MicroRNA-194 promotes prostate cancer metastasis by inhibiting SOCS2

Rajdeep Das; Philip A. Gregory; Rayzel C. Fernandes; Iza Denis; Qingqing Wang; Scott L. Townley; Shuang G. Zhao; Adrienne R. Hanson; Marie A. Pickering; Heather K. Armstrong; Noor A. Lokman; Esmaeil Ebrahimie; Elai Davicioni; Robert B. Jenkins; J. Jeffrey Karnes; Ashley E. Ross; Robert B. Den; Eric A. Klein; Kim N. Chi; Hayley S. Ramshaw; Elizabeth D. Williams; Amina Zoubeidi; Gregory J. Goodall; Felix Y. Feng; Lisa M. Butler; Wayne D. Tilley; Luke A. Selth

doi:10.1158/0008-5472.CAN-16-2529

MicroRNA-194 promotes prostate cancer metastasis by inhibiting SOCS2

Rajdeep Das, Philip A. Gregory, Rayzel C. Fernandes, Iza Denis, Qingqing Wang, Scott L. Townley, Shuang G. Zhao, Adrienne R. Hanson, Marie A. Pickering, Heather K. Armstrong, Noor A. Lokman, Esmaeil Ebrahimie, Elai Davicioni, Robert B. Jenkins, J. Jeffrey Karnes, Ashley E. Ross, Robert B. Den, Eric A. Klein, Kim N. Chi, Hayley S. RamshawElizabeth D. Williams, Amina Zoubeidi, Gregory J. Goodall, Felix Y. Feng, Lisa M. Butler, Wayne D. Tilley, Luke A. Selth

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Abstract

Serum levels of miR-194 have been reported to predict prostate cancer recurrence after surgery, but its functional contributions to this disease have not been studied. Herein, it is demonstrated that miR-194 is a driver of prostate cancer metastasis. Prostate tissue levels of miR-194 were associated with disease aggressiveness and poor outcome. Ectopic delivery of miR-194 stimulated migration, invasion, and epithelial-mesenchymal transition in human prostate cancer cell lines, and stable overexpression of miR-194 enhanced metastasis of intravenous and intraprostatic tumor xenografts. Conversely, inhibition of miR- 194 activity suppressed the invasive capacity of prostate cancer cell lines in vitro and in vivo.Mechanistic investigations identified the ubiquitin ligase suppressor of cytokine signaling 2 (SOCS2) as a direct, biologically relevant target of miR-194 in prostate cancer. Low levels of SOCS2 correlated strongly with disease recurrence and metastasis in clinical specimens. SOCS2 downregulation recapitulated miR-194-driven metastatic phenotypes, whereas overexpression of a nontargetable SOCS2 reduced miR-194-stimulated invasion. Targeting of SOCS2 by miR-194 resulted in derepression of the oncogenic kinases FLT3 and JAK2, leading to enhanced ERK and STAT3 signaling. Pharmacologic inhibition of ERK and JAK/STAT pathways reversed miR-194- driven phenotypes. The GATA2 transcription factor was identified as an upstream regulator of miR-194, consistent with a strong concordance between GATA2 and miR-194 levels in clinical specimens. Overall, these results offer new insights into the molecular mechanisms of metastatic progression in prostate cancer.

Original language	English (US)
Pages (from-to)	1021-1034
Number of pages	14
Journal	Cancer research
Volume	77
Issue number	4
DOIs	https://doi.org/10.1158/0008-5472.CAN-16-2529
State	Published - Feb 15 2017

ASJC Scopus subject areas

Oncology
Cancer Research

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10.1158/0008-5472.CAN-16-2529

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Das, R., Gregory, P. A., Fernandes, R. C., Denis, I., Wang, Q., Townley, S. L., Zhao, S. G., Hanson, A. R., Pickering, M. A., Armstrong, H. K., Lokman, N. A., Ebrahimie, E., Davicioni, E., Jenkins, R. B., Karnes, J. J., Ross, A. E., Den, R. B., Klein, E. A., Chi, K. N., ... Selth, L. A. (2017). MicroRNA-194 promotes prostate cancer metastasis by inhibiting SOCS2. Cancer research, 77(4), 1021-1034. https://doi.org/10.1158/0008-5472.CAN-16-2529

