Establishing Galleria mellonella, the larvae of the greater wax moth, as a model for mycobacterial infections to assess existing and novel treatment

Galleria mellonella, the larvae of the greater wax moth, are cheap, practical and readily-available organisms which can be utilised for a comprehensive range of experimental protocols. They are valuable in vivo intermediaries between in vitro studies and models which require greater investments of time, equipment, and ethical approval. Larvae exhibit cellular and humoral immune responses with structural and functional similarities to mammals. They are ideal for high-throughput screens of pathogens, antimicrobials, toxicity tests, and novel treatments. In this thesis, G. mellonella was used with a range of Mycobacterium species and strains. Mycobacteria represent a unique challenge as they are intrinsically resistant to antibiotics, “hide” from immune responses, and interact directly with immune cells. Mycobacterium tuberculosis, the causative agent in tuberculosis, has infected billions of humans and is notoriously difficult to study due to its slow generation time and ability to infect immunocompetent humans. Hence, using related Mycobacterial species allows assessment of this genus with minimal risk and inconvenience. Using these bacteria in tandem with a simple, easily used in vivo model allows for ... (continues)