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Differentiation of human neuroblastoma cells toward the osteogenic lineage by mTOR inhibitor

Current hypothesis suggest that tumors can originate from adult cells after a process of 'reprogramming' driven by genetic and epigenetic alterations. These cancer cells, called cancer stem cells (CSCs), are responsible for the tumor growth and metastases. To date, the research effort has...

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Autores principales: Carpentieri, A, Cozzoli, E, Scimeca, M, Bonanno, E, Sardanelli, A M, Gambacurta, A
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2015
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4670915/
https://www.ncbi.nlm.nih.gov/pubmed/26561783
http://dx.doi.org/10.1038/cddis.2015.244
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author Carpentieri, A
Cozzoli, E
Scimeca, M
Bonanno, E
Sardanelli, A M
Gambacurta, A
author_facet Carpentieri, A
Cozzoli, E
Scimeca, M
Bonanno, E
Sardanelli, A M
Gambacurta, A
author_sort Carpentieri, A
collection PubMed
description Current hypothesis suggest that tumors can originate from adult cells after a process of 'reprogramming' driven by genetic and epigenetic alterations. These cancer cells, called cancer stem cells (CSCs), are responsible for the tumor growth and metastases. To date, the research effort has been directed to the identification, isolation and manipulation of this cell population. Independently of whether tumors were triggered by a reprogramming of gene expression or seeded by stem cells, their energetic metabolism is altered compared with a normal cell, resulting in a high aerobic glycolytic 'Warburg' phenotype and dysregulation of mitochondrial activity. This metabolic alteration is intricately linked to cancer progression.The aim of this work has been to demonstrate the possibility of differentiating a neoplastic cell toward different germ layer lineages, by evaluating the morphological, metabolic and functional changes occurring in this process. The cellular differentiation reported in this study brings to different conclusions from those present in the current literature. We demonstrate that 'in vitro' neuroblastoma cancer cells (chosen as experimental model) are able to differentiate directly into osteoblastic (by rapamycin, an mTOR inhibitor) and hepatic lineage without an intermediate 'stem' cell step. This process seems owing to a synergy among few master molecules, metabolic changes and scaffold presence acting in a concerted way to control the cell fate.
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spelling pubmed-46709152015-12-08 Differentiation of human neuroblastoma cells toward the osteogenic lineage by mTOR inhibitor Carpentieri, A Cozzoli, E Scimeca, M Bonanno, E Sardanelli, A M Gambacurta, A Cell Death Dis Original Article Current hypothesis suggest that tumors can originate from adult cells after a process of 'reprogramming' driven by genetic and epigenetic alterations. These cancer cells, called cancer stem cells (CSCs), are responsible for the tumor growth and metastases. To date, the research effort has been directed to the identification, isolation and manipulation of this cell population. Independently of whether tumors were triggered by a reprogramming of gene expression or seeded by stem cells, their energetic metabolism is altered compared with a normal cell, resulting in a high aerobic glycolytic 'Warburg' phenotype and dysregulation of mitochondrial activity. This metabolic alteration is intricately linked to cancer progression.The aim of this work has been to demonstrate the possibility of differentiating a neoplastic cell toward different germ layer lineages, by evaluating the morphological, metabolic and functional changes occurring in this process. The cellular differentiation reported in this study brings to different conclusions from those present in the current literature. We demonstrate that 'in vitro' neuroblastoma cancer cells (chosen as experimental model) are able to differentiate directly into osteoblastic (by rapamycin, an mTOR inhibitor) and hepatic lineage without an intermediate 'stem' cell step. This process seems owing to a synergy among few master molecules, metabolic changes and scaffold presence acting in a concerted way to control the cell fate. Nature Publishing Group 2015-11 2015-11-12 /pmc/articles/PMC4670915/ /pubmed/26561783 http://dx.doi.org/10.1038/cddis.2015.244 Text en Copyright © 2015 Macmillan Publishers Limited
spellingShingle Original Article
Carpentieri, A
Cozzoli, E
Scimeca, M
Bonanno, E
Sardanelli, A M
Gambacurta, A
Differentiation of human neuroblastoma cells toward the osteogenic lineage by mTOR inhibitor
title Differentiation of human neuroblastoma cells toward the osteogenic lineage by mTOR inhibitor
title_full Differentiation of human neuroblastoma cells toward the osteogenic lineage by mTOR inhibitor
title_fullStr Differentiation of human neuroblastoma cells toward the osteogenic lineage by mTOR inhibitor
title_full_unstemmed Differentiation of human neuroblastoma cells toward the osteogenic lineage by mTOR inhibitor
title_short Differentiation of human neuroblastoma cells toward the osteogenic lineage by mTOR inhibitor
title_sort differentiation of human neuroblastoma cells toward the osteogenic lineage by mtor inhibitor
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4670915/
https://www.ncbi.nlm.nih.gov/pubmed/26561783
http://dx.doi.org/10.1038/cddis.2015.244
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