miR-509-3p is clinically significant and strongly attenuates cellular migration and multi-cellular spheroids in ovarian cancer

Yinghong Pan; Gordon Robertson; Lykke Pedersen; Emilia Lim; Anadulce Hernandez-Herrera; Amy C. Rowat; Sagar L. Patil; Clara K. Chan; Yunfei Wen; Xinna Zhang; Upal Basu-Roy; Alka Mansukhani; Andy Chu; Payal Sipahimalani; Reanne Bowlby; Denise Brooks; Nina Thiessen; Cristian Coarfa; Yussanne Ma; Richard A. Moore; Jacquie E. Schein; Andrew J. Mungall; Jinsong Liu; Chad V. Pecot; Anil K. Sood; J. M.Jones Steven; Marco A. Marra; Preethi H. Gunaratne

doi:10.18632/oncotarget.8412

miR-509-3p is clinically significant and strongly attenuates cellular migration and multi-cellular spheroids in ovarian cancer

Yinghong Pan, Gordon Robertson, Lykke Pedersen, Emilia Lim, Anadulce Hernandez-Herrera, Amy C. Rowat, Sagar L. Patil, Clara K. Chan, Yunfei Wen, Xinna Zhang, Upal Basu-Roy, Alka Mansukhani, Andy Chu, Payal Sipahimalani, Reanne Bowlby, Denise Brooks, Nina Thiessen, Cristian Coarfa, Yussanne Ma, Richard A. MooreJacquie E. Schein, Andrew J. Mungall, Jinsong Liu, Chad V. Pecot, Anil K. Sood, J. M.Jones Steven, Marco A. Marra, Preethi H. Gunaratne

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

49 Scopus citations

Abstract

Ovarian cancer presents as an aggressive, advanced stage cancer with widespread metastases that depend primarily on multicellular spheroids in the peritoneal fluid. To identify new druggable pathways related to metastatic progression and spheroid formation, we integrated microRNA and mRNA sequencing data from 293 tumors from The Cancer Genome Atlas (TCGA) ovarian cancer cohort. We identified miR-509-3p as a clinically significant microRNA that is more abundant in patients with favorable survival in both the TCGA cohort (P = 2.3E-3), and, by in situ hybridization (ISH), in an independent cohort of 157 tumors (P < 1.0E-3). We found that miR-509-3p attenuated migration and disrupted multi-cellular spheroids in HEYA8, OVCAR8, SKOV3, OVCAR3, OVCAR4 and OVCAR5 cell lines. Consistent with disrupted spheroid formation, in TCGA data miR-509-3p's most strongly anti-correlated predicted targets were enriched in components of the extracellular matrix (ECM). We validated the Hippo pathway effector YAP1 as a direct miR-509-3p target. We showed that siRNA to YAP1 replicated 90% of miR-509-3p-mediated migration attenuation in OVCAR8, which contained high levels of YAP1 protein, but not in the other cell lines, in which levels of this protein were moderate to low. Our data suggest that the miR-509-3p/YAP1 axis may be a new druggable target in cancers with high YAP1, and we propose that therapeutically targeting the miR-509-3p/YAP1/ECM axis may disrupt early steps in multi-cellular spheroid formation, and so inhibit metastasis in epithelial ovarian cancer and potentially in other cancers.

Original language	English (US)
Pages (from-to)	25930-25948
Number of pages	19
Journal	Oncotarget
Volume	7
Issue number	18
DOIs	https://doi.org/10.18632/oncotarget.8412
State	Published - May 1 2016

Keywords

Extracellular matrix (ECM)
Ovarian cancer
Spheroid formation
YAP1
microRNA 509-3p

ASJC Scopus subject areas

Oncology

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10.18632/oncotarget.8412

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Pan, Y., Robertson, G., Pedersen, L., Lim, E., Hernandez-Herrera, A., Rowat, A. C., Patil, S. L., Chan, C. K., Wen, Y., Zhang, X., Basu-Roy, U., Mansukhani, A., Chu, A., Sipahimalani, P., Bowlby, R., Brooks, D., Thiessen, N., Coarfa, C., Ma, Y., ... Gunaratne, P. H. (2016). miR-509-3p is clinically significant and strongly attenuates cellular migration and multi-cellular spheroids in ovarian cancer. Oncotarget, 7(18), 25930-25948. https://doi.org/10.18632/oncotarget.8412

