FBP1 controls liver cancer evolution from senescent MASH hepatocytes

a, Relative staining intensities of the indicated proteins from Fig. 1a. b, Relative ALDOB amounts in NT and T tissues from the CPTAC-LIHC database. c, Relative FBP1 and ALDOB amounts in NT and T tissues from the PXD006512-LIHC database. d, Percent survival of PXD006512-LIHC patients stratified according to ALDOB expression by “best expression cut-off”. Significance determined by log-rank test. e, FBP1 expression in TCGA-LIHC with WT (n = 308) and mutant (n = 107) TP53. f, Relative FBP1 promoter methylation levels in the TCGA-LIHC database. g, Relative FBP1 promoter methylation levels in HCC patients from the TCGA database. Low and high were defined as in Methods. h-j, Relative promoter methylation levels of G6PC (h), PCK1 (i) and TP53 (j) in the TCGA-LIHC database. Data in a, b, c, e, f, h, i and j are mean ± SEM. Statistical significance determined by two-sided unpaired t-test or Mann–Whitney U test (a, b, c, e, f, h, i and j) based on data normality distribution. **P < 0.01, ***P < 0.001, ns, not significant. Box plots show center line (median), box limits (first and third quartiles) and whiskers (outer data points).

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a, Schematic of the FBP1 gene 5′ and 3′ regions, showing putative TP53 binding sites and amplicons used for ChIP-qPCR. b, Relative amounts of Fbp1, p21 and Tp53 mRNAs in primary hepatocytes from Tp53^F/F and Tp53^ΔHep mice. c, IB demonstrating shRNA mediated TP53 knockdown and FBP1 downregulation in human hepatocytes. d, Relative FBP1, p21^CIP1 and TP53 mRNA amounts in human primary hepatocytes stably transfected with shCtrl, shTP53#1 and shTP53#2. e, f, Relative FBP1, p21^CIP1 and TP53 mRNAs in HepG2 (e) and SK-HEP-1 (f) cells stably transfected with shCtrl, shTP53#1 and shTP53#2. IB showing TP53 knockdown in SK-HEP-1 cells is on the right. g-j, ChIP-qPCR probing TP53 recruitment to the Fbp1 gene in Tp53^F/F and Tp53^ΔHep livers (g), SK-HEP-1 (h), HepG2 (i) and Huh7 (j) cells (n = 3 BR each). k, Relative FBP1, p21^CIP1and TP53 mRNAs (left, middle) and proteins (right) in NCD and HFD and CSD and HFrD fed Tp53^F/F and Tp53^ΔHep mice (16 weeks; n = 5 biological replicates/BR). Quantification of relative normalized protein amounts is shown below each strip. Data in b, d, e, f, g, h, i, j and k are mean ± SEM. Statistical significance determined by two-sided unpaired t-test or Mann–Whitney U test (b, g, h, i and j) and one-way ANOVA with Tukey post-hoc tests or Kruskal–Wallis test with Dunn post-hoc tests (d, e, f and k) based on data normality distribution. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001, ns, not significant.

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a, IB analysis of the indicated proteins in livers of HFrD-fed MUP-uPA mice collected at the indicated time points. Quantification of relative normalized protein amounts is shown below each strip. b, Frozen liver sections from the indicated mice stained for 53BP1 and P-γH2AX (n = 4-5 BR). Scale bars, 10 μm. Quantification of 53BP1- and P-γH2AX- positive cells per HMF is shown underneath. c, IB analysis of the indicated liver proteins after 22 weeks of CSD or HFrD feeding. MW markers, densitometric quantification of protein ratios (HFrD/CSD) and P values are on the right. d, Representative IHC of MUP-uPA livers after 32 weeks of HFrD feeding (n = 4-5 BR). Scale bars, 50 μm. Quantification of staining intensity/HMF of indicated proteins is shown underneath. e, MUP-uPA/Fbp1^F/F and MUP-uPA/Fbp1^ΔHep livers at 22 weeks of CSD or HFrD. f, g Representative IHC (f) and Image J (g) quantification of MUP-uPA/Fbp1^F/F and MUP-uPA/Fbp1^ΔHep livers in 22 weeks after HFrD (n = 7-9 BR). Scale bars, 50 μm. Data in b, c, d and g are mean ± SEM. Statistical significance determined by one-way ANOVA with Tukey post-hoc tests or Kruskal–Wallis test with Dunn post-hoc tests (b, g) and two-sided unpaired t-test or Mann–Whitney U test (d) based on data normality distribution. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.

