Hypoxia-upregulated microRNA-630 targets Dicer, leading to increased tumor progression

R. Rupaimoole; C. Ivan; D. Yang; K. M. Gharpure; S. Y. Wu; C. V. Pecot; R. A. Previs; A. S. Nagaraja; G. N. Armaiz-Pena; M. McGuire; S. Pradeep; L. S. Mangala; C. Rodriguez-Aguayo; L. Huang; M. Bar-Eli; W. Zhang; G. Lopez-Berestein; G. A. Calin; A. K. Sood

doi:10.1038/onc.2015.492

Hypoxia-upregulated microRNA-630 targets Dicer, leading to increased tumor progression

R. Rupaimoole, C. Ivan, D. Yang, K. M. Gharpure, S. Y. Wu, C. V. Pecot, R. A. Previs, A. S. Nagaraja, G. N. Armaiz-Pena, M. McGuire, S. Pradeep, L. S. Mangala, C. Rodriguez-Aguayo, L. Huang, M. Bar-Eli, W. Zhang, G. Lopez-Berestein, G. A. Calin, A. K. Sood

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Abstract

MicroRNAs (miRNAs) are small RNA molecules that affect cellular processes by controlling gene expression. Recent studies have shown that hypoxia downregulates Drosha and Dicer, key enzymes in miRNA biogenesis, causing a decreased pool of miRNAs in cancer and resulting in increased tumor growth and metastasis. Here we demonstrate a previously unrecognized mechanism by which hypoxia downregulates Dicer. We found that miR-630, which is upregulated under hypoxic conditions, targets and downregulates Dicer expression. In an orthotopic mouse model of ovarian cancer, delivery of miR-630 using 1,2-dioleoyl-sn-glycero-3-phosphocholine (DOPC) nanoliposomes resulted in increased tumor growth and metastasis, and decreased Dicer expression. Treatment with the combination of anti-miR-630 and anti-vascular endothelial growth factor antibody in mice resulted in rescue of Dicer expression and significantly decreased tumor growth and metastasis. These results indicate that targeting miR-630 is a promising approach to overcome Dicer deregulation in cancer. As demonstrated in the study, use of DOPC nanoliposomes for anti-miR delivery serves as a better alternative approach to cell line-based overexpression of sense or antisense miRNAs, while avoiding potential in vitro selection effects. Findings from this study provide a new understanding of miRNA biogenesis downregulation observed under hypoxia and suggest therapeutic avenues to target this dysregulation in cancer.

Original language	English (US)
Pages (from-to)	4312-4320
Number of pages	9
Journal	Oncogene
Volume	35
Issue number	33
DOIs	https://doi.org/10.1038/onc.2015.492
State	Published - Aug 18 2016

ASJC Scopus subject areas

Molecular Biology
Genetics
Cancer Research

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Rupaimoole, R., Ivan, C., Yang, D., Gharpure, K. M., Wu, S. Y., Pecot, C. V., Previs, R. A., Nagaraja, A. S., Armaiz-Pena, G. N., McGuire, M., Pradeep, S., Mangala, L. S., Rodriguez-Aguayo, C., Huang, L., Bar-Eli, M., Zhang, W., Lopez-Berestein, G., Calin, G. A., & Sood, A. K. (2016). Hypoxia-upregulated microRNA-630 targets Dicer, leading to increased tumor progression. Oncogene, 35(33), 4312-4320. https://doi.org/10.1038/onc.2015.492

Rupaimoole, R, Ivan, C, Yang, D, Gharpure, KM, Wu, SY, Pecot, CV, Previs, RA, Nagaraja, AS, Armaiz-Pena, GN, McGuire, M, Pradeep, S, Mangala, LS , Rodriguez-Aguayo, C, Huang, L, Bar-Eli, M, Zhang, W, Lopez-Berestein, G , Calin, GA & Sood, AK 2016, 'Hypoxia-upregulated microRNA-630 targets Dicer, leading to increased tumor progression', Oncogene, vol. 35, no. 33, pp. 4312-4320. https://doi.org/10.1038/onc.2015.492

