The antiproliferative effect of FGF2 in K-Ras-driven tumor cells involves modulation of rRNA and the nucleolus

Francisca N. de Luna Vitorino; Michaella J. Levy; Rosangela A.Mansano Wailemann; Mariana Lopes; Mariana Loterio Silva; Mihaela E. Sardiu; Benjamin A. Garcia; Maria Cristina Machado Motta; Carla Columbano Oliveira; Hugo Aguirre Armelin; Laurence A. Florens; Michael P. Washburn; Julia Pinheiro Chagas da Cunha

doi:10.1242/jcs.260989

The antiproliferative effect of FGF2 in K-Ras-driven tumor cells involves modulation of rRNA and the nucleolus

Francisca N. de Luna Vitorino, Michaella J. Levy, Rosangela A.Mansano Wailemann, Mariana Lopes, Mariana Loterio Silva, Mihaela E. Sardiu, Benjamin A. Garcia, Maria Cristina Machado Motta, Carla Columbano Oliveira, Hugo Aguirre Armelin, Laurence A. Florens, Michael P. Washburn, Julia Pinheiro Chagas da Cunha

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The nucleolus is sensitive to stress and can orchestrate a chain of cellular events in response to stress signals. Despite being a growth factor, FGF2 has antiproliferative and tumor-suppressive functions in some cellular contexts. In this work, we investigated how the antiproliferative effect of FGF2 modulates chromatin-, nucleolus- and rDNA-associated proteins. The chromatin and nucleolar proteome indicated that FGF2 stimulation modulates proteins related to transcription, rRNA expression and chromatinremodeling proteins. The global transcriptional rate and nucleolus area increased along with nucleolar disorganization upon 24 h of FGF2 stimulation. FGF2 stimulation induced immature rRNA accumulation by increasing rRNA transcription. The rDNAassociated protein analysis reinforced that FGF2 stimulus interferes with transcription and rRNA processing. RNA Pol I inhibition partially reversed the growth arrest induced by FGF2, indicating that changes in rRNA expression might be crucial for triggering the antiproliferative effect. Taken together, we demonstrate that the antiproliferative FGF2 stimulus triggers significant transcriptional changes and modulates the main cell transcription site, the nucleolus.

Original language	English
Article number	jcs260989
Journal	Journal of cell science
Volume	136
Issue number	22
DOIs	https://doi.org/10.1242/jcs.260989
State	Published - 2023

Keywords

Chromatin
FGF2
Nucleolus
Proteomics
Transcription

Access to Document

10.1242/jcs.260989

Cite this

de Luna Vitorino, F. N., Levy, M. J., Wailemann, R. A. M., Lopes, M., Silva, M. L., Sardiu, M. E., Garcia, B. A., Motta, M. C. M., Oliveira, C. C., Armelin, H. A., Florens, L. A., Washburn, M. P., & da Cunha, J. P. C. (2023). The antiproliferative effect of FGF2 in K-Ras-driven tumor cells involves modulation of rRNA and the nucleolus. Journal of cell science, 136(22), Article jcs260989. https://doi.org/10.1242/jcs.260989

@article{b253df27ceaa47f68a389e233d6e69f1,

title = "The antiproliferative effect of FGF2 in K-Ras-driven tumor cells involves modulation of rRNA and the nucleolus",

abstract = "The nucleolus is sensitive to stress and can orchestrate a chain of cellular events in response to stress signals. Despite being a growth factor, FGF2 has antiproliferative and tumor-suppressive functions in some cellular contexts. In this work, we investigated how the antiproliferative effect of FGF2 modulates chromatin-, nucleolus- and rDNA-associated proteins. The chromatin and nucleolar proteome indicated that FGF2 stimulation modulates proteins related to transcription, rRNA expression and chromatinremodeling proteins. The global transcriptional rate and nucleolus area increased along with nucleolar disorganization upon 24 h of FGF2 stimulation. FGF2 stimulation induced immature rRNA accumulation by increasing rRNA transcription. The rDNAassociated protein analysis reinforced that FGF2 stimulus interferes with transcription and rRNA processing. RNA Pol I inhibition partially reversed the growth arrest induced by FGF2, indicating that changes in rRNA expression might be crucial for triggering the antiproliferative effect. Taken together, we demonstrate that the antiproliferative FGF2 stimulus triggers significant transcriptional changes and modulates the main cell transcription site, the nucleolus.",

