PIDDosome-induced p53-dependent ploidy restriction facilitates hepatocarcinogenesis

Valentina C. Sladky; Katja Knapp; Tamas G. Szabo; Vincent Z. Braun; Laura Bongiovanni; Hilda van den Bos; Diana C.J. Spierings; Bart Westendorp; Ana Curinha; Tatjana Stojakovic; Hubert Scharnagl; Gerald Timelthaler; Kaoru Tsuchia; Matthias Pinter; Georg Semmler; Floris Foijer; Alain de Bruin; Thomas Reiberger; Nataliya Rohr-Udilova; Andreas Villunger

doi:10.15252/embr.202050893

PIDDosome-induced p53-dependent ploidy restriction facilitates hepatocarcinogenesis

Valentina C. Sladky, Katja Knapp, Tamas G. Szabo, Vincent Z. Braun, Laura Bongiovanni, Hilda van den Bos, Diana C.J. Spierings, Bart Westendorp, Ana Curinha, Tatjana Stojakovic, Hubert Scharnagl, Gerald Timelthaler, Kaoru Tsuchia, Matthias Pinter, Georg Semmler, Floris Foijer, Alain de Bruin, Thomas Reiberger, Nataliya Rohr-Udilova, Andreas Villunger^*

^*Corresponding author for this work

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

Abstract

Polyploidization frequently precedes tumorigenesis but also occurs during normal development in several tissues. Hepatocyte ploidy is controlled by the PIDDosome during development and regeneration. This multi-protein complex is activated by supernumerary centrosomes to induce p53 and restrict proliferation of polyploid cells, otherwise prone for chromosomal instability. PIDDosome deficiency in the liver results in drastically increased polyploidy. To investigate PIDDosome-induced p53-activation in the pathogenesis of liver cancer, we chemically induced hepatocellular carcinoma (HCC) in mice. Strikingly, PIDDosome deficiency reduced tumor number and burden, despite the inability to activate p53 in polyploid cells. Liver tumors arise primarily from cells with low ploidy, indicating an intrinsic pro-tumorigenic effect of PIDDosome-mediated ploidy restriction. These data suggest that hyperpolyploidization caused by PIDDosome deficiency protects from HCC. Moreover, high tumor cell density, as a surrogate marker of low ploidy, predicts poor survival of HCC patients receiving liver transplantation. Together, we show that the PIDDosome is a potential therapeutic target to manipulate hepatocyte polyploidization for HCC prevention and that tumor cell density may serve as a novel prognostic marker for recurrence-free survival in HCC patients.

Original language	English
Article number	e50893
Pages (from-to)	1-16
Journal	EMBO Reports
Volume	21
DOIs	https://doi.org/10.15252/embr.202050893
Publication status	Published - 1 Jan 2020

Funding

We are grateful to K. Rossi, I. Gaggl, J. Heppke, C. Soratroi, and A. Beierfuß for excellent technical assistance or animal care. We also thank M. Trauner, A. Strasser, and T. Mak for sharing cell lines, mouse models, and reagents as well as A. Curinha, S. Sprung, J. Haybäck, M. Bergmann, and G.F. Vogel for fruitful discussion and support with histology and microscopy. This work was supported by the FWF‐funded Doctoral College “Molecular Cell Biology and Oncology” (W1101) and the ERC‐AdG “POLICE” (#787171). Artwork was created using Biorender.com.

Keywords

caspase-2
hepatocellular carcinoma
p53
PIDD1
polyploidy

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Sladky, V. C., Knapp, K., Szabo, T. G., Braun, V. Z., Bongiovanni, L., van den Bos, H., Spierings, D. C. J., Westendorp, B., Curinha, A., Stojakovic, T., Scharnagl, H., Timelthaler, G., Tsuchia, K., Pinter, M., Semmler, G., Foijer, F., de Bruin, A., Reiberger, T., Rohr-Udilova, N., & Villunger, A. (2020). PIDDosome-induced p53-dependent ploidy restriction facilitates hepatocarcinogenesis. EMBO Reports, 21, 1-16. Article e50893. https://doi.org/10.15252/embr.202050893

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title = "PIDDosome-induced p53-dependent ploidy restriction facilitates hepatocarcinogenesis",

abstract = "Polyploidization frequently precedes tumorigenesis but also occurs during normal development in several tissues. Hepatocyte ploidy is controlled by the PIDDosome during development and regeneration. This multi-protein complex is activated by supernumerary centrosomes to induce p53 and restrict proliferation of polyploid cells, otherwise prone for chromosomal instability. PIDDosome deficiency in the liver results in drastically increased polyploidy. To investigate PIDDosome-induced p53-activation in the pathogenesis of liver cancer, we chemically induced hepatocellular carcinoma (HCC) in mice. Strikingly, PIDDosome deficiency reduced tumor number and burden, despite the inability to activate p53 in polyploid cells. Liver tumors arise primarily from cells with low ploidy, indicating an intrinsic pro-tumorigenic effect of PIDDosome-mediated ploidy restriction. These data suggest that hyperpolyploidization caused by PIDDosome deficiency protects from HCC. Moreover, high tumor cell density, as a surrogate marker of low ploidy, predicts poor survival of HCC patients receiving liver transplantation. Together, we show that the PIDDosome is a potential therapeutic target to manipulate hepatocyte polyploidization for HCC prevention and that tumor cell density may serve as a novel prognostic marker for recurrence-free survival in HCC patients.",