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abstract = "MicroRNAs (miRNAs) are small RNA molecules that affect cellular processes by controlling gene expression. Recent studies have shown that hypoxia downregulates Drosha and Dicer, key enzymes in miRNA biogenesis, causing a decreased pool of miRNAs in cancer and resulting in increased tumor growth and metastasis. Here we demonstrate a previously unrecognized mechanism by which hypoxia downregulates Dicer. We found that miR-630, which is upregulated under hypoxic conditions, targets and downregulates Dicer expression. In an orthotopic mouse model of ovarian cancer, delivery of miR-630 using 1,2-dioleoyl-sn-glycero-3-phosphocholine (DOPC) nanoliposomes resulted in increased tumor growth and metastasis, and decreased Dicer expression. Treatment with the combination of anti-miR-630 and anti-vascular endothelial growth factor antibody in mice resulted in rescue of Dicer expression and significantly decreased tumor growth and metastasis. These results indicate that targeting miR-630 is a promising approach to overcome Dicer deregulation in cancer. As demonstrated in the study, use of DOPC nanoliposomes for anti-miR delivery serves as a better alternative approach to cell line-based overexpression of sense or antisense miRNAs, while avoiding potential in vitro selection effects. Findings from this study provide a new understanding of miRNA biogenesis downregulation observed under hypoxia and suggest therapeutic avenues to target this dysregulation in cancer.",

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AU - Ivan, C.

AU - Yang, D.

AU - Gharpure, K. M.

AU - Wu, S. Y.

AU - Pecot, C. V.

AU - Previs, R. A.

AU - Nagaraja, A. S.

AU - Armaiz-Pena, G. N.

AU - McGuire, M.

AU - Pradeep, S.

AU - Mangala, L. S.

AU - Rodriguez-Aguayo, C.

AU - Huang, L.

AU - Bar-Eli, M.

AU - Zhang, W.

AU - Lopez-Berestein, G.

AU - Calin, G. A.

AU - Sood, A. K.

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N2 - MicroRNAs (miRNAs) are small RNA molecules that affect cellular processes by controlling gene expression. Recent studies have shown that hypoxia downregulates Drosha and Dicer, key enzymes in miRNA biogenesis, causing a decreased pool of miRNAs in cancer and resulting in increased tumor growth and metastasis. Here we demonstrate a previously unrecognized mechanism by which hypoxia downregulates Dicer. We found that miR-630, which is upregulated under hypoxic conditions, targets and downregulates Dicer expression. In an orthotopic mouse model of ovarian cancer, delivery of miR-630 using 1,2-dioleoyl-sn-glycero-3-phosphocholine (DOPC) nanoliposomes resulted in increased tumor growth and metastasis, and decreased Dicer expression. Treatment with the combination of anti-miR-630 and anti-vascular endothelial growth factor antibody in mice resulted in rescue of Dicer expression and significantly decreased tumor growth and metastasis. These results indicate that targeting miR-630 is a promising approach to overcome Dicer deregulation in cancer. As demonstrated in the study, use of DOPC nanoliposomes for anti-miR delivery serves as a better alternative approach to cell line-based overexpression of sense or antisense miRNAs, while avoiding potential in vitro selection effects. Findings from this study provide a new understanding of miRNA biogenesis downregulation observed under hypoxia and suggest therapeutic avenues to target this dysregulation in cancer.

AB - MicroRNAs (miRNAs) are small RNA molecules that affect cellular processes by controlling gene expression. Recent studies have shown that hypoxia downregulates Drosha and Dicer, key enzymes in miRNA biogenesis, causing a decreased pool of miRNAs in cancer and resulting in increased tumor growth and metastasis. Here we demonstrate a previously unrecognized mechanism by which hypoxia downregulates Dicer. We found that miR-630, which is upregulated under hypoxic conditions, targets and downregulates Dicer expression. In an orthotopic mouse model of ovarian cancer, delivery of miR-630 using 1,2-dioleoyl-sn-glycero-3-phosphocholine (DOPC) nanoliposomes resulted in increased tumor growth and metastasis, and decreased Dicer expression. Treatment with the combination of anti-miR-630 and anti-vascular endothelial growth factor antibody in mice resulted in rescue of Dicer expression and significantly decreased tumor growth and metastasis. These results indicate that targeting miR-630 is a promising approach to overcome Dicer deregulation in cancer. As demonstrated in the study, use of DOPC nanoliposomes for anti-miR delivery serves as a better alternative approach to cell line-based overexpression of sense or antisense miRNAs, while avoiding potential in vitro selection effects. Findings from this study provide a new understanding of miRNA biogenesis downregulation observed under hypoxia and suggest therapeutic avenues to target this dysregulation in cancer.

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Hypoxia-upregulated microRNA-630 targets Dicer, leading to increased tumor progression

Abstract

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MD Anderson CCSG core facilities

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