Deregulation of focal adhesion pathway mediated by miR-659-3p is implicated in bone marrow infiltration of stage M neuroblastoma patients

To get insights on the metastatic process of human neuroblastoma (NB), the miRNA expression profile of bone marrow (BM)-infiltrating cells has been determined and compared to that of primary tumors. Twenty-two BM-infiltrating cells, 22 primary tumors, and 4 paired samples from patients with metastat...

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Autores principales: Stigliani, Sara, Scaruffi, Paola, Lagazio, Corrado, Persico, Luca, Carlini, Barbara, Varesio, Luigi, Morandi, Fabio, Morini, Martina, Gigliotti, Anna Rita, Esposito, Maria Rosaria, Viscardi, Elisabetta, Cecinati, Valerio, Conte, Massimo, Corrias, Maria Valeria
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Impact Journals LLC 2015
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4537015/
https://www.ncbi.nlm.nih.gov/pubmed/25980492
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author Stigliani, Sara
Scaruffi, Paola
Lagazio, Corrado
Persico, Luca
Carlini, Barbara
Varesio, Luigi
Morandi, Fabio
Morini, Martina
Gigliotti, Anna Rita
Esposito, Maria Rosaria
Viscardi, Elisabetta
Cecinati, Valerio
Conte, Massimo
Corrias, Maria Valeria
author_facet Stigliani, Sara
Scaruffi, Paola
Lagazio, Corrado
Persico, Luca
Carlini, Barbara
Varesio, Luigi
Morandi, Fabio
Morini, Martina
Gigliotti, Anna Rita
Esposito, Maria Rosaria
Viscardi, Elisabetta
Cecinati, Valerio
Conte, Massimo
Corrias, Maria Valeria
author_sort Stigliani, Sara
collection PubMed
description To get insights on the metastatic process of human neuroblastoma (NB), the miRNA expression profile of bone marrow (BM)-infiltrating cells has been determined and compared to that of primary tumors. Twenty-two BM-infiltrating cells, 22 primary tumors, and 4 paired samples from patients with metastatic NB aged > 12 months were analyzed for the expression of 670 miRNAs by stem-loop RT-qPCR. The miRNAs whose expression was significantly different were subjected to selection criteria, and 20 selected miRNAs were tested in 10 additional BM-infiltrating cells and primary tumors. Among the miRNAs confirmed to be differentially expressed, miR-659-3p was further analyzed. Transfection of miR-659-3p mimic and inhibitor demonstrated the specific suppression and over-expression, respectively, of the miR-659-3p target gene CNOT1, a regulator of transcription of genes containing AU-rich element (ARE) sequence. Among the ARE-containing genes, miR-659-3p mimic and inhibitor specifically modified the expression of AKT3, BCL2, CYR61 and THSB2, belonging to the focal adhesion pathway. Most importantly, in BM-infiltrating cells CNOT1 expression was significantly higher, and that of AKT3, BCL2, THSB2 and CYR61 was significantly lower than in primary tumors. Thus, our study suggests a role of the focal adhesion pathway, regulated by miR-659-3p through CNOT1, in the human NB metastatic process.
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spelling pubmed-45370152015-08-26 Deregulation of focal adhesion pathway mediated by miR-659-3p is implicated in bone marrow infiltration of stage M neuroblastoma patients Stigliani, Sara Scaruffi, Paola Lagazio, Corrado Persico, Luca Carlini, Barbara Varesio, Luigi Morandi, Fabio Morini, Martina Gigliotti, Anna Rita Esposito, Maria Rosaria Viscardi, Elisabetta Cecinati, Valerio Conte, Massimo Corrias, Maria Valeria Oncotarget Research Paper To get insights on the metastatic process of human neuroblastoma (NB), the miRNA expression profile of bone marrow (BM)-infiltrating cells has been determined and compared to that of primary tumors. Twenty-two BM-infiltrating cells, 22 primary tumors, and 4 paired samples from patients with metastatic NB aged > 12 months were analyzed for the expression of 670 miRNAs by stem-loop RT-qPCR. The miRNAs whose expression was significantly different were subjected to selection criteria, and 20 selected miRNAs were tested in 10 additional BM-infiltrating cells and primary tumors. Among the miRNAs confirmed to be differentially expressed, miR-659-3p was further analyzed. Transfection of miR-659-3p mimic and inhibitor demonstrated the specific suppression and over-expression, respectively, of the miR-659-3p target gene CNOT1, a regulator of transcription of genes containing AU-rich element (ARE) sequence. Among the ARE-containing genes, miR-659-3p mimic and inhibitor specifically modified the expression of AKT3, BCL2, CYR61 and THSB2, belonging to the focal adhesion pathway. Most importantly, in BM-infiltrating cells CNOT1 expression was significantly higher, and that of AKT3, BCL2, THSB2 and CYR61 was significantly lower than in primary tumors. Thus, our study suggests a role of the focal adhesion pathway, regulated by miR-659-3p through CNOT1, in the human NB metastatic process. Impact Journals LLC 2015-04-20 /pmc/articles/PMC4537015/ /pubmed/25980492 Text en Copyright: © 2015 Stigliani et al. http://creativecommons.org/licenses/by/2.5/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Paper
Stigliani, Sara
Scaruffi, Paola
Lagazio, Corrado
Persico, Luca
Carlini, Barbara
Varesio, Luigi
Morandi, Fabio
Morini, Martina
Gigliotti, Anna Rita
Esposito, Maria Rosaria
Viscardi, Elisabetta
Cecinati, Valerio
Conte, Massimo
Corrias, Maria Valeria
Deregulation of focal adhesion pathway mediated by miR-659-3p is implicated in bone marrow infiltration of stage M neuroblastoma patients
title Deregulation of focal adhesion pathway mediated by miR-659-3p is implicated in bone marrow infiltration of stage M neuroblastoma patients
title_full Deregulation of focal adhesion pathway mediated by miR-659-3p is implicated in bone marrow infiltration of stage M neuroblastoma patients
title_fullStr Deregulation of focal adhesion pathway mediated by miR-659-3p is implicated in bone marrow infiltration of stage M neuroblastoma patients
title_full_unstemmed Deregulation of focal adhesion pathway mediated by miR-659-3p is implicated in bone marrow infiltration of stage M neuroblastoma patients
title_short Deregulation of focal adhesion pathway mediated by miR-659-3p is implicated in bone marrow infiltration of stage M neuroblastoma patients
title_sort deregulation of focal adhesion pathway mediated by mir-659-3p is implicated in bone marrow infiltration of stage m neuroblastoma patients
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4537015/
https://www.ncbi.nlm.nih.gov/pubmed/25980492
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