Harnessing T cell immunity for the prevention and treatment of liver cancer
Author: Maravelia, Panagiota
Date: 2023-12-15
Location: Lecture Hall 9Q Månen, plan 9, Alfred Nobels allé 8, Karolinska Institutet, Flemingsberg
Time: 09.00
Department: Inst för laboratoriemedicin / Dept of Laboratory Medicine
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Thesis (1.189Mb)
Abstract
Hepatocellular carcinoma (HCC) accounts for more than 80% of all diagnosed
cases of liver cancer which is a major cause of cancer related fatalities worldwide.
With few improvements in the survival rates during the last decades, prevention
of HCC is key in reducing its burden globally. Infection with hepatitis B virus (HBV)
remains the main etiological risk factor for developing HCC whilst in HBV patients
co-infected with hepatitis D virus (HDV), the risk of developing HCC is triplicated
due to the accelerated liver disease progression. In studies I and II, we aimed to
develop a therapeutic vaccine for chronic HBV and HDV, as a preventive strategy
for HCC. In study III, we sought to unlock novel T cell-based immunotherapies, as
treatment for advanced HCC through isolation of neoantigen-driven T cell
receptors (TCRs).
In study I, we show that a homologous preS1-HDAg DNA-based vaccine strategy was able to elicit robust T cell responses to HBV and HDV antigens and entryinhibiting antibodies that could limit HBV monoinfection in liver-humanized mice. In study II, a heterologous DNA prime and protein boost preS1-HDAg vaccine strategy improved immunogenicity and could circumvent the HBV-induced tolerance present in the chronically infected host. Additionally, vaccine-induced antibodies protected liver-humanized mice against a chronic HBV/HDV coinfection and importantly they could protect HBV infected human-liver mice from HDV superinfection. In study III, we studied the cancer-specific T cell responses in patients with HCC, and we could detect T cell reactivity against mutated neoantigens in 4 out of 7 screened HCC patients. We isolated (putative) tumorreactive TCRs for further evaluation of their expression and specificity. Neoantigen-specific TCRs could be utilized to genetically redirect a substantial quantity of T cells against tumor cells, thus offering a potential new treatment for advanced HCC.
Taken together, as we continue to unravel the dynamics of the immune system and refine therapies in the context of chronic diseases, this thesis illuminates two promising T cell avenues in the form of active and passive T cell immunotherapy and provides novel insights in the development of preventive and therapeutic tools aiming at combatting liver cancer.
In study I, we show that a homologous preS1-HDAg DNA-based vaccine strategy was able to elicit robust T cell responses to HBV and HDV antigens and entryinhibiting antibodies that could limit HBV monoinfection in liver-humanized mice. In study II, a heterologous DNA prime and protein boost preS1-HDAg vaccine strategy improved immunogenicity and could circumvent the HBV-induced tolerance present in the chronically infected host. Additionally, vaccine-induced antibodies protected liver-humanized mice against a chronic HBV/HDV coinfection and importantly they could protect HBV infected human-liver mice from HDV superinfection. In study III, we studied the cancer-specific T cell responses in patients with HCC, and we could detect T cell reactivity against mutated neoantigens in 4 out of 7 screened HCC patients. We isolated (putative) tumorreactive TCRs for further evaluation of their expression and specificity. Neoantigen-specific TCRs could be utilized to genetically redirect a substantial quantity of T cells against tumor cells, thus offering a potential new treatment for advanced HCC.
Taken together, as we continue to unravel the dynamics of the immune system and refine therapies in the context of chronic diseases, this thesis illuminates two promising T cell avenues in the form of active and passive T cell immunotherapy and provides novel insights in the development of preventive and therapeutic tools aiming at combatting liver cancer.
List of papers:
I. Panagiota Maravelia, Lars Frelin, Yi Ni, Noelia Caro Perez, Gustaf Ahlen, Neetu Jagya, Georg Verch, Lieven Verhoye, Lena Pater, Magnus Johansson, Anna Pasetto, Philip Meuleman, Stephan Urban, and Matti Sallberg. ”Blocking Entry of Hepatitis B and D Viruses to Hepatocytes as a Novel Immunotherapy for Treating Chronic Infections”. J Infect Dis. 2021 Jan 4;223(1):128-138.
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II. Rani Burm*, Panagiota Maravelia*, Gustaf Ahlen, Sandra Ciesek, Noelia Caro Perez, Anna Pasetto, Stephan Urban, Freya Van Houtte, Lieven Verhoye, Heiner Wedemeyer, Magnus Johansson, Lars Frelin, Matti Sällberg, Philip Meuleman. “Novel prime-boost immune-based therapy inhibiting both hepatitis B and D virus infections”. Gut. 2023 Jun;72(6):1186-1195. *Shared contribution
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III. Panagiota Maravelia, Haidong Yao, Daniela Nascimento Silva, Curtis Cai, Yong-Chen Lu, Ola Nilsson, André Perez Potti, Francesca Gatto, Giulia Rovesti, Mattias Carlsten, Matti Sallberg, Per Stal, Carl Jorns, Marcus Buggert, Anna Pasetto. “Unlocking Novel T Cell-Based Immunotherapy for Hepatocellular Carcinoma through Neoantigen-Driven T Cell Receptor Isolation”. [Manuscript]
I. Panagiota Maravelia, Lars Frelin, Yi Ni, Noelia Caro Perez, Gustaf Ahlen, Neetu Jagya, Georg Verch, Lieven Verhoye, Lena Pater, Magnus Johansson, Anna Pasetto, Philip Meuleman, Stephan Urban, and Matti Sallberg. ”Blocking Entry of Hepatitis B and D Viruses to Hepatocytes as a Novel Immunotherapy for Treating Chronic Infections”. J Infect Dis. 2021 Jan 4;223(1):128-138.
Fulltext (DOI)
Pubmed
View record in Web of Science®
II. Rani Burm*, Panagiota Maravelia*, Gustaf Ahlen, Sandra Ciesek, Noelia Caro Perez, Anna Pasetto, Stephan Urban, Freya Van Houtte, Lieven Verhoye, Heiner Wedemeyer, Magnus Johansson, Lars Frelin, Matti Sällberg, Philip Meuleman. “Novel prime-boost immune-based therapy inhibiting both hepatitis B and D virus infections”. Gut. 2023 Jun;72(6):1186-1195. *Shared contribution
Fulltext (DOI)
Pubmed
View record in Web of Science®
III. Panagiota Maravelia, Haidong Yao, Daniela Nascimento Silva, Curtis Cai, Yong-Chen Lu, Ola Nilsson, André Perez Potti, Francesca Gatto, Giulia Rovesti, Mattias Carlsten, Matti Sallberg, Per Stal, Carl Jorns, Marcus Buggert, Anna Pasetto. “Unlocking Novel T Cell-Based Immunotherapy for Hepatocellular Carcinoma through Neoantigen-Driven T Cell Receptor Isolation”. [Manuscript]
Institution: Karolinska Institutet
Supervisor: Pasetto, Anna
Co-supervisor: Sällberg, Matti; Frelin, Lars; Ahlén, Gustaf
Issue date: 2023-11-10
Rights:
Publication year: 2023
ISBN: 978-91-8017-181-6
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