Superior efficacy of co-targeting GFI1/KDM1A and BRD4 against AML and post-MPN secondary AML cells

There is an unmet need to overcome nongenetic therapy-resistance to improve outcomes in AML, especially post-myeloproliferative neoplasm (MPN) secondary (s) AML. Studies presented describe effects of genetic knockout, degradation or small molecule targeted-inhibition of GFI1/LSD1 on active enhancers...

Descripción completa

Detalles Bibliográficos
Autores principales: Fiskus, Warren, Mill, Christopher P., Nabet, Behnam, Perera, Dimuthu, Birdwell, Christine, Manshouri, Taghi, Lara, Bernardo, Kadia, Tapan M., DiNardo, Courtney, Takahashi, Koichi, Daver, Naval, Bose, Prithviraj, Masarova, Lucia, Pemmaraju, Naveen, Kornblau, Steven, Borthakur, Gautam, Montalban-Bravo, Guillermo, Manero, Guillermo Garcia, Sharma, Sunil, Stubbs, Matthew, Su, Xiaoping, Green, Michael R., Coarfa, Cristian, Verstovsek, Srdan, Khoury, Joseph D., Vakoc, Christopher R., Bhalla, Kapil N.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8138012/
https://www.ncbi.nlm.nih.gov/pubmed/34016956
http://dx.doi.org/10.1038/s41408-021-00487-3
_version_ 1783695722916347904
author Fiskus, Warren
Mill, Christopher P.
Nabet, Behnam
Perera, Dimuthu
Birdwell, Christine
Manshouri, Taghi
Lara, Bernardo
Kadia, Tapan M.
DiNardo, Courtney
Takahashi, Koichi
Daver, Naval
Bose, Prithviraj
Masarova, Lucia
Pemmaraju, Naveen
Kornblau, Steven
Borthakur, Gautam
Montalban-Bravo, Guillermo
Manero, Guillermo Garcia
Sharma, Sunil
Stubbs, Matthew
Su, Xiaoping
Green, Michael R.
Coarfa, Cristian
Verstovsek, Srdan
Khoury, Joseph D.
Vakoc, Christopher R.
Bhalla, Kapil N.
author_facet Fiskus, Warren
Mill, Christopher P.
Nabet, Behnam
Perera, Dimuthu
Birdwell, Christine
Manshouri, Taghi
Lara, Bernardo
Kadia, Tapan M.
DiNardo, Courtney
Takahashi, Koichi
Daver, Naval
Bose, Prithviraj
Masarova, Lucia
Pemmaraju, Naveen
Kornblau, Steven
Borthakur, Gautam
Montalban-Bravo, Guillermo
Manero, Guillermo Garcia
Sharma, Sunil
Stubbs, Matthew
Su, Xiaoping
Green, Michael R.
Coarfa, Cristian
Verstovsek, Srdan
Khoury, Joseph D.
Vakoc, Christopher R.
Bhalla, Kapil N.
author_sort Fiskus, Warren
collection PubMed
description There is an unmet need to overcome nongenetic therapy-resistance to improve outcomes in AML, especially post-myeloproliferative neoplasm (MPN) secondary (s) AML. Studies presented describe effects of genetic knockout, degradation or small molecule targeted-inhibition of GFI1/LSD1 on active enhancers, altering gene-expressions and inducing differentiation and lethality in AML and (MPN) sAML cells. A protein domain-focused CRISPR screen in LSD1 (KDM1A) inhibitor (i) treated AML cells, identified BRD4, MOZ, HDAC3 and DOT1L among the codependencies. Our findings demonstrate that co-targeting LSD1 and one of these co-dependencies exerted synergistic in vitro lethality in AML and post-MPN sAML cells. Co-treatment with LSD1i and the JAKi ruxolitinib was also synergistically lethal against post-MPN sAML cells. LSD1i pre-treatment induced GFI1, PU.1 and CEBPα but depleted c-Myc, overcoming nongenetic resistance to ruxolitinib, or to BETi in post-MPN sAML cells. Co-treatment with LSD1i and BETi or ruxolitinib exerted superior in vivo efficacy against post-MPN sAML cells. These findings highlight LSD1i-based combinations that merit testing for clinical efficacy, especially to overcome nongenetic therapy-resistance in AML and post-MPN sAML.
format Online
Article
Text
id pubmed-8138012
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher Nature Publishing Group UK
record_format MEDLINE/PubMed
spelling pubmed-81380122021-06-03 Superior efficacy of co-targeting GFI1/KDM1A and BRD4 against AML and post-MPN secondary AML cells Fiskus, Warren Mill, Christopher P. Nabet, Behnam Perera, Dimuthu Birdwell, Christine Manshouri, Taghi Lara, Bernardo Kadia, Tapan M. DiNardo, Courtney Takahashi, Koichi Daver, Naval Bose, Prithviraj Masarova, Lucia Pemmaraju, Naveen Kornblau, Steven Borthakur, Gautam Montalban-Bravo, Guillermo Manero, Guillermo Garcia Sharma, Sunil Stubbs, Matthew Su, Xiaoping Green, Michael R. Coarfa, Cristian Verstovsek, Srdan Khoury, Joseph D. Vakoc, Christopher R. Bhalla, Kapil N. Blood Cancer J Article There is an unmet need to overcome nongenetic therapy-resistance to improve outcomes in AML, especially post-myeloproliferative neoplasm (MPN) secondary (s) AML. Studies presented describe effects of genetic knockout, degradation or small molecule targeted-inhibition of GFI1/LSD1 on active enhancers, altering gene-expressions and inducing differentiation and