Nuclear stabilization of p53 requires a functional nucleolar surveillance pathway

Katherine M. Hannan; Priscilla Soo; Mei S. Wong; Justine K. Lee; Nadine Hein; Perlita Poh; Kira D. Wysoke; Tobias D. Williams; Christian Montellese; Lorey K. Smith; Sheren J. Al-Obaidi; Lorena Núñez-Villacís; Megan Pavy; Jin Shu He; Kate M. Parsons; Karagh E. Loring; Tess Morrison; Jeannine Diesch; Gaetan Burgio; Rita Ferreira; Zhi Ping Feng; Cathryn M. Gould; Piyush B. Madhamshettiwar; Johan Flygare; Thomas J. Gonda; Kaylene J. Simpson; Ulrike Kutay; Richard B. Pearson; Christoph Engel; Nicholas J. Watkins; Ross D. Hannan; Amee J. George

doi:10.1016/j.celrep.2022.111571

Nuclear stabilization of p53 requires a functional nucleolar surveillance pathway

Katherine M. Hannan, Priscilla Soo, Mei S. Wong, Justine K. Lee, Nadine Hein, Perlita Poh, Kira D. Wysoke, Tobias D. Williams, Christian Montellese, Lorey K. Smith, Sheren J. Al-Obaidi, Lorena Núñez-Villacís, Megan Pavy, Jin Shu He, Kate M. Parsons, Karagh E. Loring, Tess Morrison, Jeannine Diesch, Gaetan Burgio, Rita FerreiraZhi Ping Feng, Cathryn M. Gould, Piyush B. Madhamshettiwar, Johan Flygare, Thomas J. Gonda, Kaylene J. Simpson, Ulrike Kutay, Richard B. Pearson, Christoph Engel, Nicholas J. Watkins, Ross D. Hannan, Amee J. George

Forskningsoutput: Tidskriftsbidrag › Artikel i vetenskaplig tidskrift › Peer review

Sammanfattning

The nucleolar surveillance pathway monitors nucleolar integrity and responds to nucleolar stress by mediating binding of ribosomal proteins to MDM2, resulting in p53 accumulation. Inappropriate pathway activation is implicated in the pathogenesis of ribosomopathies, while drugs selectively activating the pathway are in trials for cancer. Despite this, the molecular mechanism(s) regulating this process are poorly understood. Using genome-wide loss-of-function screens, we demonstrate the ribosome biogenesis axis as the most potent class of genes whose disruption stabilizes p53. Mechanistically, we identify genes critical for regulation of this pathway, including HEATR3. By selectively disabling the nucleolar surveillance pathway, we demonstrate that it is essential for the ability of all nuclear-acting stresses, including DNA damage, to induce p53 accumulation. Our data support a paradigm whereby the nucleolar surveillance pathway is the central integrator of stresses that regulate nuclear p53 abundance, ensuring that ribosome biogenesis is hardwired to cellular proliferative capacity.

Originalspråk	engelska
Artikelnummer	111571
Tidskrift	Cell Reports
Volym	41
Nummer	5
DOI	https://doi.org/10.1016/j.celrep.2022.111571
Status	Published - 2022

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Biologi

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10.1016/j.celrep.2022.111571

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Hannan, K. M., Soo, P., Wong, M. S., Lee, J. K., Hein, N., Poh, P., Wysoke, K. D., Williams, T. D., Montellese, C., Smith, L. K., Al-Obaidi, S. J., Núñez-Villacís, L., Pavy, M., He, J. S., Parsons, K. M., Loring, K. E., Morrison, T., Diesch, J., Burgio, G., ... George, A. J. (2022). Nuclear stabilization of p53 requires a functional nucleolar surveillance pathway. Cell Reports, 41(5), Artikel 111571. https://doi.org/10.1016/j.celrep.2022.111571

@article{bfdf686f3b204dfaa4d89db4536f7f0f,

title = "Nuclear stabilization of p53 requires a functional nucleolar surveillance pathway",

abstract = "The nucleolar surveillance pathway monitors nucleolar integrity and responds to nucleolar stress by mediating binding of ribosomal proteins to MDM2, resulting in p53 accumulation. Inappropriate pathway activation is implicated in the pathogenesis of ribosomopathies, while drugs selectively activating the pathway are in trials for cancer. Despite this, the molecular mechanism(s) regulating this process are poorly understood. Using genome-wide loss-of-function screens, we demonstrate the ribosome biogenesis axis as the most potent class of genes whose disruption stabilizes p53. Mechanistically, we identify genes critical for regulation of this pathway, including HEATR3. By selectively disabling the nucleolar surveillance pathway, we demonstrate that it is essential for the ability of all nuclear-acting stresses, including DNA damage, to induce p53 accumulation. Our data support a paradigm whereby the nucleolar surveillance pathway is the central integrator of stresses that regulate nuclear p53 abundance, ensuring that ribosome biogenesis is hardwired to cellular proliferative capacity.",

keywords = "CP: Molecular biology, high-content screening, high-throughput screening, nucleolar surveillance pathway, nucleolus, p53, ribosomal proteins, ribosome biogenesis, stress",

