Small molecule inhibitors and CRISPR/Cas9 mutagenesis demonstrate that SMYD2 and SMYD3 activity are dispensable for autonomous cancer cell proliferation

A key challenge in the development of precision medicine is defining the phenotypic consequences of pharmacological modulation of specific target macromolecules. To address this issue, a variety of genetic, molecular and chemical tools can be used. All of these approaches can produce misleading resu...

Descripción completa

Detalles Bibliográficos
Autores principales: Thomenius, Michael J., Totman, Jennifer, Harvey, Darren, Mitchell, Lorna H., Riera, Thomas V., Cosmopoulos, Kat, Grassian, Alexandra R., Klaus, Christine, Foley, Megan, Admirand, Elizabeth A., Jahic, Haris, Majer, Christina, Wigle, Tim, Jacques, Suzanne L., Gureasko, Jodi, Brach, Dorothy, Lingaraj, Trupti, West, Kip, Smith, Sherri, Rioux, Nathalie, Waters, Nigel J., Tang, Cuyue, Raimondi, Alejandra, Munchhof, Michael, Mills, James E., Ribich, Scott, Porter Scott, Margaret, Kuntz, Kevin W., Janzen, William P., Moyer, Mikel, Smith, Jesse J., Chesworth, Richard, Copeland, Robert A., Boriack-Sjodin, P. Ann
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2018
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5983452/
https://www.ncbi.nlm.nih.gov/pubmed/29856759
http://dx.doi.org/10.1371/journal.pone.0197372
_version_ 1783328419762667520
author Thomenius, Michael J.
Totman, Jennifer
Harvey, Darren
Mitchell, Lorna H.
Riera, Thomas V.
Cosmopoulos, Kat
Grassian, Alexandra R.
Klaus, Christine
Foley, Megan
Admirand, Elizabeth A.
Jahic, Haris
Majer, Christina
Wigle, Tim
Jacques, Suzanne L.
Gureasko, Jodi
Brach, Dorothy
Lingaraj, Trupti
West, Kip
Smith, Sherri
Rioux, Nathalie
Waters, Nigel J.
Tang, Cuyue
Raimondi, Alejandra
Munchhof, Michael
Mills, James E.
Ribich, Scott
Porter Scott, Margaret
Kuntz, Kevin W.
Janzen, William P.
Moyer, Mikel
Smith, Jesse J.
Chesworth, Richard
Copeland, Robert A.
Boriack-Sjodin, P. Ann
author_facet Thomenius, Michael J.
Totman, Jennifer
Harvey, Darren
Mitchell, Lorna H.
Riera, Thomas V.
Cosmopoulos, Kat
Grassian, Alexandra R.
Klaus, Christine
Foley, Megan
Admirand, Elizabeth A.
Jahic, Haris
Majer, Christina
Wigle, Tim
Jacques, Suzanne L.
Gureasko, Jodi
Brach, Dorothy
Lingaraj, Trupti
West, Kip
Smith, Sherri
Rioux, Nathalie
Waters, Nigel J.
Tang, Cuyue
Raimondi, Alejandra
Munchhof, Michael
Mills, James E.
Ribich, Scott
Porter Scott, Margaret
Kuntz, Kevin W.
Janzen, William P.
Moyer, Mikel
Smith, Jesse J.
Chesworth, Richard
Copeland, Robert A.
Boriack-Sjodin, P. Ann
author_sort Thomenius, Michael J.
collection PubMed
description A key challenge in the development of precision medicine is defining the phenotypic consequences of pharmacological modulation of specific target macromolecules. To address this issue, a variety of genetic, molecular and chemical tools can be used. All of these approaches can produce misleading results if the specificity of the tools is not well understood and the proper controls are not performed. In this paper we illustrate these general themes by providing detailed studies of small molecule inhibitors of the enzymatic activity of two members of the SMYD branch of the protein lysine methyltransferases, SMYD2 and SMYD3. We show that tool compounds as well as CRISPR/Cas9 fail to reproduce many of the cell proliferation findings associated with SMYD2 and SMYD3 inhibition previously obtained with RNAi based approaches and with early stage chemical probes.
format Online
Article
Text
id pubmed-5983452
institution National Center for Biotechnology Information
language English
publishDate 2018
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-59834522018-06-17 Small molecule inhibitors and CRISPR/Cas9 mutagenesis demonstrate that SMYD2 and SMYD3 activity are dispensable for autonomous cancer cell proliferation Thomenius, Michael J. Totman, Jennifer Harvey, Darren Mitchell, Lorna H. Riera, Thomas V. Cosmopoulos, Kat Grassian, Alexandra R. Klaus, Christine Foley, Megan Admirand, Elizabeth A. Jahic, Haris Majer, Christina Wigle, Tim Jacques, Suzanne L. Gureasko, Jodi Brach, Dorothy Lingaraj, Trupti West, Kip Smith, Sherri Rioux, Nathalie Waters, Nigel J. Tang, Cuyue Raimondi, Alejandra Munchhof, Michael Mills, James E. Ribich, Scott Porter Scott, Margaret Kuntz, Kevin W. Janzen, William P. Moyer, Mikel Smith, Jesse J. Chesworth, Richard Copeland, Robert A. Boriack-Sjodin, P. Ann PLoS One Research Article A key challenge in the development of precision medicine is defining the phenotypic consequences of pharmacological modulation of specific target macromolecules. To address this issue, a variety of genetic, molecular and chemical tools can be used. All of these approaches can produce misleading results if the specificity of the tools is not well understood and the proper controls are not performed. In this paper we illustrate these general themes by providing detailed studies of small molecule inhibitors of the enzymatic activity of two members of the SMYD branch of the protein lysine methyltransferases, SMYD2 and SMYD3. We show that tool compounds as well as CRISPR/Cas9 fail to reproduce many of the cell proliferation findings associated with SMYD2 and SMYD3 inhibition previously obtained with RNAi based approaches and with early stage chemical probes. Public Library of Science 2018-06-01 /pmc/articles/PMC5983452/ /pubmed/29856759 http://dx.doi.org/10.1371/journal.pone.0197372 Text en © 2018 Thomenius et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Thomenius, Michael J.
