene signature. Ectopic miR-1 expression inhibited extracellular signal-regulated kinase (ERK) signaling and bone metastasis in a xenograft model. In contrast, SRC overexpression was sufficient to reconstitute bone metastasis and ERK signaling in cells expressing high levels of miR-1. Androgen receptor (AR) activity, defined by an AR output signature, is low in a portion of castration-resistant prostate cancer. We show that AR binds to the miR-1-2 regulatory region and regulates miR-1 transcription. Patients with low miR-1 levels displayed correlated low canonical AR gene signatures. Our data support the existence of an AR-miR-1-SRC regulatory network. We propose that loss of miR-1 is one mechanistic link between low canonical AR output and SRC-promoted metastatic phenotypes.",

author = "Liu, {Yen Nien} and Yin, {Juan Juan} and Ben Barrett and Heather Sheppard-Tillman and Dongmei Li and Casey, {Orla M.} and Lei Fang and Hynes, {Paul G.} and Ameri, {Amir H.} and Kathleen Kelly",

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AU - Liu, Yen Nien

AU - Yin, Juan Juan

AU - Barrett, Ben

AU - Sheppard-Tillman, Heather

AU - Li, Dongmei

AU - Casey, Orla M.

AU - Fang, Lei

AU - Hynes, Paul G.

AU - Ameri, Amir H.

AU - Kelly, Kathleen

PY - 2015

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N2 - Bone metastasis is the hallmark of progressive and castration-resistant prostate cancers. MicroRNA 1 (miR-1) levels are decreased in clinical samples of primary prostate cancer and further reduced in metastases. SRC has been implicated as a critical factor in bone metastasis, and here we show that SRC is a direct target of miR-1. In prostate cancer patient samples, miR-1 levels are inversely correlated with SRC expression and a SRC-dependent gene signature. Ectopic miR-1 expression inhibited extracellular signal-regulated kinase (ERK) signaling and bone metastasis in a xenograft model. In contrast, SRC overexpression was sufficient to reconstitute bone metastasis and ERK signaling in cells expressing high levels of miR-1. Androgen receptor (AR) activity, defined by an AR output signature, is low in a portion of castration-resistant prostate cancer. We show that AR binds to the miR-1-2 regulatory region and regulates miR-1 transcription. Patients with low miR-1 levels displayed correlated low canonical AR gene signatures. Our data support the existence of an AR-miR-1-SRC regulatory network. We propose that loss of miR-1 is one mechanistic link between low canonical AR output and SRC-promoted metastatic phenotypes.

AB - Bone metastasis is the hallmark of progressive and castration-resistant prostate cancers. MicroRNA 1 (miR-1) levels are decreased in clinical samples of primary prostate cancer and further reduced in metastases. SRC has been implicated as a critical factor in bone metastasis, and here we show that SRC is a direct target of miR-1. In prostate cancer patient samples, miR-1 levels are inversely correlated with SRC expression and a SRC-dependent gene signature. Ectopic miR-1 expression inhibited extracellular signal-regulated kinase (ERK) signaling and bone metastasis in a xenograft model. In contrast, SRC overexpression was sufficient to reconstitute bone metastasis and ERK signaling in cells expressing high levels of miR-1. Androgen receptor (AR) activity, defined by an AR output signature, is low in a portion of castration-resistant prostate cancer. We show that AR binds to the miR-1-2 regulatory region and regulates miR-1 transcription. Patients with low miR-1 levels displayed correlated low canonical AR gene signatures. Our data support the existence of an AR-miR-1-SRC regulatory network. We propose that loss of miR-1 is one mechanistic link between low canonical AR output and SRC-promoted metastatic phenotypes.

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Loss of androgen-regulated MicroRNA 1 activates SRC and promotes prostate cancer bone metastasis

Abstract

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