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a, Relative FBP1 and ALDOB expression from the GSE162694 human normal and MASH liver dataset (normal, n = 31; MASH, 0, n = 35; 1, n = 30; 2, n = 27; 3, n = 8; 4, n = 12). b, Representative IHC of human normal and MASH livers (n = 7-9 BR). Image J quantifications are to the right. c, SR staining and 53BP1 and P-γ-H2AX IHC of human normal and MASH liver tissues (n = 7-9 BR). Image J quantification is shown underneath. d, UMAP visualizations and unsupervised clustering of 78250 hepatocyte nuclei from integrated GSE185477, GSE174748, GSE192742 and GSE212046 datasets. Five hepatocyte subsets were annotated based on gene expression and liver pathology metadata (top left). FBP1 and TP53 expression shown by UMAP visualization (top right and bottom left). NRF2 pathway signatures containing n = 141 target genes in daHep and HCC are shown in the bottom right. The ___location of daHep nuclei is highlighted by blue ellipses. e, UMAP visualizations and unsupervised clustering of 12,540 mouse hepatocyte nuclei from the GSE200366 dataset. Four subsets previously identified, three representing normal hepatocyte zonation (Zone_1_Hep, Zone_2_Hep, Zone_3_Hep) and one daHep cluster. Density maps of Fbp1 and Dnmt1 mRNA expression in the UMAP space are shown with the daHep cluster highlighted by blue ellipses. Data in a, b and c are mean ± SEM. Statistical significance determined by one-way ANOVA with Tukey post-hoc tests or Kruskal–Wallis test with Dunn post-hoc tests (a) and two-sided unpaired t-test or Mann–Whitney U test (b, c) based on data normality distribution. *P < 0.05, **P < 0.01, ****P < 0.0001. Box plots show center line (median), box limits (first and third quartiles) and whiskers (outer data points).

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a, Normal hepatocytes and HCC progenitor cells (HcPC) were isolated from 22 weeks HFrD fed MUP-uPA/Fbp1^F/F and MUP-uPA/Fbp1^ΔHep livers (n = 5). Numbers/liver and diameters of aggregates are shown underneath. Scale bars, 100 μm. b, c, IB analysis of the indicated proteins in normal hepatocytes and HcPC from a. MW markers, densitometric quantification of protein ratios (HcPC/Normal hepatocytes) and P values are depicted on the right. d, Tumour numbers (left) and volumes (right) of MUP-uPA/Fbp1^F/F and MUP-uPA/Fbp1^ΔHep livers after 40 weeks of HFrD (n = 5-7 BR each). e, Representative CD44, MYC, and AFP staining of liver sections from above mice. Scale bars, 50 μm. Relative staining intensities per HMF are below. f, IB analysis of liver lysates from above mice prepared after 40 weeks of HFrD. MW markers, densitometric quantification of protein ratios (MUP-uPA/Fbp1^ΔHep/MUP-uPA/Fbp1^F/F) and P values are shown on the right. g, Tumour numbers (left) and volumes (right) of MUP-uPA/Fbp1^F/F and MUP-uPA/Fbp1^ΔHep livers after 40 weeks of HFrD +/− Nutlin-3a treatment (25 mg/kg) 2x/week for 8 weeks (n = 4-5 BR). h, MUP-uPA/Fbp1^F/F and MUP-uPA/Fbp1^ΔHep livers were transduced with AAV8-Ctrl, AAV8-FBP1 and AAV8-FBP1^E98A 6–8 weeks after HFrD initiation (n = 4-5 BR). Mice were examined at 40 weeks. Tumour numbers (left) and volumes (right) are shown. Data in a, d, e, g and h are mean ± SEM. Statistical significance determined by two-sided unpaired t-test or Mann–Whitney U test (a, d and e) and one-way ANOVA with Tukey post-hoc tests or Kruskal–Wallis test with Dunn post-hoc tests (g, h) based on data normality distribution. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.

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a, Overall survival of Fbp1^F/F and Fbp1^ΔHep mice receiving NRAS^G12V HTVI (n = 6-8 each). Significance was determined by log-rank test. b, IHC analysis of Fbp1^F/F and Fbp1^ΔHep livers at the indicated times post-NRAS^G12V HTVI (n = 4-5 BR per time point). Scale bars, 50 μm. c, Relative staining intensities per HMF from b. d, IB of liver lysates 1, 4, and 12 weeks after NRAS^G12V HTVI of Fbp1^F/F and Fbp1^ΔHep mice. e, f, IHC of FFPE liver sections from indicated mice livers(e). Scale bars, 50 μm. Relative staining intensities (f). g, IB of NT and T lysates of Fbp1^ΔHep mice 16 weeks after NRAS^G12V HTVI. h, IB of Tp53^F/F and Tp53^ΔHep liver lysates 1 and 4 weeks post NRAS^G12V HTVI. Data in c and f are mean ± SEM. Statistical significance determined by two-sided unpaired t-test or Mann–Whitney U test (c, f) based on data normality distribution. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.