Pan, Y, Robertson, G, Pedersen, L, Lim, E, Hernandez-Herrera, A, Rowat, AC, Patil, SL, Chan, CK, Wen, Y, Zhang, X, Basu-Roy, U, Mansukhani, A, Chu, A, Sipahimalani, P, Bowlby, R, Brooks, D, Thiessen, N, Coarfa, C, Ma, Y, Moore, RA, Schein, JE, Mungall, AJ, Liu, J, Pecot, CV, Sood, AK, Steven, JMJ, Marra, MA & Gunaratne, PH 2016, 'miR-509-3p is clinically significant and strongly attenuates cellular migration and multi-cellular spheroids in ovarian cancer', Oncotarget, vol. 7, no. 18, pp. 25930-25948. https://doi.org/10.18632/oncotarget.8412

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title = "miR-509-3p is clinically significant and strongly attenuates cellular migration and multi-cellular spheroids in ovarian cancer",

abstract = "Ovarian cancer presents as an aggressive, advanced stage cancer with widespread metastases that depend primarily on multicellular spheroids in the peritoneal fluid. To identify new druggable pathways related to metastatic progression and spheroid formation, we integrated microRNA and mRNA sequencing data from 293 tumors from The Cancer Genome Atlas (TCGA) ovarian cancer cohort. We identified miR-509-3p as a clinically significant microRNA that is more abundant in patients with favorable survival in both the TCGA cohort (P = 2.3E-3), and, by in situ hybridization (ISH), in an independent cohort of 157 tumors (P < 1.0E-3). We found that miR-509-3p attenuated migration and disrupted multi-cellular spheroids in HEYA8, OVCAR8, SKOV3, OVCAR3, OVCAR4 and OVCAR5 cell lines. Consistent with disrupted spheroid formation, in TCGA data miR-509-3p's most strongly anti-correlated predicted targets were enriched in components of the extracellular matrix (ECM). We validated the Hippo pathway effector YAP1 as a direct miR-509-3p target. We showed that siRNA to YAP1 replicated 90% of miR-509-3p-mediated migration attenuation in OVCAR8, which contained high levels of YAP1 protein, but not in the other cell lines, in which levels of this protein were moderate to low. Our data suggest that the miR-509-3p/YAP1 axis may be a new druggable target in cancers with high YAP1, and we propose that therapeutically targeting the miR-509-3p/YAP1/ECM axis may disrupt early steps in multi-cellular spheroid formation, and so inhibit metastasis in epithelial ovarian cancer and potentially in other cancers.",

keywords = "Extracellular matrix (ECM), Ovarian cancer, Spheroid formation, YAP1, microRNA 509-3p",

author = "Yinghong Pan and Gordon Robertson and Lykke Pedersen and Emilia Lim and Anadulce Hernandez-Herrera and Rowat, {Amy C.} and Patil, {Sagar L.} and Chan, {Clara K.} and Yunfei Wen and Xinna Zhang and Upal Basu-Roy and Alka Mansukhani and Andy Chu and Payal Sipahimalani and Reanne Bowlby and Denise Brooks and Nina Thiessen and Cristian Coarfa and Yussanne Ma and Moore, {Richard A.} and Schein, {Jacquie E.} and Mungall, {Andrew J.} and Jinsong Liu and Pecot, {Chad V.} and Sood, {Anil K.} and Steven, {J. M.Jones} and Marra, {Marco A.} and Gunaratne, {Preethi H.}",

note = "Funding Information: Research reported in this publication was supported by the National Cancer Institutes of Health under Award Number U24CA143866, awarded to MAM. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. PHG is supported by a grant from the Cancer Prevention and Research Institute of Texas (RP110355) and generous support from the McNair Foundation. AH-H is supported in part by a fellowship from The National Council on Science and Technology (CONACYT) in Mexico. ACR and CKC is supported by National Science Foundation (CAREER DBI-1254185 to ACR) and the University of California Cancer Research Coordinating Committee. This work is also supported in part by grants from the NIH (U54CA151668, UH2TR000943), and CPRIT (RP110595).",

year = "2016",

month = may,

day = "1",

doi = "10.18632/oncotarget.8412",

language = "English (US)",

volume = "7",

pages = "25930--25948",

journal = "Oncotarget",

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TY - JOUR

T1 - miR-509-3p is clinically significant and strongly attenuates cellular migration and multi-cellular spheroids in ovarian cancer

AU - Pan, Yinghong

AU - Robertson, Gordon

AU - Pedersen, Lykke

AU - Lim, Emilia

AU - Hernandez-Herrera, Anadulce

AU - Rowat, Amy C.

AU - Patil, Sagar L.

AU - Chan, Clara K.

AU - Wen, Yunfei

AU - Zhang, Xinna

AU - Basu-Roy, Upal

AU - Mansukhani, Alka

AU - Chu, Andy

AU - Sipahimalani, Payal

AU - Bowlby, Reanne

AU - Brooks, Denise

AU - Thiessen, Nina

AU - Coarfa, Cristian

AU - Ma, Yussanne

AU - Moore, Richard A.