lethality in AML and (MPN) sAML cells. A protein domain-focused CRISPR screen in LSD1 (KDM1A) inhibitor (i) treated AML cells, identified BRD4, MOZ, HDAC3 and DOT1L among the codependencies. Our findings demonstrate that co-targeting LSD1 and one of these co-dependencies exerted synergistic in vitro lethality in AML and post-MPN sAML cells. Co-treatment with LSD1i and the JAKi ruxolitinib was also synergistically lethal against post-MPN sAML cells. LSD1i pre-treatment induced GFI1, PU.1 and CEBPα but depleted c-Myc, overcoming nongenetic resistance to ruxolitinib, or to BETi in post-MPN sAML cells. Co-treatment with LSD1i and BETi or ruxolitinib exerted superior in vivo efficacy against post-MPN sAML cells. These findings highlight LSD1i-based combinations that merit testing for clinical efficacy, especially to overcome nongenetic therapy-resistance in AML and post-MPN sAML. Nature Publishing Group UK 2021-05-20 /pmc/articles/PMC8138012/ /pubmed/34016956 http://dx.doi.org/10.1038/s41408-021-00487-3 Text en © The Author(s) 2021 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Fiskus, Warren
Mill, Christopher P.
Nabet, Behnam
Perera, Dimuthu
Birdwell, Christine
Manshouri, Taghi
Lara, Bernardo
Kadia, Tapan M.
DiNardo, Courtney
Takahashi, Koichi
Daver, Naval
Bose, Prithviraj
Masarova, Lucia
Pemmaraju, Naveen
Kornblau, Steven
Borthakur, Gautam
Montalban-Bravo, Guillermo
Manero, Guillermo Garcia
Sharma, Sunil
Stubbs, Matthew
Su, Xiaoping
Green, Michael R.
Coarfa, Cristian
Verstovsek, Srdan
Khoury, Joseph D.
Vakoc, Christopher R.
Bhalla, Kapil N.
Superior efficacy of co-targeting GFI1/KDM1A and BRD4 against AML and post-MPN secondary AML cells
title Superior efficacy of co-targeting GFI1/KDM1A and BRD4 against AML and post-MPN secondary AML cells
title_full Superior efficacy of co-targeting GFI1/KDM1A and BRD4 against AML and post-MPN secondary AML cells
title_fullStr Superior efficacy of co-targeting GFI1/KDM1A and BRD4 against AML and post-MPN secondary AML cells
title_full_unstemmed Superior efficacy of co-targeting GFI1/KDM1A and BRD4 against AML and post-MPN secondary AML cells
title_short Superior efficacy of co-targeting GFI1/KDM1A and BRD4 against AML and post-MPN secondary AML cells
title_sort superior efficacy of co-targeting gfi1/kdm1a and brd4 against aml and post-mpn secondary aml cells
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8138012/
https://www.ncbi.nlm.nih.gov/pubmed/34016956
http://dx.doi.org/10.1038/s41408-021-00487-3
work_keys_str_mv AT fiskuswarren superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT millchristopherp superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT nabetbehnam superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT pereradimuthu superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT birdwellchristine superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT manshouritaghi superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT larabernardo superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT kadiatapanm superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT dinardocourtney superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT takahashikoichi superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT davernaval superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT boseprithviraj superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT masarovalucia superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT pemmarajunaveen superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT kornblausteven superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT borthakurgautam superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT montalbanbravoguillermo superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT maneroguillermogarcia superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT sharmasunil superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT stubbsmatthew superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT suxiaoping superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT greenmichaelr superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT coarfacristian superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT verstovseksrdan superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT khouryjosephd superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT vakocchristopherr superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells
AT bhallakapiln superiorefficacyofcotargetinggfi1kdm1aandbrd4againstamlandpostmpnsecondaryamlcells

Ejemplares similares