A Live Attenuated COVID-19 Candidate Vaccine for Children: Protection against SARS-CoV-2 Challenge in Hamsters.

Children are at risk of infection from severe acute respiratory syndrome coronavirus-2 virus (SARS-CoV-2) resulting in coronavirus disease (COVID-19) and its more severe forms. New-born infants are expected to receive short-term protection from passively transferred maternal antibodies from their mothers who are immunized with first-generation COVID-19 vaccines. Passively transferred antibodies are expected to wane within first 6 months of infant's life, leaving them vulnerable to COVID-19. Live attenuated vaccines, unlike inactivated or viral-protein-based vaccines, offer broader immune engagement. Given effectiveness of live attenuated vaccines in controlling infectious diseases such as mumps, measles and rubella, we undertook development of a live attenuated COVID-19 vaccine with an aim to vaccinate children beyond 6 months of age. An attenuated vaccine candidate (dCoV), engineered to express sub-optimal codons and deleted polybasic furin cleavage sites in the spike protein of the SARS-CoV-2 WA/1 strain, was developed and tested in hamsters. Hamsters immunized with dCoV via intranasal or intramuscular routes induced high levels of neutralizing antibodies and exhibited complete protection against the SARS-CoV-2 wild-type isolates, i.e., the Wuhan-like (USA-WA1/2020) and Delta variants (B.1.617.2) in a challenge study. In addition, the dCoV formulated with the marketed measles-rubella (MR) vaccine, designated as MR-dCoV, administered to hamsters via intramuscular route, also protected against both SARS-CoV-2 challenges, and dCoV did not interfere with the MR vaccine-mediated immune response. The safety and efficacy of the dCoV and the MR-dCoV against both variants of SARS-CoV-2 opens the possibility of early immunization in children without an additional injection.

Immunogenicity and efficacy comparison of MDCK cell-based and egg-based live attenuated influenza vaccines of H5 and H7 subtypes in ferrets.

During a pandemic, the availability of specific pathogen free chicken eggs is a major bottleneck for up-scaling response to the demand for influenza vaccine. This has led us to explore the use of Madin-Darby Canine Kidney (MDCK) cells for the manufacture of live attenuated influenza vaccine (LAIV) that provides production flexibility and speed. The present study reports the comparison of the immunogenicity and efficacy of two MDCK-based LAIVs against two egg-based LAIVs prepared from the same pandemic potential strains of H5 and H7 subtypes after a single dose of the vaccine followed by a challenge with a homologous wild type strain. The vaccine strains have been generated by classical method of reassortment using the A/Leningrad/134/17/57 master donor strain. Additionally, a prime-boost regimen of the MDCK-based vaccine followed by a challenge with a homologous wild type strain for H5 and H7 immunized ferrets and also a heterologous wild type strain for the H5 immunized animals was studied. No difference in the hemagglutination inhibition and virus neutralization antibody titers against the homologous virus was observed following a single dose of either egg-based or MDCK-based H5 and H7 LAIV vaccine. A second dose of MDCK-based vaccine significantly boosted antibody titers in the vaccinated animals. Both a single dose or two doses of LAIV provided complete protection from lower respiratory tract infection and resulted in a significant reduction in the virus titers recovered from the throat, nasal turbinates and lungs after challenge with the homologous wild type strain. Protection from a challenge with a heterologous strain of H5 was also observed after two doses of the MDCK-based LAIVs. This data strongly supports the use of MDCK as a substrate for the manufacture of LAIV which ensures reliable quality, safety, production flexibility, speed and breadth of protection, features that are highly critical during a pandemic.

Immunogenicity and efficacy of the monovalent, trivalent and quadrivalent intranasal live attenuated influenza vaccines containing different pdmH1N1 strains.

A ferret challenge study was conducted to address the efficacy of the egg-based and Madin-Darby canine kidney (MDCK)-based live attenuated influenza vaccine (LAIV) strains. Vaccines derived as 6:2 reassortants from the A/Leningrad/134/17/57 master donor strain and the HA and NA components from the A/California/07/2009 (A/Cal)- and A/Michigan/45/2015 (A/Mich)-like strains of type A H1N1 influenza virus were used in the study. Monovalent, trivalent and quadrivalent formulations of the LAIV containing either of the two H1N1 strains were analysed. A total of ten groups of six animals each were immunised intranasally (i.n.) with a single dose of 0.5-ml vaccine formulation or placebo and challenged on day 28 with the homologous wild-type A/Cal or A/Mich strain. Immune response post immunisation and virus replication post challenge were studied. Both the strains derived from embryonated eggs or MDCK cells, irrespective of the vaccine valency, were capable of rendering complete protection from virus replication in the lung. The A/Mich vaccine strain showed higher immune titres and efficacy than the A/Cal vaccine strain in all the vaccine formulations. The haemagglutination inhibition and virus neutralisation antibody titres were induced, and the reduction in the virus load in the respiratory tract was observed to be higher in animals treated with the monovalent formulation compared to the trivalent and quadrivalent formulations. Overall, it appears that the monovalent formulations render better protection from infection and would therefore be the best candidate during a pandemic.

Development and validation of an egg-based potency assay for a trivalent live attenuated influenza vaccine.

Live attenuated influenza vaccines (LAIVs) targeting seasonal influenza are produced in embryonated eggs and formulated as a trivalent preparation of three live attenuated vaccine strains, one A(H1N1) strain, one A(H3N2) strain and one type B strain. In this study, we describe an egg-based potency assay for estimating the 50% Egg infectious dose (EID50) of individual strains in the trivalent preparation by selective neutralisation of two strains and then estimating the infective titres of the non-neutralised strain. The test is highly specific, and no cross interference of heterologous antisera is observed in the estimation of individual titres. Individual strains with titres in the range of 6.5-7.0 log EID50 per 0.5 ml show intra-assay and inter-assay coefficients of variance ranging from 1.25% to 2.95%. This assay was developed to establish a simple, reliable and inexpensive egg-based assay for estimating the potency of individual strains in a trivalent preparation.