Comparative Efficacy of Parenteral and Mucosal Recombinant Probiotic Vaccines Against SARS-CoV-2 and <i>S. pneumoniae</i> Infections in Animal Models
Galina Leontieva,
Tatiana Kramskaya,
Tatiana Gupalova,
Elena Bormotova,
Yulia Desheva,
Dmitry Korzhevsky,
Olga Kirik,
Irina Koroleva,
Sergey Borisevitch,
Alexander Suvorov
Affiliations
Galina Leontieva
Scientific and Educational Center “Molecular Bases of Interaction of Microorganisms and Human” of the World-Class Research Center “Center for Personalized Medicine”, Federal State Budgetary Scientific Institution «Institute of Experimental Medicine» (FSBSI «IEM»), 197376 Saint Petersburg, Russia
Tatiana Kramskaya
Scientific and Educational Center “Molecular Bases of Interaction of Microorganisms and Human” of the World-Class Research Center “Center for Personalized Medicine”, Federal State Budgetary Scientific Institution «Institute of Experimental Medicine» (FSBSI «IEM»), 197376 Saint Petersburg, Russia
Tatiana Gupalova
Scientific and Educational Center “Molecular Bases of Interaction of Microorganisms and Human” of the World-Class Research Center “Center for Personalized Medicine”, Federal State Budgetary Scientific Institution «Institute of Experimental Medicine» (FSBSI «IEM»), 197376 Saint Petersburg, Russia
Elena Bormotova
Scientific and Educational Center “Molecular Bases of Interaction of Microorganisms and Human” of the World-Class Research Center “Center for Personalized Medicine”, Federal State Budgetary Scientific Institution «Institute of Experimental Medicine» (FSBSI «IEM»), 197376 Saint Petersburg, Russia
Yulia Desheva
Scientific and Educational Center “Molecular Bases of Interaction of Microorganisms and Human” of the World-Class Research Center “Center for Personalized Medicine”, Federal State Budgetary Scientific Institution «Institute of Experimental Medicine» (FSBSI «IEM»), 197376 Saint Petersburg, Russia
Dmitry Korzhevsky
Federal State Budgetary Science Institute “IEM”, 197376 Saint Petersburg, Russia
Olga Kirik
Scientific and Educational Center “Molecular Bases of Interaction of Microorganisms and Human” of the World-Class Research Center “Center for Personalized Medicine”, Federal State Budgetary Scientific Institution «Institute of Experimental Medicine» (FSBSI «IEM»), 197376 Saint Petersburg, Russia
Irina Koroleva
Scientific and Educational Center “Molecular Bases of Interaction of Microorganisms and Human” of the World-Class Research Center “Center for Personalized Medicine”, Federal State Budgetary Scientific Institution «Institute of Experimental Medicine» (FSBSI «IEM»), 197376 Saint Petersburg, Russia
Sergey Borisevitch
Federal State Budgetary Institution 48th Central Research Institute of the Ministry of Defense of the Russian Federation, 141306 Moscow, Russia
Alexander Suvorov
Scientific and Educational Center “Molecular Bases of Interaction of Microorganisms and Human” of the World-Class Research Center “Center for Personalized Medicine”, Federal State Budgetary Scientific Institution «Institute of Experimental Medicine» (FSBSI «IEM»), 197376 Saint Petersburg, Russia
Background: The accumulation of specific IgG antibodies in blood serum is considered a key criterion for the effectiveness of vaccination. For several vaccine-preventable infections, quantitative indicators of the humoral response have been established, which, when reached, provide a high probability of protection against infection. The presence of such a formal correlate of vaccine effectiveness is crucial, for example, in organizing preventive measures and validating newly developed vaccines. However, can effective protection against infection occur when the level of serum antibodies is lower than that provided by parenteral vaccination? Will protection be sufficient if the same vaccine antigen is administered via mucosal membranes without achieving high levels of specific IgG circulating in the blood? Methods: In this study, we compared the immunogenicity and protective efficacy of parenteral and mucosal forms of vaccines in experimental animals, targeting infections caused by the SARS-CoV-2 coronavirus and Streptococcus pneumoniae. We investigated the protective properties of a fragment of the coronavirus S1 protein administered intramuscularly with an adjuvant and orally as part of the probiotic strain Enterococcus faecium L3 in a Syrian hamster model. A comparative assessment of the immunogenicity and protective efficacy of a recombinant tandem (PSP) of immunogenic peptides from S. pneumoniae surface proteins, administered either parenterally or orally, was performed in a Balb/c mouse model. Results: Both models demonstrated significant differences in the immunogenicity of parenteral and oral vaccine antigens, but comparable protective efficacy.
