Efficacy, Safety and Immunogenicity Evaluation of MTBVAC in Newborns in Sub-Saharan Africa (MTBVACN3)

A new effective tuberculosis (TB) vaccine is essential to achieve World Health Organization End TB goals and eliminate TB by 2050. The optimal long-term strategy would be a combination of serial mass campaigns in adults, coupled with universal newborn vaccination. Newborns are the only human population without prior mycobacterial exposure in TB endemic countries and we hypothesize that live attenuated mycobacterial vaccines will offer better protection to this naïve population compared to adults.

The objective of this project is to demonstrate safety, immunogenicity and improved efficacy of the new live attenuated M. tuberculosis vaccine called MTBVAC in a Phase 3 efficacy trial in HIV-uninfected infants born to HIV-infected and HIV-uninfected mothers as compared to standard of care BCG vaccination. The proposal builds upon a group of TB vaccine development partners in Europe and sub-Saharan Africa established in a previous EDCTP-supported project. It creates an expanded consortium of clinical trial partners for the optimal implementation of a large infant efficacy trial of MTBVAC in high TB incidence settings. New capacity for efficacy trials in infants will be a valuable resource for the TB vaccine development community. The proposal will create a network of institutions in three TB endemic African countries with enhanced laboratory capacity to conduct TB vaccine immunology studies and to bio-bank samples to discover immune correlates of vaccine-mediated protection.

MTBVAC is a novel TB vaccine candidate based on an attenuated M. tuberculosis clinical isolate of the Euro-American lineage. Attenuation is based on two independent, stable genetic deletions of the genes phoP and fadD26 coding for two major virulence factors, the transcription factor PhoP and the cell-wall lipids PDIM, respectively. The hypothesis is that MTBVAC will provide improved protection, as individuals latently infected with live M.tuberculosis have an 80% lower chance of developing TB, and as MTBVAC contains most of the genes deleted from BCG and presents a wider collection of antigens to the host immune system. Preclinical studies in different animal models indicated that MTBVAC is safe and is able to induce an improved protection compared to BCG.

Phase 1 studies showed that MTBVAC was safe and immunogenic in naïve adults and newborns, and evoked an immune response that exceeded the magnitude of BCG-induced immune responses. Larger dose-defining Phase 2a studies in newborns and in adults at extended dose-ranges to confirm these findings will be finalised in early 2021, and allow selection of a vaccine dose to progress into the proposed multi-centre efficacy trial in infants.