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The Effects of Proteasome Inhibitors on Telomerase Activity and Regulation in Multiple Myeloma Cells

The importance of telomerase, the enzyme that maintains telomere length, has been reported in many malignancies in general and in multiple myeloma (MM) in particular. Proteasome inhibitors are clinically used to combat effectively MM. Since the mechanism of action of proteasome inhibitors has not be...

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Autores principales: Shalem-Cohavi, Naama, Beery, Einat, Nordenberg, Jardena, Rozovski, Uri, Raanani, Pia, Lahav, Meir, Uziel, Orit
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6566333/
https://www.ncbi.nlm.nih.gov/pubmed/31117293
http://dx.doi.org/10.3390/ijms20102509
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author Shalem-Cohavi, Naama
Beery, Einat
Nordenberg, Jardena
Rozovski, Uri
Raanani, Pia
Lahav, Meir
Uziel, Orit
author_facet Shalem-Cohavi, Naama
Beery, Einat
Nordenberg, Jardena
Rozovski, Uri
Raanani, Pia
Lahav, Meir
Uziel, Orit
author_sort Shalem-Cohavi, Naama
collection PubMed
description The importance of telomerase, the enzyme that maintains telomere length, has been reported in many malignancies in general and in multiple myeloma (MM) in particular. Proteasome inhibitors are clinically used to combat effectively MM. Since the mechanism of action of proteasome inhibitors has not been fully described we sought to clarify its potential effect on telomerase activity (TA) in MM cells. Previously we showed that the first generation proteasome inhibitor bortezomib (Brt) inhibits TA in MM cells by both transcriptional and post-translational mechanisms and has a potential clinical significance. In the current study we focused around the anti- telomerase activity of the new generation of proteasome inhibitors, epoxomicin (EP) and MG-132 in order to clarify whether telomerase inhibition represents a class effect. We have exposed MM cell lines, ARP-1, CAG, RPMI 8226 and U266 to EP or MG and the following parameters were assessed: viability; TA, hTERT expression, the binding of hTERT (human telomerase reverse transcriptase) transcription factors and post-translational modifications. Epoxomicin and MG-132 differentially downregulated the proliferation and TA in all MM cell lines. The downregulation of TA and the expression of hTERT were faster in CAG than in ARP-1 cells. Epoxomicin was more potent than MG-132 and therefore further mechanistic studies were performed using this compound. The inhibition of TA was mainly transcriptionally regulated. The binding of three positive regulator transcription factors: SP1, c-Myc and NF-κB to the hTERT promoter was decreased by EP in CAG cells as well as their total cellular expression. In ARP-1 cells the SP1 and c-MYC binding and protein levels were similarly affected by EP while NF-κB was not affected. Interestingly, the transcription factor WT-1 (Wilms’ tumor-1) exhibited an increased binding to the hTERT promoter while its total cellular amount remained unchanged. Our results combined with our previous study of bortezomib define telomerase as a general target for proteasome inhibitors. The inhibitory effect of TA is exerted by several regulatory levels, transcriptional and post translational. SP1, C-Myc and NF-κB were involved in mediating these effects. A novel finding of this study is the role of WT-1 in the regulation of telomerase which appears as a negative regulator of hTERT expression. The results of this study may contribute to future development of telomerase inhibition as a therapeutic modality in MM.
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spelling pubmed-65663332019-06-17 The Effects of Proteasome Inhibitors on Telomerase Activity and Regulation in Multiple Myeloma Cells Shalem-Cohavi, Naama Beery, Einat Nordenberg, Jardena Rozovski, Uri Raanani, Pia Lahav, Meir Uziel, Orit Int J Mol Sci Article The importance of telomerase, the enzyme that maintains telomere length, has been reported in many malignancies in general and in multiple myeloma (MM) in particular. Proteasome inhibitors are clinically used to combat effectively MM. Since the mechanism of action of proteasome inhibitors has not been fully described we sought to clarify its potential effect on telomerase activity (TA) in MM cells. Previously we showed that the first generation proteasome inhibitor bortezomib (Brt) inhibits TA in MM cells by both transcriptional and post-translational mechanisms and has a potential clinical significance. In the current study we focused around the anti- telomerase activity of the new generation of proteasome inhibitors, epoxomicin (EP) and MG-132 in order to clarify whether telomerase inhibition represents a class effect. We have exposed MM cell lines, ARP-1, CAG, RPMI 8226 and U266 to EP or MG and the following parameters were assessed: viability; TA, hTERT expression, the binding of hTERT (human telomerase reverse transcriptase) transcription factors and post-translational modifications. Epoxomicin and MG-132 differentially downregulated the proliferation and TA in all MM cell lines. The downregulation of TA and the expression of hTERT were faster in CAG than in ARP-1 cells. Epoxomicin was more potent than MG-132 and therefore further mechanistic studies were performed using this compound. The inhibition of TA was mainly transcriptionally regulated. The binding of three positive regulator transcription factors: SP1, c-Myc and NF-κB to the hTERT promoter was decreased by EP in CAG cells as well as their total cellular expression. In ARP-1 cells the SP1 and c-MYC binding and protein levels were similarly affected by EP while NF-κB was not affected. Interestingly, the transcription factor WT-1 (Wilms’ tumor-1) exhibited an increased binding to the hTERT promoter while its total cellular amount remained unchanged. Our results combined with our previous study of bortezomib define telomerase as a general target for proteasome inhibitors. The inhibitory effect of TA is exerted by several regulatory levels, transcriptional and post translational. SP1, C-Myc and NF-κB were involved in mediating these effects. A novel finding of this study is the role of WT-1 in the regulation of telomerase which appears as a negative regulator of hTERT expression. The results of this study may contribute to future development of telomerase inhibition as a therapeutic modality in MM. MDPI 2019-05-21 /pmc/articles/PMC6566333/ /pubmed/31117293 http://dx.doi.org/10.3390/ijms20102509 Text en © 2019 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Shalem-Cohavi, Naama
Beery, Einat
Nordenberg, Jardena
Rozovski, Uri
Raanani, Pia
Lahav, Meir
Uziel, Orit
The Effects of Proteasome Inhibitors on Telomerase Activity and Regulation in Multiple Myeloma Cells
title The Effects of Proteasome Inhibitors on Telomerase Activity and Regulation in Multiple Myeloma Cells
title_full The Effects of Proteasome Inhibitors on Telomerase Activity and Regulation in Multiple Myeloma Cells
title_fullStr The Effects of Proteasome Inhibitors on Telomerase Activity and Regulation in Multiple Myeloma Cells
title_full_unstemmed The Effects of Proteasome Inhibitors on Telomerase Activity and Regulation in Multiple Myeloma Cells
title_short The Effects of Proteasome Inhibitors on Telomerase Activity and Regulation in Multiple Myeloma Cells
title_sort effects of proteasome inhibitors on telomerase activity and regulation in multiple myeloma cells
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6566333/
https://www.ncbi.nlm.nih.gov/pubmed/31117293
http://dx.doi.org/10.3390/ijms20102509
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