PharmD, PhD
PharmD, PhD
PhD
Our research explores the genomic and molecular basis of pediatric liver tumors to advance knowledge and improve treatment.
In the Genomics of Pediatric Liver Tumors group, we study tumor evolution using data from patient clinical features, whole-genome and exome sequencing, bulk RNAseq, single-cell, and spatial transcriptomics. We focus primarily on hepatoblastoma (HB), the most common pediatric liver cancer, as well as pediatric hepatocellular carcinoma (HCC), fibrolamellar carcinoma (FLC), and hepatocellular adenoma (HCA).
We partner with clinicians across France to gather samples and address key research questions, and work with Japanese teams to validate findings. We develop computational tools to integrate multi-scale data, exploring tumor evolution and chemotherapy resistance (Figure 1).
Context:
Tumor cells carry molecular changes (mutations, chromosome alterations) that affect gene function. We use computational methods to find recurring altered genes driving cancer, which can be somatic (tumor-specific) or germline/mosaic (predisposing), especially in early childhood cancers.
Published results:
By analyzing 122 tumor samples from 84 patients using whole-genome or whole-exome sequencing, we pinpointed key driver alterations in pediatric liver cancers (Hirsch et al, Cancer Discov 2021) (Figure 2).
HB and HCC converge on pathways like Wnt/β-catenin and IGF2 but differ in alteration types: HB often have mutations (e.g., CTNNB1), while HCC show deletions (e.g., AXIN1). Some HB patients have germline APC mutations linked to familial adenomatous polyposis, and a somatic second hit (Morcrette et al, Oncoimmunology 2019). Rare driver alterations predict poor chemotherapy response and survival (Pire et al, Eur J Cancer 2024). Alterations at the 11p15.5 locus, causing IGF2 overexpression, are a major driver. We found mosaic 11p15.5 changes in ~20% of HB patients’ non-tumor liver, marking preneoplastic cells and affecting liver function (Pilet et al, Nat Commun 2023).
Ongoing projects:
We aim to identify new driver alterations of pediatric liver cancers by expanding our cohort analyzed by whole-genome sequencing and bulk RNAseq. We have specific projects to further explore mosaic alterations at the single-cell and spatial level.
Context:
Tumor evolution is a multi-step process driven by mutations under immune and treatment pressures, leading to diverse phenotypes. We study how clonal changes and phenotypes connect to tumor evolution and resistance.
Published results:
Using RNAseq on 100 HB samples, we defined three transcriptomic groups tied to differentiation, proliferation, and immune response (Hirsch et al, Cancer Discov 2021) (Figure 3a). Multiple samples from the same tumor showed varied phenotypes despite shared drivers, indicating plasticity. Chemotherapy boosts immune infiltration in ‘Hepatocytic’ tumors but not ‘Liver Progenitor’ ones. Single-cell analysis confirmed these groups, revealing a continuum of cell states and subclonal diversity (Roehrig et al, Nat Commun 2024) (Figure 3b).
Ongoing projects:
We currently explore the intra-tumor heterogeneity of hepatoblastoma at the spatially-resolved single-cell level, by combining high-plex immunofluorescence, single-nucleus RNAseq and spatial transcriptomics.
Context:
Hepatoblastoma is treated with cisplatin-based chemotherapy, but some cases resist treatment, with few therapeutic alternatives.
Published results:
Whole-genome sequencing revealed cisplatin’s SBS35 mutational signature (Figure 4a) in a subset of primary hepatoblastomas post-chemotherapy, associated with poor treatment response (Hirsch et al, Cancer Discov 2021 ; Pire et al, Eur J Cancer 2024). In primary tumors, SBS35 mutations were subclonal, meaning they appeared in only a fraction of tumor cells, specifically within ‘Liver Progenitor’ sectors, while ‘Hepatocytic’ and ‘Mesenchymal’ areas lacked them. In contrast, relapse samples showed thousands of clonal SBS35 mutations, present in all tumor cells, indicating relapses arise from a single resistant cell that accumulated cisplatin-induced mutations during treatment (Figure 4b). Overall, the longitudinal analysis of cisplatin-induced mutations, integrated with the transcriptomic classification, pinpoints the ‘Liver Progenitor’ cells as being chemoresistant and at the origin of relapses.
Targeting PLK1, a ‘Liver Progenitor’ marker, reduced tumor growth in proof-of-concept experiments developed with Sandra Rebouissou’s group (Hirsch et al, Cancer Discov 2021).
Ongoing projects:
We’re refining detection of cisplatin mutations with machine learning and, with Sandra Rebouissou’s group, seeking drugs to reverse chemoresistance.