keywords = "Chromatin, FGF2, Nucleolus, Proteomics, Transcription",

author = "{de Luna Vitorino}, {Francisca N.} and Levy, {Michaella J.} and Wailemann, {Rosangela A.Mansano} and Mariana Lopes and Silva, {Mariana Loterio} and Sardiu, {Mihaela E.} and Garcia, {Benjamin A.} and Motta, {Maria Cristina Machado} and Oliveira, {Carla Columbano} and Armelin, {Hugo Aguirre} and Florens, {Laurence A.} and Washburn, {Michael P.} and {da Cunha}, {Julia Pinheiro Chagas}",

note = "Publisher Copyright: {\textcopyright} 2023. Published by The Company of Biologists Ltd.",

year = "2023",

doi = "10.1242/jcs.260989",

language = "English",

volume = "136",

journal = "Journal of cell science",

issn = "0021-9533",

number = "22",

}

de Luna Vitorino, FN, Levy, MJ, Wailemann, RAM, Lopes, M, Silva, ML, Sardiu, ME, Garcia, BA, Motta, MCM, Oliveira, CC, Armelin, HA, Florens, LA, Washburn, MP & da Cunha, JPC 2023, 'The antiproliferative effect of FGF2 in K-Ras-driven tumor cells involves modulation of rRNA and the nucleolus', Journal of cell science, vol. 136, no. 22, jcs260989. https://doi.org/10.1242/jcs.260989

TY - JOUR

T1 - The antiproliferative effect of FGF2 in K-Ras-driven tumor cells involves modulation of rRNA and the nucleolus

AU - de Luna Vitorino, Francisca N.

AU - Levy, Michaella J.

AU - Wailemann, Rosangela A.Mansano

AU - Lopes, Mariana

AU - Silva, Mariana Loterio

AU - Sardiu, Mihaela E.

AU - Garcia, Benjamin A.

AU - Motta, Maria Cristina Machado

AU - Oliveira, Carla Columbano

AU - Armelin, Hugo Aguirre

AU - Florens, Laurence A.

AU - Washburn, Michael P.

AU - da Cunha, Julia Pinheiro Chagas

PY - 2023

Y1 - 2023

N2 - The nucleolus is sensitive to stress and can orchestrate a chain of cellular events in response to stress signals. Despite being a growth factor, FGF2 has antiproliferative and tumor-suppressive functions in some cellular contexts. In this work, we investigated how the antiproliferative effect of FGF2 modulates chromatin-, nucleolus- and rDNA-associated proteins. The chromatin and nucleolar proteome indicated that FGF2 stimulation modulates proteins related to transcription, rRNA expression and chromatinremodeling proteins. The global transcriptional rate and nucleolus area increased along with nucleolar disorganization upon 24 h of FGF2 stimulation. FGF2 stimulation induced immature rRNA accumulation by increasing rRNA transcription. The rDNAassociated protein analysis reinforced that FGF2 stimulus interferes with transcription and rRNA processing. RNA Pol I inhibition partially reversed the growth arrest induced by FGF2, indicating that changes in rRNA expression might be crucial for triggering the antiproliferative effect. Taken together, we demonstrate that the antiproliferative FGF2 stimulus triggers significant transcriptional changes and modulates the main cell transcription site, the nucleolus.

AB - The nucleolus is sensitive to stress and can orchestrate a chain of cellular events in response to stress signals. Despite being a growth factor, FGF2 has antiproliferative and tumor-suppressive functions in some cellular contexts. In this work, we investigated how the antiproliferative effect of FGF2 modulates chromatin-, nucleolus- and rDNA-associated proteins. The chromatin and nucleolar proteome indicated that FGF2 stimulation modulates proteins related to transcription, rRNA expression and chromatinremodeling proteins. The global transcriptional rate and nucleolus area increased along with nucleolar disorganization upon 24 h of FGF2 stimulation. FGF2 stimulation induced immature rRNA accumulation by increasing rRNA transcription. The rDNAassociated protein analysis reinforced that FGF2 stimulus interferes with transcription and rRNA processing. RNA Pol I inhibition partially reversed the growth arrest induced by FGF2, indicating that changes in rRNA expression might be crucial for triggering the antiproliferative effect. Taken together, we demonstrate that the antiproliferative FGF2 stimulus triggers significant transcriptional changes and modulates the main cell transcription site, the nucleolus.

KW - Chromatin

KW - FGF2

KW - Nucleolus

KW - Proteomics

KW - Transcription

UR - http://www.scopus.com/inward/record.url?scp=85178497379&partnerID=8YFLogxK

U2 - 10.1242/jcs.260989

DO - 10.1242/jcs.260989

M3 - Article

C2 - 37921359

AN - SCOPUS:85178497379

SN - 0021-9533

VL - 136

JO - Journal of cell science

JF - Journal of cell science

IS - 22

M1 - jcs260989

ER -

The antiproliferative effect of FGF2 in K-Ras-driven tumor cells involves modulation of rRNA and the nucleolus

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this