The immune response is a complex and highly specific system that is difficult to study using non-human models. Despite this, many immune related studies have been performed with standard laboratory mice and guinea pigs. This has resulted in several examples of poor correlation between mice and human immune data. Recent advances in 3D organoid cultures (miniature versions of an organ that are grown in the laboratory) has led to the development of as tonsil organoids that can recapitulate the human immune response. This offers a great opportunity to ethically study the immune response in different disease settings while reflecting the natural variation observed in the human population. Understanding these factors is important for the development of vaccines against pathogens and potential therapeutic treatments.
Validating and optimising a human tonsil organoid model to study the human immune response against human pathogens
In the image above, single-cell suspensions were cryopreserved from tonsil explants and added to transwell plates. Upon culturing, the single-cells self-organise and aggregate, forming organoids
We will optimise and validate a human immune - and epithelial tonsillar organoid system that can replicate the complexity of the adaptive and innate immune response in vitro, allowing a more ethical and economical tool for studying human immunity.
We have a biobank of human donated single cell suspended tonsils and will use SARS-CoV-2, hepatitis C virus and malaria parasites as model pathogens. We will add our model pathogen antigens to the organoids and then measure levels of antigen-specific IgG and neutralisation. We will also perform single cell RNA sequencing on B cell receptors and T cell receptors using the BD Rhapsody sequencing platform which will allow us to study clonal distribution in the organoid.
Ideally, this immune organoid system will become an invaluable tool to investigate the mechanisms involved in human immune responses and accelerate vaccine design.
Project Lead:
Dr Melanie Walker is an Early Career Research Fellow with UNSW Sydney, Postdoctoral fellow, Viral Immunology Systems Program (VISP), SBMS, UNSW
Co Researchers:
- A/Prof Rowena Bull, Viral Immunology Systems Program (VISP), SBMS, UNSW
- Dr Shafagh Waters, Senior Lecturer, SBMS, UNSW
- Jem Murdoch, PhD candidate, Baum Lab, SBMS, UNSW
- Prof Jake Baum, Baum Lab, SBMS, UNSW
- Prof Nicodemus Tedla, Viral Immunology Systems Program (VISP), SBMS, UNSW
- Dr Raymond Louie, School of Computer Science and Engineering, UNSW
School of Biomedical Sciences SBMS
Melanie is part of the Viral Immunology Systems Program. VISP