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a, Schematic of NRAS^G12V HTVI followed by AAV8 viral transduction. b, H&E and SR staining of liver sections from Fig. 3e (n = 4-5 BR). Scale bars, 50 μm. SR staining intensities per HMF determined by Image J are shown to the right. c, IB analysis of Fbp1^F/F and Fbp1^ΔHep liver lysates from Fig. 3e. d, IHC of FFPE liver sections from 3e. Scale bars, 50 μm. e, Relative staining intensities per HMF determined by Image J of d. f, ITT of mice from Fig. 3e. AUC quantifications are shown below. Data in b, e and f are mean ± SEM. Statistical significance determined by one-way ANOVA with Tukey post-hoc tests or Kruskal–Wallis test with Dunn post-hoc tests (b, e and f) based on data normality distribution. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001, ns, not significant.

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a, b, Primary Fbp1^F/F and Fbp1^ΔHep hepatocytes were transduced with NRAS^G12V (a) or treated with etoposide (20 μM, 12 h) (b) and stained for SA-β-Gal (n = 4 BR). Scale bars, 100 μm. Image J quantification is shown on the right of a and in b. c, Image J quantification of primary hepatocytes prepared from WT mice 8 weeks post-HTVI with Ctrl or NRAS^G12V that were treated with ATMi (KU60019, 5 μM) or ATRi (AZD6738, 2 μM) for 6 h before SA-β-Gal staining (n = 4 BR). d, Image J quantification of primary hepatocytes prepared from MUP-uPA mice fed for 22 weeks with CSD or HFrD and treated with ATMi (KU60019, 5 μM) or ATRi (AZD6738, 2 μM) for 6 h before staining for SA-β-Gal (n = 3 BR). e, f, IB analysis of WT livers after 12 weeks HTVI of Ctrl or NRAS^G12V (e) and MUP-uPA mice fed with CSD and HFrD for 22 weeks (f). All mice were injected with ATMi (KU60019, 10 mg/kg) or ATRi (AZD6738, 10 mg/kg) 2x/week for 4 weeks (n = 4 BR). g, Primary hepatocytes prepared from 8 weeks old Fbp1^F/F mice, were transfected with NRAS^G12V and after 2 days were infected with AAV-TBG-GFP and AAV-TBG-Cre (10⁷ virus copies per well) for 2 days before staining for SA-β-Gal (n = 3 BR). Image J quantification is shown. h, Primary hepatocytes from WT mice were transfected with NRAS^G12V and after 2 days were treated with BpV (1 μM) and NK252 (2 μM) for 20 h before staining for SA-β-Gal (n = 3 BR). Image J quantification is shown. i, Experimental scheme. MUP-uPA/Fbp1^F/F mice were fed HFrD for 22 weeks, infected with AAV-TBG-Cre and AAV-TBG-GFP and analysed 4 weeks later (n = 5 BR). j, IB analysis of liver lysates from above mice. Quantification of relative normalized protein amounts is shown below each strip. k, IHC of FFPE liver sections from above mice. Scale bars, 50 μm. Relative staining intensities per HMF determined by Image J are shown to the right. Data in a, b, c, d, g, h and k are mean ± SEM. Statistical significance determined by one-way ANOVA with Tukey post-hoc tests or Kruskal–Wallis test with Dunn post-hoc tests (a, b, c, d, g, h and k) based on data normality distribution. *P < 0.05, ***P < 0.001, ****P < 0.0001, ns, not significant.

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a-d, IHC of FFPE liver sections from Nrf2^Tg/Tg and Nrf2^Act-Hep livers 1, 4, 12 and 16 weeks after NRAS^G12 HTVI (n = 4-5 BR) (a, c). Scale bars, 50 μm. Relative staining intensities per HMF determined by Image J (b, d). e, Tumour numbers and volumes in Nrf2^Tg/Tg and Nrf2^Act-Hep mice 12 and 16 weeks after HTVI of NRAS^G12V (n = 4-5 BR). Data in b, d and e are mean ± SEM. Statistical significance determined by two-sided unpaired t-test or Mann–Whitney U test (b, d) and Kruskal–Wallis test with Dunn post-hoc tests (e) based on data normality distribution. **P < 0.01, ***P < 0.001, ****P < 0.0001.

