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p53-independent induction of p21 fails to control regeneration and hepatocarcinogenesis in a murine liver injury model.
Cell. Mol. Gast. Hept. 11, 1387-1404 (2021)
BACKGROUND AND AIMS: A coordinated stress and regenerative response is important following hepatocyte damage. Here, we investigate the phenotypes that result from genetic abrogation of individual components of the CHK2/p53/p21-pathway in a murine model of metabolic liver injury. METHODS: NTBC was reduced or withdrawn in Fah-/- mice lacking Chk2, p53 or p21, and survival, tumor development, liver injury and regeneration were analyzed. Partial hepatectomies were performed and mice were challenged with the Fas-antibody Jo2. RESULTS: In a model of metabolic liver injury, loss of p53, but not of Chk2, impairs the oxidative stress response and aggravates liver damage, indicative of a direct p53-dependent protective effect on hepatocytes. Cell cycle control during chronic liver injury critically depends on the presence of both p53 and its downstream effector p21. In p53-deficient hepatocytes, unchecked proliferation occurs despite a strong induction of p21, revealing a complex interdependency between p21 and p53. The increased regenerative potential in the absence of p53 cannot fully compensate the surplus injury and is not sufficient to promote survival. Despite the distinct phenotypes associated with the loss of individual components of the DNA damage response, gene expression patterns are dominated by the severity of liver injury, but reflect distinct effects of p53 on proliferation and the anti-oxidative stress response. CONCLUSION: Characteristic phenotypes result from the genetic abrogation of individual components of the DNA damage response cascade in a liver injury model. The extent to which loss of gene function can be compensated, or affects injury and proliferation, is related to the level at which the cascade is interrupted.
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Publication type
Article: Journal article
Document type
Scientific Article
Keywords
Chk2 ; Dna Damage ; Hcc ; Oxidative Stress Response; Hereditary Tyrosinemia Type-1; Hepatic-dysfunction; Tumor-suppressor; Dna-damage; Dual Role; P53; Fumarylacetoacetate; Proliferation; Hepatocytes; Determines
Language
english
Publication Year
2021
HGF-reported in Year
2021
ISSN (print) / ISBN
2352-345X
e-ISSN
2352-345X
Quellenangaben
Volume: 11,
Issue: 5,
Pages: 1387-1404
Publisher
Elsevier
Publishing Place
New York, NY
Institute(s)
Translational Metabolic Oncology (IDC-TMO)
POF-Topic(s)
30203 - Molecular Targets and Therapies
Research field(s)
Radiation Sciences
PSP Element(s)
G-501000-001
Grants
Else Kroner-Fresenius Foundation
Deutsche Forschungsgemeinschaft (German Research Foundation)
Deutsche Forschungsgemeinschaft (German Research Foundation)
WOS ID
WOS:000642815200009
Scopus ID
85103081574
PubMed ID
33484913
Erfassungsdatum
2021-03-29