A multi-valent vaccinia virus-based tuberculosis vaccine molecularly adjuvanted with interleukin-15 induces robust immune responses in mice

Abstract

Tuberculosis caused by Mycobacterium tuberculosis is responsible for nearly two million deaths every year globally. A single licensed vaccine derived from Mycobacterium bovis, bacille Calmette-Guerin (BCG) administered perinatally as a prophylactic vaccine has been in use for over 80 years and confers substantial protection against childhood tuberculous meningitis and miliary tuberculosis. However, the BCG vaccine is virtually ineffective against the adult pulmonary form of tuberculosis that is pivotal in the transmission of tuberculosis that has infected almost 33% of the global population. Thus, an effective vaccine to both prevent tuberculosis and reduce its transmission is urgently needed. We have generated a multi-valent, vectored vaccine candidate utilizing the modified virus Ankara (MVA) strain of vaccinia virus to tandemly express five antigens, ESAT6, Ag85A, Ag85B, HSP65 and Mtb39A of M. tuberculosis that have been reported to be protective individually in certain animal models together with an immunostimulatory cytokine interleukin-15 (MVA/IL-15/5Mtb). Although, immunological correlates of protection against tuberculosis in humans remain to be established, we demonstrate that our vaccine induced comparable CD4 + T cell and greater CD8 + T cell and antibody responses against M. tuberculosis in vaccinated mice in a direct comparison with the BCG vaccine and conferred protection against an aerogenic challenge of M. tuberculosis, thus warranting its further preclinical development.