AU - Schein, Jacquie E.

AU - Mungall, Andrew J.

AU - Liu, Jinsong

AU - Pecot, Chad V.

AU - Sood, Anil K.

AU - Steven, J. M.Jones

AU - Marra, Marco A.

AU - Gunaratne, Preethi H.

N1 - Funding Information: Research reported in this publication was supported by the National Cancer Institutes of Health under Award Number U24CA143866, awarded to MAM. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. PHG is supported by a grant from the Cancer Prevention and Research Institute of Texas (RP110355) and generous support from the McNair Foundation. AH-H is supported in part by a fellowship from The National Council on Science and Technology (CONACYT) in Mexico. ACR and CKC is supported by National Science Foundation (CAREER DBI-1254185 to ACR) and the University of California Cancer Research Coordinating Committee. This work is also supported in part by grants from the NIH (U54CA151668, UH2TR000943), and CPRIT (RP110595).

PY - 2016/5/1

Y1 - 2016/5/1

N2 - Ovarian cancer presents as an aggressive, advanced stage cancer with widespread metastases that depend primarily on multicellular spheroids in the peritoneal fluid. To identify new druggable pathways related to metastatic progression and spheroid formation, we integrated microRNA and mRNA sequencing data from 293 tumors from The Cancer Genome Atlas (TCGA) ovarian cancer cohort. We identified miR-509-3p as a clinically significant microRNA that is more abundant in patients with favorable survival in both the TCGA cohort (P = 2.3E-3), and, by in situ hybridization (ISH), in an independent cohort of 157 tumors (P < 1.0E-3). We found that miR-509-3p attenuated migration and disrupted multi-cellular spheroids in HEYA8, OVCAR8, SKOV3, OVCAR3, OVCAR4 and OVCAR5 cell lines. Consistent with disrupted spheroid formation, in TCGA data miR-509-3p's most strongly anti-correlated predicted targets were enriched in components of the extracellular matrix (ECM). We validated the Hippo pathway effector YAP1 as a direct miR-509-3p target. We showed that siRNA to YAP1 replicated 90% of miR-509-3p-mediated migration attenuation in OVCAR8, which contained high levels of YAP1 protein, but not in the other cell lines, in which levels of this protein were moderate to low. Our data suggest that the miR-509-3p/YAP1 axis may be a new druggable target in cancers with high YAP1, and we propose that therapeutically targeting the miR-509-3p/YAP1/ECM axis may disrupt early steps in multi-cellular spheroid formation, and so inhibit metastasis in epithelial ovarian cancer and potentially in other cancers.

AB - Ovarian cancer presents as an aggressive, advanced stage cancer with widespread metastases that depend primarily on multicellular spheroids in the peritoneal fluid. To identify new druggable pathways related to metastatic progression and spheroid formation, we integrated microRNA and mRNA sequencing data from 293 tumors from The Cancer Genome Atlas (TCGA) ovarian cancer cohort. We identified miR-509-3p as a clinically significant microRNA that is more abundant in patients with favorable survival in both the TCGA cohort (P = 2.3E-3), and, by in situ hybridization (ISH), in an independent cohort of 157 tumors (P < 1.0E-3). We found that miR-509-3p attenuated migration and disrupted multi-cellular spheroids in HEYA8, OVCAR8, SKOV3, OVCAR3, OVCAR4 and OVCAR5 cell lines. Consistent with disrupted spheroid formation, in TCGA data miR-509-3p's most strongly anti-correlated predicted targets were enriched in components of the extracellular matrix (ECM). We validated the Hippo pathway effector YAP1 as a direct miR-509-3p target. We showed that siRNA to YAP1 replicated 90% of miR-509-3p-mediated migration attenuation in OVCAR8, which contained high levels of YAP1 protein, but not in the other cell lines, in which levels of this protein were moderate to low. Our data suggest that the miR-509-3p/YAP1 axis may be a new druggable target in cancers with high YAP1, and we propose that therapeutically targeting the miR-509-3p/YAP1/ECM axis may disrupt early steps in multi-cellular spheroid formation, and so inhibit metastasis in epithelial ovarian cancer and potentially in other cancers.

KW - Extracellular matrix (ECM)

KW - Ovarian cancer

KW - Spheroid formation

KW - YAP1

KW - microRNA 509-3p

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ER -

miR-509-3p is clinically significant and strongly attenuates cellular migration and multi-cellular spheroids in ovarian cancer

Abstract

Keywords

ASJC Scopus subject areas

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