author = "Hannan, {Katherine M.} and Priscilla Soo and Wong, {Mei S.} and Lee, {Justine K.} and Nadine Hein and Perlita Poh and Wysoke, {Kira D.} and Williams, {Tobias D.} and Christian Montellese and Smith, {Lorey K.} and Al-Obaidi, {Sheren J.} and Lorena N{\'u}{\~n}ez-Villac{\'i}s and Megan Pavy and He, {Jin Shu} and Parsons, {Kate M.} and Loring, {Karagh E.} and Tess Morrison and Jeannine Diesch and Gaetan Burgio and Rita Ferreira and Feng, {Zhi Ping} and Gould, {Cathryn M.} and Madhamshettiwar, {Piyush B.} and Johan Flygare and Gonda, {Thomas J.} and Simpson, {Kaylene J.} and Ulrike Kutay and Pearson, {Richard B.} and Christoph Engel and Watkins, {Nicholas J.} and Hannan, {Ross D.} and George, {Amee J.}",

year = "2022",

doi = "10.1016/j.celrep.2022.111571",

language = "English",

volume = "41",

journal = "Cell Reports",

issn = "2211-1247",

publisher = "Cell Press",

number = "5",

}

Hannan, KM, Soo, P, Wong, MS, Lee, JK, Hein, N, Poh, P, Wysoke, KD, Williams, TD, Montellese, C, Smith, LK, Al-Obaidi, SJ, Núñez-Villacís, L, Pavy, M, He, JS, Parsons, KM, Loring, KE, Morrison, T, Diesch, J, Burgio, G, Ferreira, R, Feng, ZP, Gould, CM, Madhamshettiwar, PB, Flygare, J, Gonda, TJ, Simpson, KJ, Kutay, U, Pearson, RB, Engel, C, Watkins, NJ, Hannan, RD & George, AJ 2022, 'Nuclear stabilization of p53 requires a functional nucleolar surveillance pathway', Cell Reports, vol. 41, nr. 5, 111571. https://doi.org/10.1016/j.celrep.2022.111571

TY - JOUR

T1 - Nuclear stabilization of p53 requires a functional nucleolar surveillance pathway

AU - Hannan, Katherine M.

AU - Soo, Priscilla

AU - Wong, Mei S.

AU - Lee, Justine K.

AU - Hein, Nadine

AU - Poh, Perlita

AU - Wysoke, Kira D.

AU - Williams, Tobias D.

AU - Montellese, Christian

AU - Smith, Lorey K.

AU - Al-Obaidi, Sheren J.

AU - Núñez-Villacís, Lorena

AU - Pavy, Megan

AU - He, Jin Shu

AU - Parsons, Kate M.

AU - Loring, Karagh E.

AU - Morrison, Tess

AU - Diesch, Jeannine

AU - Burgio, Gaetan

AU - Ferreira, Rita

AU - Feng, Zhi Ping

AU - Gould, Cathryn M.

AU - Madhamshettiwar, Piyush B.

AU - Flygare, Johan

AU - Gonda, Thomas J.

AU - Simpson, Kaylene J.

AU - Kutay, Ulrike

AU - Pearson, Richard B.

AU - Engel, Christoph

AU - Watkins, Nicholas J.

AU - Hannan, Ross D.

AU - George, Amee J.

PY - 2022

Y1 - 2022

N2 - The nucleolar surveillance pathway monitors nucleolar integrity and responds to nucleolar stress by mediating binding of ribosomal proteins to MDM2, resulting in p53 accumulation. Inappropriate pathway activation is implicated in the pathogenesis of ribosomopathies, while drugs selectively activating the pathway are in trials for cancer. Despite this, the molecular mechanism(s) regulating this process are poorly understood. Using genome-wide loss-of-function screens, we demonstrate the ribosome biogenesis axis as the most potent class of genes whose disruption stabilizes p53. Mechanistically, we identify genes critical for regulation of this pathway, including HEATR3. By selectively disabling the nucleolar surveillance pathway, we demonstrate that it is essential for the ability of all nuclear-acting stresses, including DNA damage, to induce p53 accumulation. Our data support a paradigm whereby the nucleolar surveillance pathway is the central integrator of stresses that regulate nuclear p53 abundance, ensuring that ribosome biogenesis is hardwired to cellular proliferative capacity.

AB - The nucleolar surveillance pathway monitors nucleolar integrity and responds to nucleolar stress by mediating binding of ribosomal proteins to MDM2, resulting in p53 accumulation. Inappropriate pathway activation is implicated in the pathogenesis of ribosomopathies, while drugs selectively activating the pathway are in trials for cancer. Despite this, the molecular mechanism(s) regulating this process are poorly understood. Using genome-wide loss-of-function screens, we demonstrate the ribosome biogenesis axis as the most potent class of genes whose disruption stabilizes p53. Mechanistically, we identify genes critical for regulation of this pathway, including HEATR3. By selectively disabling the nucleolar surveillance pathway, we demonstrate that it is essential for the ability of all nuclear-acting stresses, including DNA damage, to induce p53 accumulation. Our data support a paradigm whereby the nucleolar surveillance pathway is the central integrator of stresses that regulate nuclear p53 abundance, ensuring that ribosome biogenesis is hardwired to cellular proliferative capacity.

KW - CP: Molecular biology

KW - high-content screening

KW - high-throughput screening

KW - nucleolar surveillance pathway

KW - nucleolus

KW - p53

KW - ribosomal proteins

KW - ribosome biogenesis

KW - stress

U2 - 10.1016/j.celrep.2022.111571

DO - 10.1016/j.celrep.2022.111571

M3 - Article

C2 - 36323262

AN - SCOPUS:85140875083

SN - 2211-1247

VL - 41

JO - Cell Reports

JF - Cell Reports

IS - 5

M1 - 111571

ER -

Nuclear stabilization of p53 requires a functional nucleolar surveillance pathway

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FN:s Globala mål

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