Das, R, Gregory, PA, Fernandes, RC, Denis, I, Wang, Q, Townley, SL, Zhao, SG, Hanson, AR, Pickering, MA, Armstrong, HK, Lokman, NA, Ebrahimie, E, Davicioni, E, Jenkins, RB , Karnes, JJ, Ross, AE, Den, RB, Klein, EA, Chi, KN, Ramshaw, HS, Williams, ED, Zoubeidi, A, Goodall, GJ, Feng, FY, Butler, LM, Tilley, WD & Selth, LA 2017, 'MicroRNA-194 promotes prostate cancer metastasis by inhibiting SOCS2', Cancer research, vol. 77, no. 4, pp. 1021-1034. https://doi.org/10.1158/0008-5472.CAN-16-2529

@article{f043a01fbb524fc49b074219b2665af1,

title = "MicroRNA-194 promotes prostate cancer metastasis by inhibiting SOCS2",

abstract = "Serum levels of miR-194 have been reported to predict prostate cancer recurrence after surgery, but its functional contributions to this disease have not been studied. Herein, it is demonstrated that miR-194 is a driver of prostate cancer metastasis. Prostate tissue levels of miR-194 were associated with disease aggressiveness and poor outcome. Ectopic delivery of miR-194 stimulated migration, invasion, and epithelial-mesenchymal transition in human prostate cancer cell lines, and stable overexpression of miR-194 enhanced metastasis of intravenous and intraprostatic tumor xenografts. Conversely, inhibition of miR- 194 activity suppressed the invasive capacity of prostate cancer cell lines in vitro and in vivo.Mechanistic investigations identified the ubiquitin ligase suppressor of cytokine signaling 2 (SOCS2) as a direct, biologically relevant target of miR-194 in prostate cancer. Low levels of SOCS2 correlated strongly with disease recurrence and metastasis in clinical specimens. SOCS2 downregulation recapitulated miR-194-driven metastatic phenotypes, whereas overexpression of a nontargetable SOCS2 reduced miR-194-stimulated invasion. Targeting of SOCS2 by miR-194 resulted in derepression of the oncogenic kinases FLT3 and JAK2, leading to enhanced ERK and STAT3 signaling. Pharmacologic inhibition of ERK and JAK/STAT pathways reversed miR-194- driven phenotypes. The GATA2 transcription factor was identified as an upstream regulator of miR-194, consistent with a strong concordance between GATA2 and miR-194 levels in clinical specimens. Overall, these results offer new insights into the molecular mechanisms of metastatic progression in prostate cancer.",

author = "Rajdeep Das and Gregory, {Philip A.} and Fernandes, {Rayzel C.} and Iza Denis and Qingqing Wang and Townley, {Scott L.} and Zhao, {Shuang G.} and Hanson, {Adrienne R.} and Pickering, {Marie A.} and Armstrong, {Heather K.} and Lokman, {Noor A.} and Esmaeil Ebrahimie and Elai Davicioni and Jenkins, {Robert B.} and Karnes, {J. Jeffrey} and Ross, {Ashley E.} and Den, {Robert B.} and Klein, {Eric A.} and Chi, {Kim N.} and Ramshaw, {Hayley S.} and Williams, {Elizabeth D.} and Amina Zoubeidi and Goodall, {Gregory J.} and Feng, {Felix Y.} and Butler, {Lisa M.} and Tilley, {Wayne D.} and Selth, {Luke A.}",

note = "Publisher Copyright: {\textcopyright} 2016 American Association for Cancer Research.",

year = "2017",

month = feb,

day = "15",

doi = "10.1158/0008-5472.CAN-16-2529",

language = "English (US)",

volume = "77",

pages = "1021--1034",

journal = "Cancer research",

issn = "0008-5472",

publisher = "American Association for Cancer Research Inc.",

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TY - JOUR

T1 - MicroRNA-194 promotes prostate cancer metastasis by inhibiting SOCS2

AU - Das, Rajdeep

AU - Gregory, Philip A.

AU - Fernandes, Rayzel C.

AU - Denis, Iza

AU - Wang, Qingqing

AU - Townley, Scott L.

AU - Zhao, Shuang G.