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doi = "10.15252/embr.202050893",

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Sladky, VC, Knapp, K, Szabo, TG, Braun, VZ, Bongiovanni, L, van den Bos, H, Spierings, DCJ, Westendorp, B, Curinha, A, Stojakovic, T, Scharnagl, H, Timelthaler, G, Tsuchia, K, Pinter, M, Semmler, G, Foijer, F, de Bruin, A, Reiberger, T, Rohr-Udilova, N & Villunger, A 2020, 'PIDDosome-induced p53-dependent ploidy restriction facilitates hepatocarcinogenesis', EMBO Reports, vol. 21, e50893, pp. 1-16. https://doi.org/10.15252/embr.202050893

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T1 - PIDDosome-induced p53-dependent ploidy restriction facilitates hepatocarcinogenesis

AU - Sladky, Valentina C.

AU - Knapp, Katja

AU - Szabo, Tamas G.

AU - Braun, Vincent Z.

AU - Bongiovanni, Laura

AU - van den Bos, Hilda

AU - Spierings, Diana C.J.

AU - Westendorp, Bart

AU - Curinha, Ana

AU - Stojakovic, Tatjana

AU - Scharnagl, Hubert

AU - Timelthaler, Gerald

AU - Tsuchia, Kaoru

AU - Pinter, Matthias

AU - Semmler, Georg

AU - Foijer, Floris

AU - de Bruin, Alain

AU - Reiberger, Thomas

AU - Rohr-Udilova, Nataliya

AU - Villunger, Andreas

PY - 2020/1/1

Y1 - 2020/1/1

N2 - Polyploidization frequently precedes tumorigenesis but also occurs during normal development in several tissues. Hepatocyte ploidy is controlled by the PIDDosome during development and regeneration. This multi-protein complex is activated by supernumerary centrosomes to induce p53 and restrict proliferation of polyploid cells, otherwise prone for chromosomal instability. PIDDosome deficiency in the liver results in drastically increased polyploidy. To investigate PIDDosome-induced p53-activation in the pathogenesis of liver cancer, we chemically induced hepatocellular carcinoma (HCC) in mice. Strikingly, PIDDosome deficiency reduced tumor number and burden, despite the inability to activate p53 in polyploid cells. Liver tumors arise primarily from cells with low ploidy, indicating an intrinsic pro-tumorigenic effect of PIDDosome-mediated ploidy restriction. These data suggest that hyperpolyploidization caused by PIDDosome deficiency protects from HCC. Moreover, high tumor cell density, as a surrogate marker of low ploidy, predicts poor survival of HCC patients receiving liver transplantation. Together, we show that the PIDDosome is a potential therapeutic target to manipulate hepatocyte polyploidization for HCC prevention and that tumor cell density may serve as a novel prognostic marker for recurrence-free survival in HCC patients.

AB - Polyploidization frequently precedes tumorigenesis but also occurs during normal development in several tissues. Hepatocyte ploidy is controlled by the PIDDosome during development and regeneration. This multi-protein complex is activated by supernumerary centrosomes to induce p53 and restrict proliferation of polyploid cells, otherwise prone for chromosomal instability. PIDDosome deficiency in the liver results in drastically increased polyploidy. To investigate PIDDosome-induced p53-activation in the pathogenesis of liver cancer, we chemically induced hepatocellular carcinoma (HCC) in mice. Strikingly, PIDDosome deficiency reduced tumor number and burden, despite the inability to activate p53 in polyploid cells. Liver tumors arise primarily from cells with low ploidy, indicating an intrinsic pro-tumorigenic effect of PIDDosome-mediated ploidy restriction. These data suggest that hyperpolyploidization caused by PIDDosome deficiency protects from HCC. Moreover, high tumor cell density, as a surrogate marker of low ploidy, predicts poor survival of HCC patients receiving liver transplantation. Together, we show that the PIDDosome is a potential therapeutic target to manipulate hepatocyte polyploidization for HCC prevention and that tumor cell density may serve as a novel prognostic marker for recurrence-free survival in HCC patients.

KW - caspase-2

KW - hepatocellular carcinoma

KW - p53

KW - PIDD1

KW - polyploidy

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DO - 10.15252/embr.202050893

M3 - Article

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AN - SCOPUS:85096689040

SN - 1469-221X

VL - 21

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JO - EMBO Reports

JF - EMBO Reports

M1 - e50893

ER -

PIDDosome-induced p53-dependent ploidy restriction facilitates hepatocarcinogenesis

Abstract

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Keywords

UN SDGs

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