PhD
MD
PhD
MD
MD
Roehrig A, Hirsch TZ, Pire A, Morcrette G, Gupta B, Marcaillou C, Imbeaud S, Chardot C, Gonzales E, Jacquemin E, Sekiguchi M, Takita J, Nagae G, Hiyama E, Guérin F, Fabre M, Aerts I, Taque S, Laithier V, Branchereau S, Guettier C, Brugières L, Fresneau B, Zucman-Rossi J, Letouzé E. Nat Commun. 2024 Apr 8;15(1):3031. doi: 10.1038/s41467-024-47280-x. PMID: 38589411
Pire A, Hirsch TZ, Morcrette G, Imbeaud S, Gupta B, Pilet J, Cornet M, Fabre M, Guettier C, Branchereau S, Brugières L, Guerin F, Laithier V, Coze C, Nagae G, Hiyama E, Laurent-Puig P, Rebouissou S, Sarnacki S, Chardot C, Capito C, Faure-Conter C, Aerts I, Taque S, Fresneau B, Zucman-Rossi J. Eur J Cancer. 2024 Mar;200:113583. doi: 10.1016/j.ejca.2024.113583. Epub 2024 Feb 1. PMID: 38330765
Pilet J, Hirsch TZ, Gupta B, Roehrig A, Morcrette G, Pire A, Letouzé E, Fresneau B, Taque S, Brugières L, Branchereau S, Chardot C, Aerts I, Sarnacki S, Fabre M, Guettier C, Rebouissou S, Zucman-Rossi J. Nat Commun. 2023 Nov 6;14(1):7122. doi: 10.1038/s41467-023-42418-9. PMID: 37932266
Hirsch TZ, Pilet J, Morcrette G, Roehrig A, Monteiro BJE, Molina L, Bayard Q, Trépo E, Meunier L, Caruso S, Renault V, Deleuze JF, Fresneau B, Chardot C, Gonzales E, Jacquemin E, Guerin F, Fabre M, Aerts I, Taque S, Laithier V, Branchereau S, Guettier C, Brugières L, Rebouissou S, Letouzé E, Zucman-Rossi J. Cancer Discov. 2021 Oct;11(10):2524-2543. doi: 10.1158/2159-8290.CD-20-1809. Epub 2021 Apr 23. PMID: 33893148
Hirsch TZ, Negulescu A, Gupta B, Caruso S, Noblet B, Couchy G, Bayard Q, Meunier L, Morcrette G, Scoazec JY, Blanc JF, Amaddeo G, Nault JC, Bioulac-Sage P, Ziol M, Beaufrère A, Paradis V, Calderaro J, Imbeaud S, Zucman-Rossi J. J Hepatol. 2020 May;72(5):924-936. doi: 10.1016/j.jhep.2019.12.006. Epub 2019 Dec 18. PMID: 31862487
APC germline hepatoblastomas demonstrate cisplatin-induced intratumor tertiary lymphoid structures.
Morcrette G, Hirsch TZ, Badour E, Pilet J, Caruso S, Calderaro J, Martin Y, Imbeaud S, Letouzé E, Rebouissou S, Branchereau S, Taque S, Chardot C, Guettier C, Scoazec JY, Fabre M, Brugières L, Zucman-Rossi J. Oncoimmunology. 2019 Mar 28;8(6):e1583547. doi: 10.1080/2162402X.2019.1583547. eCollection 2019. PMID: 31069152
Inserm UMR S1138
You need informations about our works? you want to collaborate, you search for a post-doc position? Feel free to contact us by sending an email to Pr J. Zucman-Rossi (jessica.zucman-rossi@inserm.fr) & Dr D. Jean (didier.jean@inserm.fr)
Inserm UMRS1138 – FunGeST team 15 rue de l’école de médecine 75006 Paris
1: APC germline hepatoblastomas demonstrate cisplatin-induced intratumor tertiary lymphoid structures. Morcrette G, Hirsch TZ, Badour E, Pilet J, Caruso S, Calderaro J, Martin Y, Imbeaud S, Letouzé E, Rebouissou S, Branchereau S, Taque S, Chardot C, Guettier C, Scoazec JY, Fabre M, Brugières L, Zucman-Rossi J. Oncoimmunology. 2019 Mar 28;8(6):e1583547. doi: 10.1080/2162402X.2019.1583547. eCollection 2019. PMID: 31069152
Caruso S, Calatayud AL, Pilet J, La Bella T, Rekik S, Imbeaud S, Letouzé E, Meunier L, Bayard Q, Rohr-Udilova N, Péneau C, Grasl-Kraupp B, de Koning L, Ouine B, Bioulac-Sage P, Couchy G, Calderaro J, Nault JC, Zucman-Rossi J, Rebouissou S. Gastroenterology. 2019 May 4. pii: S0016-5085(19)36771-X. doi: 10.1053/j.gastro.2019.05.001. [Epub ahead of print] PMID:31063779
