Mr. Savard is a full professor in the department of Molecular Biology, Medical Biochemistry, and Pathology of the Laval University School of Medicine. He teaches molecular genetics, critical analysis of publications, and is in charge of all the research internships in the Biomedical Science Program.
In terms of research, Professor Savard focuses on a TLR7/8 agonist (thereafter indicated by the acronym PAL) able to activate both the innate and adaptive responses of the immune system. Mid-term research objectives are (i) to develop a large-spectrum prophylactic vaccine to influenza viruses, and (ii) to improve the therapeutic antitumoral response induced by a new class of drugs able to release the obstacle that prevents cytotoxic T lymphocytes from attacking tumor cells.
PAL is a nanoparticle that is derived from recombinant DNA technology and mimics the physical properties of the papaya mosaic virus. The product is specifically captured by the cells of the immune system and, once within the endosome, it releases a RNA molecule that activates TLR7/8. This mechanism of action is of great interest for the pharmaceutical industry. PAL has demonstrated that it is well tolerated by humans during a Phase I clinical trial where its administration was combined with a flu vaccine. Other clinical trials are in preparation to assess the clinical benefits of PAL administration in cancer immunotherapy.
Mr. Savard is actively involved in the Québec scientific community. His main contributions are the development of the Human Resources Services and the Health and Safety Program of the Research Center (President of the Société de Gestion du Personnel du CRCHU de Québec and Co-President of the Comité Paritaire de Santé et Sécurité du travail au CRCHU de Québec – Laval University).
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A Randomized Controlled Study to Evaluate the Safety and Reactogenicity of a Novel rVLP-Based Plant Virus Nanoparticle Adjuvant Combined with Seasonal Trivalent Influenza Vaccine Following Single Immunization in Healthy Adults 18-50 Years of Age.Journal Article
Vaccines (Basel), 8 (3), 2020, ISSN: 2076-393X.
Increased Immunogenicity of Full-Length Protein Antigens through Sortase-Mediated Coupling on the PapMV Vaccine Platform.Journal Article
Vaccines (Basel), 7 (2), 2019, ISSN: 2076-393X.
Activation of innate immunity in primary human cells using a plant virus derived nanoparticle TLR7/8 agonist.Journal Article
Nanomedicine, 14 (7), pp. 2317-2327, 2018, ISSN: 1549-9634.
The quest for a nanoparticle-based vaccine inducing broad protection to influenza viruses.Journal Article
Nanomedicine, 14 (8), pp. 2563-2574, 2018, ISSN: 1549-9634.
A versatile papaya mosaic virus (PapMV) vaccine platform based on sortase-mediated antigen coupling.Journal Article
J Nanobiotechnology, 15 (1), pp. 54, 2017.
Complement Component 3 Regulates IFN-α Production by Plasmacytoid Dendritic Cells following TLR7 Activation by a Plant Virus-like Nanoparticle.Journal Article
J Immunol, 198 (1), pp. 292-299, 2017, ISSN: 0022-1767.
Efficacy of a Virus-Like Nanoparticle As Treatment for a Chronic Viral Infection Is Hindered by IRAK1 Regulation and Antibody Interference.Journal Article
Front Immunol, 8 , pp. 1885, 2017, ISSN: 1664-3224.
Influence of PapMV nanoparticles on the kinetics of the antibody response to flu vaccine.Journal Article
J Nanobiotechnology, 14 (1), pp. 43, 2016.
Potentiating Cancer Immunotherapy Using Papaya Mosaic Virus-Derived Nanoparticles.Journal Article
Nano Lett, 16 (3), pp. 1826-32, 2016, ISSN: 1530-6984.
Engineering of the PapMV vaccine platform with a shortened M2e peptide leads to an effective one dose influenza vaccine.Journal Article
Vaccine, 33 (51), pp. 7245-7253, 2015, ISSN: 0264-410X.
- Centre de recherche du CHU de Québec - Université Laval, Subvention, Centre hospitalier universitaire de Québec - Université Laval, Centres de recherche affiliés, from 2017-01-01 to 2099-12-31