Pfizer Inc. and BioNTech SE announced preliminary preclinical data in mouse and non-human primate models from their BNT162b2 mRNA-based vaccine program against SARS-CoV-2, the virus that causes COVID-19 disease. In a non-human primate preclinical study, immunization with BNT162b2, a nucleoside-modified messenger RNA (modRNA) candidate, protected rhesus macaques against SARS-CoV-2 infection. The manuscript describing these preclinical data is available on the preprint server bioRxiv and is concurrently undergoing scientific peer-review for potential publication.
“Collectively, these preclinical results, combined with our clinical data collected to date, continue to support the promise and validity of our mRNA-based vaccine program against SARS-CoV-2 and selection of the BNT162b2 candidate, which we believe has the potential to prevent many millions of COVID-19 cases,” said Kathrin U. Jansen, Ph.D., Senior Vice President and Head of Vaccine Research & Development, Pfizer. “We are encouraged by the data thus far and confident in our progress towards developing a safe and effective vaccine candidate to help address this current pandemic.”
“The data we have shared today include the characterization of our lead candidate BNT162b2 as well as key animal studies that were the basis for our clinical programs. They have enabled us to advance BNT162b2 into Phase 3 evaluation,” said Ugur Sahin, M.D., CEO and Co-founder of BioNTech. “This is another development milestone for providing a safe and effective potential vaccine to the global community to help end this pandemic.”
In the preclinical study, BNT162b2 demonstrated protective anti-viral effects in rhesus macaques, with concomitant high neutralizing antibody titers and a TH1-biased cellular response in rhesus macaques and mice. In a viral infection model, macaques that received two injections with 100 µg BNT162b2 and macaques that received saline control injections were challenged 55 days after the second immunization with a very high viral inoculum of approximately 1 million plaque-forming units of SARS-CoV-2, via both intranasal (nose) and intratracheal (lung) routes. Immunization with BNT162b2 reduced viral infection with no viral RNA detected in the lower respiratory tract of the immunized animals, while in most non-immunized (saline) animals, there was evidence of viral RNA.
Importantly, BNT162b2 induced potent SARS-CoV-2 neutralizing antibodies in vaccinated-macaques, and viral antigen-specific CD4+ and CD8+ T cells. Rhesus macaques (2- to 4-year-old males) were immunized by intramuscular (IM) immunization with 30 µg or 100 µg of BNT162b2 or saline control on Days 0 and 21 (2 doses). After two immunizations, neutralization titers were detectable in rhesus sera with geometric mean titers of 962 (on Day 35 for the 30 µg group) or 1,689 (on Day 28 for the 100 µg group). Neutralizing antibody titers persisted to at least day 56, with higher geometric mean titers (GMTs) than those in a panel of human convalescent sera. BNT162b2 vaccination elicited a high frequency of CD4+ T cells that produced IFN-ɣ, IL-2, and TNF-α, and almost no IL-4 producing CD4+ cells were detectable, indicating a TH1-biased response, which is an immune profile thought to promote vaccine safety. BNT162b2 also elicited spike-specific IFN-ɣ-producing CD8+ T cell responses, which is thought to promote an anti-viral effect.
In a preclinical murine model, a single IM immunization of BNT162b2 (0.2, 1, or 5 µg) generated B- cell and T- cell immune responses in BALB/c mice, and SARS-CoV-2 pseudovirus neutralizing activity increased steadily to Day 28, the last day for which titers are reported. CD4+ and CD8+ T- cells from splenocytes isolated from BNT162b2-immunized mice were strongly positive for IFN-ɣ and IL-2, producing high levels of the TH1 cytokines but minute amounts of TH2 cytokines, suggesting a robust, TH1-biased T cell adaptive immune response.
Many of these preclinical data and the Phase 1 clinical results contributed to the decision by Pfizer and BioNTech to commence the global (except for China) Phase 2/3 safety and efficacy portion of clinical study C4591001 to evaluate potential prevention of COVID-19 disease by BNT162b2. The Phase 2/3 study has enrolled over 25,000 participants 18 to 85 years of age in the U.S., Argentina, and Brazil. Additional enrollment is planned in Germany, Turkey and South Africa. The study is an event-driven trial.
Pfizer and BioNTech are committed to decreasing health disparities in underrepresented populations through the clinical trial process. To that end, many investigator sites are in diverse communities that have been disproportionately affected by COVID-19 so that individuals who have been most impacted have the opportunity to participate. The companies are also working together with investigator sites and advocacy partners to raise awareness about the importance of participation in this trial.
BNT162b2 remains under clinical study and is not currently approved for distribution anywhere in the world. Assuming clinical success, Pfizer and BioNTech are on track to seek regulatory review for BNT162b2 as early as October 2020 and, if regulatory authorization or approval is obtained, currently plan to supply up to 100 million doses worldwide by the end of 2020 and approximately 1.3 billion doses by the end of 2021.
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Pfizer Disclosure Notice
The information contained in this release is as of September 9, 2020. Pfizer assumes no obligation to update forward-looking statements contained in this release as the result of new information or future events or developments.
This release contains forward-looking information about Pfizer’s efforts to combat COVID-19, the collaboration between BioNTech and Pfizer to develop a potential COVID-19 vaccine, the BNT162 mRNA vaccine program, and modRNA candidate BNT162b2 (including qualitative assessments of available data, potential benefits, expectations for clinical trials and timing of regulatory submissions, and anticipated manufacturing, supply and distribution), that involves substantial risks and uncertainties that could cause actual results to differ materially from those expressed or implied by such statements. Risks and uncertainties include, among other things, the uncertainties inherent in research and development, including the ability to meet anticipated clinical endpoints, commencement and/or completion dates for clinical trials, regulatory submission dates, regulatory approval dates and/or launch dates, as well as risks associated with preliminary data, including the possibility of unfavorable new preclinical or clinical trial data and further analyses of existing preclinical or clinical trial data that may be inconsistent with the data used for selection of the BNT162b2 vaccine candidate and dose level for the Phase 2/3 study; the risk that clinical trial data are subject to differing interpretations and assessments, including during the peer review/publication process, in the scientific community generally, and by regulatory authorities; whether and when data from the BNT162 mRNA vaccine program will be published in scientific journal publications and, if so, when and with what modifications; whether regulatory authorities will be satisfied with the design of and results from these and future preclinical and clinical studies; whether and when any biologics license and/or emergency use authorization applications may be filed in any jurisdictions for BNT162b2 or any other potential vaccine candidates; whether and when any such applications may be approved by regulatory authorities, which will depend on myriad factors, including making a determination as to whether the vaccine candidate’s benefits outweigh its known risks and determination of the vaccine candidate’s efficacy and, if approved, whether it will be commercially successful; decisions by regulatory authorities impacting labeling, manufacturing processes, safety and/or other matters that could affect the availability or commercial potential of a vaccine, including development of products or therapies by other companies; manufacturing capabilities or capacity, including whether the estimated numbers of doses can be manufactured within the projected time periods indicated; whether and when additional supply agreements will be reached; uncertainties regarding the ability to obtain recommendations from vaccine technical committees and other public health authorities and uncertainties regarding the commercial impact of any such recommendations; and competitive developments.
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