Research Papers:
Targeting antisense mitochondrial ncRNAs inhibits murine melanoma tumor growth and metastasis through reduction in survival and invasion factors
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Abstract
Lorena Lobos-González1,2,3, Verónica Silva1,2, Mariela Araya1,2, Franko Restovic1,2,8, Javiera Echenique1,2, Luciana Oliveira-Cruz1,2, Christopher Fitzpatrick1,2,4, Macarena Briones1,2, Jaime Villegas1,2,4, Claudio Villota1,2,4, Soledad Vidaurre1,5, Vincenzo Borgna1,2,6, Miguel Socias7, Sebastián Valenzuela2, Constanza Lopez1,2, Teresa Socias1,2, Manuel Varas2, Jorge Díaz3, Luis O. Burzio1,2,4, Verónica A. Burzio1,2,4
1Andes Biotechnologies SpA, Santiago, Chile
2Fundación Ciencia & Vida, Santiago, Chile
3Facultad de Medicina, Universidad de Chile, Independencia, Santiago, Chile
4Facultad de Ciencias Biológicas, Universidad Andrés Bello, República, Santiago, Chile
5Facultad de Salud, Deporte y Recreación, Universidad Bernardo O’Higgins, Santiago, Chile
6Servicio de Urología, Hospital Barros-Lucco-Trudeau, Santiago, Chile
7Clínica Alemana, Santiago, Chile
8Present address: Facultad de Ciencias Biológicas, Pontificia Universidad Católica de Chile, Santiago, Chile
Correspondence to:
Verónica A. Burzio, email: [email protected]
Luis O. Burzio, email: [email protected]
Keywords: mitochondria, noncoding RNA, melanoma, metastasis, antisense therapy
Received: May 02, 2016 Accepted: July 19, 2016 Published: August 06, 2016
ABSTRACT
We reported that knockdown of the antisense noncoding mitochondrial RNAs (ASncmtRNAs) induces apoptotic death of several human tumor cell lines, but not normal cells, suggesting this approach for selective therapy against different types of cancer. In order to translate these results to a preclinical scenario, we characterized the murine noncoding mitochondrial RNAs (ncmtRNAs) and performed in vivo knockdown in syngeneic murine melanoma models. Mouse ncmtRNAs display structures similar to the human counterparts, including long double-stranded regions arising from the presence of inverted repeats. Knockdown of ASncmtRNAs with specific antisense oligonucleotides (ASO) reduces murine melanoma B16F10 cell proliferation and induces apoptosis in vitro through downregulation of pro-survival and metastasis markers, particularly survivin. For in vivo studies, subcutaneous B16F10 melanoma tumors in C57BL/6 mice were treated systemically with specific and control antisense oligonucleotides (ASO). For metastasis studies, tumors were resected, followed by systemic administration of ASOs and the presence of metastatic nodules in lungs and liver was assessed. Treatment with specific ASO inhibited tumor growth and metastasis after primary tumor resection. In a metastasis-only assay, mice inoculated intravenously with cells and treated with the same ASO displayed reduced number and size of melanoma nodules in the lungs, compared to controls. Our results suggest that ASncmtRNAs could be potent targets for melanoma therapy. To our knowledge, the ASncmtRNAs are the first potential non-nuclear targets for melanoma therapy.
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