Multiple myeloma-associated hDIS3 mutations cause perturbations in cellular RNA metabolism and suggest hDIS3 PIN domain as a potential drug target

hDIS3 is a mainly nuclear, catalytic subunit of the human exosome complex, containing exonucleolytic (RNB) and endonucleolytic (PIN) active domains. Mutations in hDIS3 have been found in ∼10% of patients with multiple myeloma (MM). Here, we show that these mutations interfere with hDIS3 exonucleolyt...

Descripción completa

Detalles Bibliográficos
Autores principales: Tomecki, Rafal, Drazkowska, Karolina, Kucinski, Iwo, Stodus, Krystian, Szczesny, Roman J., Gruchota, Jakub, Owczarek, Ewelina P., Kalisiak, Katarzyna, Dziembowski, Andrzej
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2014
Materias:
RNA
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3902924/
https://www.ncbi.nlm.nih.gov/pubmed/24150935
http://dx.doi.org/10.1093/nar/gkt930
_version_ 1782301046059565056
author Tomecki, Rafal
Drazkowska, Karolina
Kucinski, Iwo
Stodus, Krystian
Szczesny, Roman J.
Gruchota, Jakub
Owczarek, Ewelina P.
Kalisiak, Katarzyna
Dziembowski, Andrzej
author_facet Tomecki, Rafal
Drazkowska, Karolina
Kucinski, Iwo
Stodus, Krystian
Szczesny, Roman J.
Gruchota, Jakub
Owczarek, Ewelina P.
Kalisiak, Katarzyna
Dziembowski, Andrzej
author_sort Tomecki, Rafal
collection PubMed
description hDIS3 is a mainly nuclear, catalytic subunit of the human exosome complex, containing exonucleolytic (RNB) and endonucleolytic (PIN) active domains. Mutations in hDIS3 have been found in ∼10% of patients with multiple myeloma (MM). Here, we show that these mutations interfere with hDIS3 exonucleolytic activity. Yeast harboring corresponding mutations in DIS3 show growth inhibition and changes in nuclear RNA metabolism typical for exosome dysfunction. Construction of a conditional DIS3 knockout in the chicken DT40 cell line revealed that DIS3 is essential for cell survival, indicating that its function cannot be replaced by other exosome-associated nucleases: hDIS3L and hRRP6. Moreover, HEK293-derived cells, in which depletion of endogenous wild-type hDIS3 was complemented with exogenously expressed MM hDIS3 mutants, proliferate at a slower rate and exhibit aberrant RNA metabolism. Importantly, MM mutations are synthetically lethal with the hDIS3 PIN domain catalytic mutation both in yeast and human cells. Since mutations in PIN domain alone have little effect on cell physiology, our results predict the hDIS3 PIN domain as a potential drug target for MM patients with hDIS3 mutations. It is an interesting example of intramolecular synthetic lethality with putative therapeutic potential in humans.
format Online
Article
Text
id pubmed-3902924
institution National Center for Biotechnology Information
language English
publishDate 2014
publisher Oxford University Press
record_format MEDLINE/PubMed
spelling pubmed-39029242014-01-27 Multiple myeloma-associated hDIS3 mutations cause perturbations in cellular RNA metabolism and suggest hDIS3 PIN domain as a potential drug target Tomecki, Rafal Drazkowska, Karolina Kucinski, Iwo Stodus, Krystian Szczesny, Roman J. Gruchota, Jakub Owczarek, Ewelina P. Kalisiak, Katarzyna Dziembowski, Andrzej Nucleic Acids Res RNA hDIS3 is a mainly nuclear, catalytic subunit of the human exosome complex, containing exonucleolytic (RNB) and endonucleolytic (PIN) active domains. Mutations in hDIS3 have been found in ∼10% of patients with multiple myeloma (MM). Here, we show that these mutations interfere with hDIS3 exonucleolytic activity. Yeast harboring corresponding mutations in DIS3 show growth inhibition and changes in nuclear RNA metabolism typical for exosome dysfunction. Construction of a conditional DIS3 knockout in the chicken DT40 cell line revealed that DIS3 is essential for cell survival, indicating that its function