Totman, Jennifer
Harvey, Darren
Mitchell, Lorna H.
Riera, Thomas V.
Cosmopoulos, Kat
Grassian, Alexandra R.
Klaus, Christine
Foley, Megan
Admirand, Elizabeth A.
Jahic, Haris
Majer, Christina
Wigle, Tim
Jacques, Suzanne L.
Gureasko, Jodi
Brach, Dorothy
Lingaraj, Trupti
West, Kip
Smith, Sherri
Rioux, Nathalie
Waters, Nigel J.
Tang, Cuyue
Raimondi, Alejandra
Munchhof, Michael
Mills, James E.
Ribich, Scott
Porter Scott, Margaret
Kuntz, Kevin W.
Janzen, William P.
Moyer, Mikel
Smith, Jesse J.
Chesworth, Richard
Copeland, Robert A.
Boriack-Sjodin, P. Ann
Small molecule inhibitors and CRISPR/Cas9 mutagenesis demonstrate that SMYD2 and SMYD3 activity are dispensable for autonomous cancer cell proliferation
title Small molecule inhibitors and CRISPR/Cas9 mutagenesis demonstrate that SMYD2 and SMYD3 activity are dispensable for autonomous cancer cell proliferation
title_full Small molecule inhibitors and CRISPR/Cas9 mutagenesis demonstrate that SMYD2 and SMYD3 activity are dispensable for autonomous cancer cell proliferation
title_fullStr Small molecule inhibitors and CRISPR/Cas9 mutagenesis demonstrate that SMYD2 and SMYD3 activity are dispensable for autonomous cancer cell proliferation
title_full_unstemmed Small molecule inhibitors and CRISPR/Cas9 mutagenesis demonstrate that SMYD2 and SMYD3 activity are dispensable for autonomous cancer cell proliferation
title_short Small molecule inhibitors and CRISPR/Cas9 mutagenesis demonstrate that SMYD2 and SMYD3 activity are dispensable for autonomous cancer cell proliferation
title_sort small molecule inhibitors and crispr/cas9 mutagenesis demonstrate that smyd2 and smyd3 activity are dispensable for autonomous cancer cell proliferation
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5983452/
https://www.ncbi.nlm.nih.gov/pubmed/29856759
http://dx.doi.org/10.1371/journal.pone.0197372
work_keys_str_mv AT thomeniusmichaelj smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT totmanjennifer smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT harveydarren smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT mitchelllornah smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT rierathomasv smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT cosmopouloskat smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT grassianalexandrar smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT klauschristine smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT foleymegan smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT admirandelizabetha smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT jahicharis smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT majerchristina smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT wigletim smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT jacquessuzannel smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT gureaskojodi smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT brachdorothy smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT lingarajtrupti smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT westkip smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT smithsherri smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT riouxnathalie smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT watersnigelj smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT tangcuyue smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT raimondialejandra smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT munchhofmichael smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT millsjamese smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT ribichscott smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT porterscottmargaret smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT kuntzkevinw smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT janzenwilliamp smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT moyermikel smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT smithjessej smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT chesworthrichard smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT copelandroberta smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation
AT boriacksjodinpann smallmoleculeinhibitorsandcrisprcas9mutagenesisdemonstratethatsmyd2andsmyd3activityaredispensableforautonomouscancercellproliferation

Ejemplares similares