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a, Venn diagram showing overlap in upregulated genes in Nrf2^Act-Hep vs Nrf2^Tg/Tg and Fbp1^ΔHep vs Fbp1^F/F livers (n = 3 BR). b, Venn diagram showing overlap in downregulated genes in Nrf2^Act-Hep vs Nrf2^Tg/Tg and Fbp1^ΔHep vs Fbp1^F/F livers (n = 3 BR). c, GO BP enrichment analysis of the overlapping upregulated genes in Nrf2^Act-Hep vs. Nrf2^Tg/Tg and Fbp1^ΔHep vs. Fbp1^F/F livers 1 week after NRAS^G12V HTVI (n = 3 BR). Dot size corresponds to the number of genes associated with each GO BP term, and dot colour corresponds to statistical significance. d, GO BP enrichment analysis of overlapping downregulated genes in Nrf2^Act-Hep vs. Nrf2^Tg/Tg and Fbp1^ΔHep vs. Fbp1^F/F livers 1 week after NRAS^G12V HTVI (n = 3 BR). e, f, Venn diagrams depicting the overlap in genes that are upregulated (e) or downregulated (f) in Fbp1^ΔHep vs. Fbp1^F/F, Nrf2^Act-Hep vs. Nrf2^Tg/Tg and Tp53^ΔHep vs. Tp53^F/F NCD livers. g, h, Venn diagrams depicting the overlap in genes that are upregulated (g) or downregulated (h) in Fbp1^ΔHep vs. Fbp1^F/F, Nrf2^Act-Hep vs. Nrf2^Tg/Tg 1 week after NRAS^G12V HTVI and Tp53^ΔHep vs. Tp53^F/F HFD-fed livers. i, j, Heatmaps representing cell-senescence- (i) and cell-cycle- (j) associated genes in Nrf2^Act-Hep livers 3 weeks after NRAS^G12V HTVI followed by AAV8-Ctrl and AAV8-FBP1 transduction (n = 3 BR).

a, INDEL types in HCCs from MUP-uPA/Fbp1^ΔHep mice fed HFrD or HFD for 40 weeks. b, Mutational signatures displayed based on trinucleotide frequency of HFD-induced MUP-uPA/Fbp1^ΔHep HCCs (1 tumour per run). c, d Duplex sequencing showing the number of mutations (c) and INDELs (d) in each signature in the indicated mice. NT- non-tumour, T-tumour. e, Number of mutations in each INDEL signature expressed as somatic mutations per megabase in HCCs from NRAS^G12V transduced Nrf2^Act-Hep livers. f, g, Number of mutations and INDEL types in HCCs of NRAS^G12V transduced Nrf2^Act-Hep livers for 16 weeks.

a, Schematic representation of the p21-Cre construct. The diagram was created using BioRender. b, Relative Cre and p21^CIP1 mRNA amounts in primary hepatocytes transfected with the indicated vectors and treated +/− etoposide (20 μM, 48 h) (n = 3 BR). c, Schematic of experimental protocol. Mice were transduced with the indicated AAV8 vectors 2 weeks (day -14) before NRAS^G12V HTVI. Two weeks later, the mice were i.p. injected with PTENi (BpV) (0.5 mg/kg) or Ctrl for 8 weeks and were sacked at 16 weeks post HTVI (n = 3 BR) for HCC analysis. d, IB analysis of the indicated proteins in liver lysates from above mice. Quantification of relative normalized protein amounts is shown underneath each strip. e, f H&E and IHC of FFPE liver sections from above mice. Scale bars, 20 μm. Relative staining intensities per HMF were determined by Image J are shown to the right. g, Tumour numbers (top) and volumes (bottom) in mT/mG livers transduced with AAV8-Ctrl, AAV8-TBG-Cre or AAV8-p21-Cre 2 wks prior to NRAS^G12 HTVI, followed by BpV (HOpic, 0.5 mg/kg) or Ctrl i.p. injections 2x/wk for 8 wks and analysis at 16 wks post-HTVI (n = 3 each). Data in b, e, f and g are mean ± SEM. Statistical significance determined by two-sided unpaired t-test or Mann–Whitney U test (e, f and g) and Kruskal–Wallis test with Dunn post-hoc tests (b) based on data normality distribution. **P < 0.01, ***P < 0.001, ****P < 0.0001.

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