3: Polyploidy spectrum: a new marker in HCC classification. Bou-Nader M, Caruso S, Donne R, Celton-Morizur S, Calderaro J, Gentric G, Cadoux M, L’Hermitte A, Klein C, Guilbert T, Albuquerque M, Couchy G, Paradis V, Couty JP, Zucman-Rossi J, Desdouets C. Gut. 2019 Apr 12. pii: gutjnl-2018-318021. doi: 10.1136/gutjnl-2018-318021. [Epub ahead of print] PMID:30979717
4: Dynamics and predicted drug response of a gene network linking dedifferentiation with beta-catenin dysfunction in hepatocellular carcinoma. Gérard C, Di-Luoffo M, Gonay L, Caruso S, Couchy G, Loriot A, Castven D, Tao J, Konobrocka K, Cordi S, Monga SP, Hanert E, Marquardt JU, Zucman-Rossi J, Lemaigre FP. J Hepatol. 2019 Apr 3. pii: S0168-8278(19)30195-3. doi: 10.1016/j.jhep.2019.03.024. [Epub ahead of print] PMID:30953666
5: A 17-Beta-Hydroxysteroid Dehydrogenase 13 Variant Protects From Hepatocellular Carcinoma Development in Alcoholic Liver Disease. Yang J, Trépo E, Nahon P, Cao Q, Moreno C, Letouzé E, Imbeaud S, Bayard Q, Gustot T, Deviere J, Bioulac-Sage P, Calderaro J, Ganne-Carrié N, Laurent A, Blanc JF, Guyot E, Sutton A, Ziol M, Zucman-Rossi J, Nault JC. Hepatology. 2019 Mar 25. doi: 10.1002/hep.30623. [Epub ahead of print] PMID:30908678
6: Dissecting heterogeneity in malignant pleural mesothelioma through histo-molecular gradients for clinical applications. Blum Y, Meiller C, Quetel L, Elarouci N, Ayadi M, Tashtanbaeva D, Armenoult L, Montagne F, Tranchant R, Renier A, de Koning L, Copin MC, Hofman P, Hofman V, Porte H, Le Pimpec-Barthes F, Zucman-Rossi J, Jaurand MC, de Reyniès A, Jean D. Nat Commun. 2019 Mar 22;10(1):1333. doi: 10.1038/s41467-019-09307-6. PMID:30902996
7: Inhibiting Glutamine-Dependent mTORC1 Activation Ameliorates Liver Cancers Driven by β-Catenin Mutations. Adebayo Michael AO, Ko S, Tao J, Moghe A, Yang H, Xu M, Russell JO, Pradhan-Sundd T, Liu S, Singh S, Poddar M, Monga JS, Liu P, Oertel M, Ranganathan S, Singhi A, Rebouissou S, Zucman-Rossi J, Ribback S, Calvisi D, Qvartskhava N, Görg B, Häussinger D, Chen X, Monga SP. Cell Metab. 2019 May 7;29(5):1135-1150.e6. doi: 10.1016/j.cmet.2019.01.002. Epub 2019 Jan 31. PMID:30713111
8: Cyclin A2/E1 activation defines a hepatocellular carcinoma subclass with a rearrangement signature of replication stress. Bayard Q, Meunier L, Peneau C, Renault V, Shinde J, Nault JC, Mami I, Couchy G, Amaddeo G, Tubacher E, Bacq D, Meyer V, La Bella T, Debaillon-Vesque A, Bioulac-Sage P, Seror O, Blanc JF, Calderaro J, Deleuze JF, Imbeaud S, Zucman-Rossi J, Letouzé E. Nat Commun. 2018 Dec 7;9(1):5235. doi: 10.1038/s41467-018-07552-9. PMID:30531861
9: Fibroblast Growth Factor Receptor-2 Polymorphism rs2981582 is Correlated With Progression-free Survival and Overall Survival in Patients With Metastatic Clear-cell Renal Cell Carcinoma Treated With Sunitinib. Vanmechelen M, Lambrechts D, Van Brussel T, Verbiest A, Couchy G, Schöffski P, Dumez H, Debruyne PR, Lerut E, Machiels JP, Richard V, Albersen M, Verschaeve V, Oudard S, Méjean A, Wolter P, Zucman-Rossi J, Beuselinck B. Clin Genitourin Cancer. 2019 Apr;17(2):e235-e246. doi: 10.1016/j.clgc.2018.11.002. Epub 2018 Nov 16. PMID:30527746
10: Assessment of signaling pathway inhibitors and identification of predictive biomarkers in malignant pleural mesothelioma. Tranchant R, Quetel L, Montagne F, De Wolf J, Meiller C, De Koning L, Le Pimpec-Barthes F, Zucman-Rossi J, Jaurand MC, Jean D. Lung Cancer. 2018 Dec;126:15-24. doi: 10.1016/j.lungcan.2018.10.015. Epub 2018 Oct 16. PMID:30527180