EBF1 and Pax5 safeguard leukemic transformation by limiting IL-7 signaling, Myc expression, and folate metabolism

EBF1 and PAX5 mutations are associated with the development of B progenitor acute lymphoblastic leukemia (B-ALL) in humans. To understand the molecular networks driving leukemia in the Ebf1(+/−)Pax5(+/−) (dHet) mouse model for B-ALL, we interrogated the transcriptional profiles and chromatin status...

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Autores principales: Ramamoorthy, Senthilkumar, Kometani, Kohei, Herman, Josip S., Bayer, Marc, Boller, Sören, Edwards-Hicks, Joy, Ramachandran, Haribaskar, Li, Rui, Klein-Geltink, Ramon, Pearce, Erika L., Grün, Dominic, Grosschedl, Rudolf
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory Press 2020
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7608749/
https://www.ncbi.nlm.nih.gov/pubmed/33004416
http://dx.doi.org/10.1101/gad.340216.120
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author Ramamoorthy, Senthilkumar
Kometani, Kohei
Herman, Josip S.
Bayer, Marc
Boller, Sören
Edwards-Hicks, Joy
Ramachandran, Haribaskar
Li, Rui
Klein-Geltink, Ramon
Pearce, Erika L.
Grün, Dominic
Grosschedl, Rudolf
author_facet Ramamoorthy, Senthilkumar
Kometani, Kohei
Herman, Josip S.
Bayer, Marc
Boller, Sören
Edwards-Hicks, Joy
Ramachandran, Haribaskar
Li, Rui
Klein-Geltink, Ramon
Pearce, Erika L.
Grün, Dominic
Grosschedl, Rudolf
author_sort Ramamoorthy, Senthilkumar
collection PubMed
description EBF1 and PAX5 mutations are associated with the development of B progenitor acute lymphoblastic leukemia (B-ALL) in humans. To understand the molecular networks driving leukemia in the Ebf1(+/−)Pax5(+/−) (dHet) mouse model for B-ALL, we interrogated the transcriptional profiles and chromatin status of leukemic cells, preleukemic dHet pro-B, and wild-type pro-B cells with the corresponding EBF1 and Pax5 cistromes. In dHet B-ALL cells, many EBF1 and Pax5 target genes encoding pre-BCR signaling components and transcription factors were down-regulated, whereas Myc and genes downstream from IL-7 signaling or associated with the folate pathway were up-regulated. We show that blockade of IL-7 signaling in vivo and methotrexate treatment of leukemic cells in vitro attenuate the expansion of leukemic cells. Single-cell RNA-sequencing revealed heterogeneity of leukemic cells and identified a subset of wild-type pro-B cells with reduced Ebf1 and enhanced Myc expression that show hallmarks of dHet B-ALL cells. Thus, EBF1 and Pax5 may safeguard early stage B cells from transformation to B-ALL by limiting IL-7 signaling, folate metabolism and Myc expression.
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spelling pubmed-76087492020-11-12 EBF1 and Pax5 safeguard leukemic transformation by limiting IL-7 signaling, Myc expression, and folate metabolism Ramamoorthy, Senthilkumar Kometani, Kohei Herman, Josip S. Bayer, Marc Boller, Sören Edwards-Hicks, Joy Ramachandran, Haribaskar Li, Rui Klein-Geltink, Ramon Pearce, Erika L. Grün, Dominic Grosschedl, Rudolf Genes Dev Research Paper EBF1 and PAX5 mutations are associated with the development of B progenitor acute lymphoblastic leukemia (B-ALL) in humans. To understand the molecular networks driving leukemia in the Ebf1(+/−)Pax5(+/−) (dHet) mouse model for B-ALL, we interrogated the transcriptional profiles and chromatin status of leukemic cells, preleukemic dHet pro-B, and wild-type pro-B cells with the corresponding EBF1 and Pax5 cistromes. In dHet B-ALL cells, many EBF1 and Pax5 target genes encoding pre-BCR signaling components and transcription factors were down-regulated, whereas Myc and genes downstream from IL-7 signaling or associated with the folate pathway were up-regulated. We show that blockade of IL-7 signaling in vivo and methotrexate treatment of leukemic cells in vitro attenuate the expansion of leukemic cells. Single-cell RNA-sequencing revealed heterogeneity of leukemic cells and identified a subset of wild-type pro-B cells with reduced Ebf1 and enhanced Myc expression that show hallmarks of dHet B-ALL cells. Thus, EBF1 and Pax5 may safeguard early stage B cells from transformation to B-ALL by limiting IL-7 signaling, folate metabolism and Myc expression. Cold Spring Harbor Laboratory Press 2020-11-01 /pmc/articles/PMC7608749/ /pubmed/33004416 http://dx.doi.org/10.1101/gad.340216.120 Text en © 2020 Ramamoorthy et al.; Published by Cold Spring Harbor Laboratory Press http://creativecommons.org/licenses/by-nc/4.0/ This article, published in Genes & Development, is available under a Creative Commons License (Attribution-NonCommercial 4.0 International), as described at http://creativecommons.org/licenses/by-nc/4.0/.
spellingShingle Research Paper
Ramamoorthy, Senthilkumar
Kometani, Kohei
Herman, Josip S.
Bayer, Marc
Boller, Sören
Edwards-Hicks, Joy
Ramachandran, Haribaskar
Li, Rui
Klein-Geltink, Ramon
Pearce, Erika L.
Grün, Dominic
Grosschedl, Rudolf
EBF1 and Pax5 safeguard leukemic transformation by limiting IL-7 signaling, Myc expression, and folate metabolism
title EBF1 and Pax5 safeguard leukemic transformation by limiting IL-7 signaling, Myc expression, and folate metabolism
title_full EBF1 and Pax5 safeguard leukemic transformation by limiting IL-7 signaling, Myc expression, and folate metabolism
title_fullStr EBF1 and Pax5 safeguard leukemic transformation by limiting IL-7 signaling, Myc expression, and folate metabolism
title_full_unstemmed EBF1 and Pax5 safeguard leukemic transformation by limiting IL-7 signaling, Myc expression, and folate metabolism
title_short EBF1 and Pax5 safeguard leukemic transformation by limiting IL-7 signaling, Myc expression, and folate metabolism
title_sort ebf1 and pax5 safeguard leukemic transformation by limiting il-7 signaling, myc expression, and folate metabolism
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7608749/
https://www.ncbi.nlm.nih.gov/pubmed/33004416
http://dx.doi.org/10.1101/gad.340216.120
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