AU - Hanson, Adrienne R.

AU - Pickering, Marie A.

AU - Armstrong, Heather K.

AU - Lokman, Noor A.

AU - Ebrahimie, Esmaeil

AU - Davicioni, Elai

AU - Jenkins, Robert B.

AU - Karnes, J. Jeffrey

AU - Ross, Ashley E.

AU - Den, Robert B.

AU - Klein, Eric A.

AU - Chi, Kim N.

AU - Ramshaw, Hayley S.

AU - Williams, Elizabeth D.

AU - Zoubeidi, Amina

AU - Goodall, Gregory J.

AU - Feng, Felix Y.

AU - Butler, Lisa M.

AU - Tilley, Wayne D.

AU - Selth, Luke A.

PY - 2017/2/15

Y1 - 2017/2/15

N2 - Serum levels of miR-194 have been reported to predict prostate cancer recurrence after surgery, but its functional contributions to this disease have not been studied. Herein, it is demonstrated that miR-194 is a driver of prostate cancer metastasis. Prostate tissue levels of miR-194 were associated with disease aggressiveness and poor outcome. Ectopic delivery of miR-194 stimulated migration, invasion, and epithelial-mesenchymal transition in human prostate cancer cell lines, and stable overexpression of miR-194 enhanced metastasis of intravenous and intraprostatic tumor xenografts. Conversely, inhibition of miR- 194 activity suppressed the invasive capacity of prostate cancer cell lines in vitro and in vivo.Mechanistic investigations identified the ubiquitin ligase suppressor of cytokine signaling 2 (SOCS2) as a direct, biologically relevant target of miR-194 in prostate cancer. Low levels of SOCS2 correlated strongly with disease recurrence and metastasis in clinical specimens. SOCS2 downregulation recapitulated miR-194-driven metastatic phenotypes, whereas overexpression of a nontargetable SOCS2 reduced miR-194-stimulated invasion. Targeting of SOCS2 by miR-194 resulted in derepression of the oncogenic kinases FLT3 and JAK2, leading to enhanced ERK and STAT3 signaling. Pharmacologic inhibition of ERK and JAK/STAT pathways reversed miR-194- driven phenotypes. The GATA2 transcription factor was identified as an upstream regulator of miR-194, consistent with a strong concordance between GATA2 and miR-194 levels in clinical specimens. Overall, these results offer new insights into the molecular mechanisms of metastatic progression in prostate cancer.

AB - Serum levels of miR-194 have been reported to predict prostate cancer recurrence after surgery, but its functional contributions to this disease have not been studied. Herein, it is demonstrated that miR-194 is a driver of prostate cancer metastasis. Prostate tissue levels of miR-194 were associated with disease aggressiveness and poor outcome. Ectopic delivery of miR-194 stimulated migration, invasion, and epithelial-mesenchymal transition in human prostate cancer cell lines, and stable overexpression of miR-194 enhanced metastasis of intravenous and intraprostatic tumor xenografts. Conversely, inhibition of miR- 194 activity suppressed the invasive capacity of prostate cancer cell lines in vitro and in vivo.Mechanistic investigations identified the ubiquitin ligase suppressor of cytokine signaling 2 (SOCS2) as a direct, biologically relevant target of miR-194 in prostate cancer. Low levels of SOCS2 correlated strongly with disease recurrence and metastasis in clinical specimens. SOCS2 downregulation recapitulated miR-194-driven metastatic phenotypes, whereas overexpression of a nontargetable SOCS2 reduced miR-194-stimulated invasion. Targeting of SOCS2 by miR-194 resulted in derepression of the oncogenic kinases FLT3 and JAK2, leading to enhanced ERK and STAT3 signaling. Pharmacologic inhibition of ERK and JAK/STAT pathways reversed miR-194- driven phenotypes. The GATA2 transcription factor was identified as an upstream regulator of miR-194, consistent with a strong concordance between GATA2 and miR-194 levels in clinical specimens. Overall, these results offer new insights into the molecular mechanisms of metastatic progression in prostate cancer.

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SN - 0008-5472

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SP - 1021

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JO - Cancer research

JF - Cancer research

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MicroRNA-194 promotes prostate cancer metastasis by inhibiting SOCS2

Abstract

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