cannot be replaced by other exosome-associated nucleases: hDIS3L and hRRP6. Moreover, HEK293-derived cells, in which depletion of endogenous wild-type hDIS3 was complemented with exogenously expressed MM hDIS3 mutants, proliferate at a slower rate and exhibit aberrant RNA metabolism. Importantly, MM mutations are synthetically lethal with the hDIS3 PIN domain catalytic mutation both in yeast and human cells. Since mutations in PIN domain alone have little effect on cell physiology, our results predict the hDIS3 PIN domain as a potential drug target for MM patients with hDIS3 mutations. It is an interesting example of intramolecular synthetic lethality with putative therapeutic potential in humans. Oxford University Press 2014-01 2013-10-21 /pmc/articles/PMC3902924/ /pubmed/24150935 http://dx.doi.org/10.1093/nar/gkt930 Text en © The Author(s) 2013. Published by Oxford University Press. http://creativecommons.org/licenses/by/3.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/3.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle RNA
Tomecki, Rafal
Drazkowska, Karolina
Kucinski, Iwo
Stodus, Krystian
Szczesny, Roman J.
Gruchota, Jakub
Owczarek, Ewelina P.
Kalisiak, Katarzyna
Dziembowski, Andrzej
Multiple myeloma-associated hDIS3 mutations cause perturbations in cellular RNA metabolism and suggest hDIS3 PIN domain as a potential drug target
title Multiple myeloma-associated hDIS3 mutations cause perturbations in cellular RNA metabolism and suggest hDIS3 PIN domain as a potential drug target
title_full Multiple myeloma-associated hDIS3 mutations cause perturbations in cellular RNA metabolism and suggest hDIS3 PIN domain as a potential drug target
title_fullStr Multiple myeloma-associated hDIS3 mutations cause perturbations in cellular RNA metabolism and suggest hDIS3 PIN domain as a potential drug target
title_full_unstemmed Multiple myeloma-associated hDIS3 mutations cause perturbations in cellular RNA metabolism and suggest hDIS3 PIN domain as a potential drug target
title_short Multiple myeloma-associated hDIS3 mutations cause perturbations in cellular RNA metabolism and suggest hDIS3 PIN domain as a potential drug target
title_sort multiple myeloma-associated hdis3 mutations cause perturbations in cellular rna metabolism and suggest hdis3 pin domain as a potential drug target
topic RNA
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3902924/
https://www.ncbi.nlm.nih.gov/pubmed/24150935
http://dx.doi.org/10.1093/nar/gkt930
work_keys_str_mv AT tomeckirafal multiplemyelomaassociatedhdis3mutationscauseperturbationsincellularrnametabolismandsuggesthdis3pindomainasapotentialdrugtarget
AT drazkowskakarolina multiplemyelomaassociatedhdis3mutationscauseperturbationsincellularrnametabolismandsuggesthdis3pindomainasapotentialdrugtarget
AT kucinskiiwo multiplemyelomaassociatedhdis3mutationscauseperturbationsincellularrnametabolismandsuggesthdis3pindomainasapotentialdrugtarget
AT stoduskrystian multiplemyelomaassociatedhdis3mutationscauseperturbationsincellularrnametabolismandsuggesthdis3pindomainasapotentialdrugtarget
AT szczesnyromanj multiplemyelomaassociatedhdis3mutationscauseperturbationsincellularrnametabolismandsuggesthdis3pindomainasapotentialdrugtarget
AT gruchotajakub multiplemyelomaassociatedhdis3mutationscauseperturbationsincellularrnametabolismandsuggesthdis3pindomainasapotentialdrugtarget
AT owczarekewelinap multiplemyelomaassociatedhdis3mutationscauseperturbationsincellularrnametabolismandsuggesthdis3pindomainasapotentialdrugtarget
AT kalisiakkatarzyna multiplemyelomaassociatedhdis3mutationscauseperturbationsincellularrnametabolismandsuggesthdis3pindomainasapotentialdrugtarget
AT dziembowskiandrzej multiplemyelomaassociatedhdis3mutationscauseperturbationsincellularrnametabolismandsuggesthdis3pindomainasapotentialdrugtarget

Ejemplares similares