Unearthing immune responses to common drugs
Australian researchers are a step closer to understanding immune sensitivities to well-known, and commonly prescribed, medications.
Many drugs are successfully used to treat diseases, but can also have harmful side effects. While it has been known that some drugs can unpredictably impact on the functioning of the immune system, our understanding of this process has been unclear.
The team investigated what drugs might activate a specialised type of immune cell, the MAIT cell (Mucosal associated invariant T cell). They found that some drugs prevented the MAIT cells from detecting infections (their main role in our immune system), while other drugs activated the immune system, which may be undesirable.
The results, published today in Nature Immunology, may lead to a much better understanding of, and an explanation for, immune reactions by some people to certain kinds of drugs. The findings may also offer a way to control the actions of MAIT cells in certain illnesses for more positive patient outcomes.
The multidisciplinary team of researchers are part of the ARC Centre of Excellence in Advanced Molecular Imaging, and stem from Monash University, The University of Melbourne and The University of Queensland. Access to national research infrastructure, including the Australian synchrotron, was instrumental to the success of this Australian research team.
Dr Andrew Keller from Monash University’s Biomedicine Discovery Institute said that T cells are an integral part of the body’s immune system.
“They protect the body by ‘checking’ other cells for signs of infection and activating the immune system when they detect an invader,” he said.
“This arrangement is dependent on both the T cells knowing what they’re looking for, and the other cells in the body giving them useful information.”
PhD student Weijun Xu from The University of Queensland’s Institute for Molecular Bioscience used computer modelling to predict chemical structures, drugs and drug-like molecules that might impact on MAIT cell function. Such small compounds included salicylates, non-steroidal anti-inflammatory drugs like diclofenac, and drug metabolites.
University of Melbourne Dr Sidonia Eckle from the Peter Doherty Institute for Infection and Immunity said the implications point to possible links between known drug hypersensitivities and MAIT cells.
“A greater understanding of the interaction between MAIT cells and other host cells will hopefully allow us to better predict and avoid therapeutics that influence and cause harm,” she said.
“It also offers the tantalising prospect of future therapies that manipulate MAIT cell behaviour, for example, by enhancing or suppressing immune responses to achieve beneficial clinical outcome.”
About the Australian Research Council Centre of Excellence in Advanced Molecular Imaging
The $39 million ARC-funded Imaging CoE develops and uses innovative imaging technologies to visualise the molecular interactions that underpin the immune system. Featuring an internationally renowned team of lead scientists across five major Australian Universities and academic and commercial partners globally, the Centre uses a truly multi scale and programmatic approach to imaging to deliver maximum impact.The Imaging CoE is headquartered at Monash University with four collaborating organisations – La Trobe University, the University of Melbourne, University of New South Wales and the University of Queensland.
About the Peter Doherty Institute for Infection and Immunity
Finding solutions to prevent, treat and cure infectious diseases and understanding the complexities of microbes and the immune system requires innovative approaches and concentrated effort. This is why the University of Melbourne – a world leader in education, teaching and research excellence – and The Royal Melbourne Hospital – an internationally renowned institution providing outstanding care, research and learning – have partnered to create the Peter Doherty Institute for Infection and Immunity; a centre of excellence where leading scientists and clinicians collaborate to improve human health globally.
About The University of Queensland’s Institute for Molecular Bioscience
UQ’s IMB is a leading multidisciplinary life sciences institute working to advance scientific knowledge and deliver new health and industry applications. IMB has six research centres focusing on sustainable futures, pain, heart disease, inflammation, superbug infection, and the interplay of genetics and disease. These research centres bring together academic, industry and clinical collaborators to make and translate discoveries for disease applications.