October 29, 2019

GSK candidate vaccine demonstrates sustained level of protection against active pulmonary tuberculosis

Final results confirm the innovative TB candidate vaccine’s efficacy level and acceptable safety profile in three-year clinical trial conducted in sub-Saharan African regions.

Oslo IAVI GSK logos

Final analysis of Phase IIb study published in the New England Journal of Medicine and presented at the 50th Union World Conference on Lung Health.

LONDON – 29 October, 2019 – Today, GSK and IAVI reported that GSK’s M72/AS01E1 candidate vaccine significantly reduced the incidence of pulmonary tuberculosis disease (TB) in HIV-negative adults with latent TB infection2. These results demonstrate an overall vaccine efficacy of 50% during the three years after vaccination. The candidate vaccine has an acceptable safety and reactogenicity profile. The final results are consistent with the primary analysis done after two years of follow-up and published in New England Journal of Medicine in September 2018.

TB is the leading cause of death through infectious disease worldwide and represents a significant public health threat with 1.5 million attributed deaths in 20183. It is estimated that one-quarter of the global population has latent TB infection, of whom approximately 10% will develop active pulmonary TB disease. Currently, multi-drug resistant strains of TB are emerging and spreading globally, and the only available TB vaccine, BCG, does not provide proven and consistent protection in adults in TB-endemic countries4. Without a more effective vaccine, it will not be possible to achieve the World Health Organization target of decreasing the number of new cases by 90% and the number of TB deaths by 95% between 2015 and 2035.

Dr Thomas Breuer, Chief Medical Officer of GSK Vaccines, said: “These results demonstrate that for the first time in almost a century, the global community potentially has a new tool to help provide protection against TB. I want to thank our scientists for their dedicated effort and scientific innovation in developing this impactful vaccine candidate in partnership with IAVI and other key organisations.”

Girl playing in IndiaPhoto credit: IAVI

The trial was conducted in TB-endemic regions (Kenya, South Africa and Zambia) and involved 3,573 HIV-negative adults between the ages of 18 and 50 years. Participants who received two doses of either M72/AS01E or placebo 30 days apart were followed for three years to detect evidence of pulmonary tuberculosis disease. In the final analysis, 13 participants in the vaccine group developed active pulmonary tuberculosis compared to 26 participants in the placebo group. Among participants who received the vaccine, an increased M72-specific immune response was sustained through three years.

Dr Mark Feinberg, President and CEO of IAVI, said: “These final results show that M72/AS01E could be an important tool in the fight against pulmonary tuberculosis. While additional trials need to be conducted to confirm these findings in other populations, we have never before seen a vaccine that provides protection in adults who are already infected with the bacteria that cause tuberculosis.”

About the study

The study was sponsored by GSK and conducted in partnership with IAVI. Funders of IAVI for this study were the Bill & Melinda Gates Foundation, the United Kingdom’s Department for International Development, the Directorate General for International Cooperation in the Netherlands, and the Australian Agency for International Development.

This study was a phase IIb, multicentre, randomized, double-blind, placebo-controlled study comparing the candidate vaccine M72/AS01E to a placebo in a 1:1 ratio. It was conducted in tuberculosis-endemic regions, at 11 sites in Kenya, South Africa and Zambia5 (www.clinicaltrials.gov NCT01755598). The primary objective of the study was to investigate if the M72/AS01E candidate vaccine prevents adults with latent Mycobacterium tuberculosis infection from developing pulmonary tuberculosis disease. The study also evaluated the safety, reactogenicity and immunogenicity of the M72/AS01E candidate vaccine.

The primary results of this study were published in September 2018 in the New England Journal of Medicine (DOI: NEJMdo005415). The primary analysis was performed while the study team remained blinded to individual trial group assignment, whereas the final analysis was now performed under fully unblinded conditions. The study’s final results confirmed the previously reported clinically acceptable safety profile of M72/AS01E. No patterns were evident in the extended follow-up in terms of occurrence or nature of serious adverse events, fatal events or potential immune-mediated diseases over the study period.

Nearly all participants (99%) in the study consented to enter into a biobanking study sponsored by IAVI. The samples collected during this study will allow researchers to further investigate the potential vaccine-induced mechanisms of protection against tuberculosis and attempt to identify markers that indicate those who are protected by vaccine (www.clinicaltrials.gov NCT02097095).

About the vaccine candidate

GSK’s M72/AS01E candidate vaccine contains the M72 recombinant fusion protein, derived from two Mycobacterium tuberculosis antigens (Mtb32A and Mtb39A), combined with the Adjuvant System AS01, which is also a component of GSK’s RTS,S malaria vaccine and vaccine against shingles, Shingrix.

About tuberculosis

One-quarter of the global population is estimated to have latent tuberculosis infection, and tuberculosis is the leading infectious cause of death worldwide. There were an estimated 10 million new tuberculosis cases and 1.5 million deaths attributed to tuberculosis in 20186,7. Pulmonary tuberculosis, which involves the lung, is responsible for the spread of the disease from person-to-person. An effective vaccine against tuberculosis administered in adolescents and adults would have a marked impact on tuberculosis control, including drug-resistant tuberculosis, through interruption of transmission8,9, and it would help achieve the WHO target of ending the tuberculosis epidemic by 2035.

About GSK

GSK is a science-led global healthcare company with a special purpose: to help people do more, feel better, live longer. For further information please visit www.gsk.com.

GSK enquiries:

UK Media: Simon Moore +44 (0) 20 8047 5502 (London)
US Media: Evan Berland +1 215 751 5497 (Philadelphia)
Analyst/Investor:
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Jeff McLaughlin +1 215 751 7002 (Philadelphia)

Cautionary statement regarding forward-looking statements
GSK cautions investors that any forward-looking statements or projections made by GSK, including those made in this announcement, are subject to risks and uncertainties that may cause actual results to differ materially from those projected. Such factors include, but are not limited to, those described under Item 3.D ‘Principal risks and uncertainties’ in the company’s Annual Report on Form 20-F for 2018.

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  1. The GSK proprietary AS01 adjuvant system contains QS-21 Stimulon® adjuvant licensed from Antigenics LLC, a wholly owned subsidiary of Agenus Inc. (NASDAQ: AGEN), MPL and liposomes
  2. WHO, Latent tuberculosis infection: updated and consolidated guidelines for programmatic management, 2018
  3. WHO, Global Tuberculosis Report, 2019
  4. WHO, Weekly Epidemiological Record, 23 February 2019, vol.93 (pp73-96) : BCG vaccines, WHO position paper
  5. Sites in South Africa: SATVI, Task, Setshaba, Aurum-Klerksdorp, Aurum-Tembisa, PHRU, CIDRI, and Be Part; sites in Zambia: CIDRZ and Zambart; and site in Kenya: KEMRI.
  6. Houben RM, Dodd PJ. The Global Burden of Latent Tuberculosis Infection: A Reestimation Using Mathematical Modelling. PLoS Med 2016;13:e1002152
  7. WHO. Global Tuberculosis Report, 2019
  8. Dheda K, Gumbo T, Maartens G, et al. The epidemiology, pathogenesis, transmission, diagnosis, and management of multidrug-resistant, extensively drug-resistant, and incurable tuberculosis. Lancet Respir Med 2017; 5:291-360
  9. Harris RC, Sumner T, Knight GM, White RG. Systematic review of mathematical models exploring the epidemiological impact of future TB vaccines. Hum Vaccin Immunother 2016;12:2813-32