23 Aug 2019
Dietary zinc protects against Streptococcus pneumoniae infection
Researchers have uncovered a crucial link between dietary zinc intake and protection against Streptococcus pneumoniae, the primary bacterial cause of pneumonia.
The image are elemental bio-images of mouse lungs during Streptococcus pneumoniae infection. The image show increased zinc levels (orange to red regions) mobilised by the innate immune response to sites where the bacteria has invaded. Credit: Philip A. Doble and Christopher A. McDevitt Copyright: We approve of the CC BY license being applied to this content.
Globally, it is estimated that nearly two billion people suffer from zinc deficiency, but why this increases susceptibility to bacterial infection has not been well understood – until now.
University of Melbourne Associate Professor Christopher McDevitt, a laboratory head at the Doherty Institute, led an interdisciplinary team using state-of-the-art imaging techniques to reveal how the immune system uses zinc as an antimicrobial for protection during attack by Streptococcus pneumoniae.
Published today in PLOS Pathogens, the team which included University of Adelaide Research Fellow Dr Bart Eijkelkamp, from the Research Centre for Infectious Diseases compared infections in mice fed with different levels of zinc.
They found that mice with lower zinc intake succumbed to infection up to three times faster because their immune systems had insufficient zinc to aid in killing the bacteria.
“Dietary zinc is associated with immune function and resistance to bacterial infection, but how it provides protection has remained elusive,” Dr Eijkelkamp said.
“Our work shows that zinc is mobilised to sites of infection where it stresses the invading bacteria and helps specific immune cells kill Streptococcus pneumoniae.”
This work also translated its findings to human health by showing that specific human immune cells could use zinc to enhance their killing of invading Streptococcus pneumoniae.
“The findings in this paper are a direct result of application of novel elemental imaging technology to uncover relationships that have previously been hidden to analysis, and a testament to cross-disciplinary collaboration,” said Professor Philip Doble, Director of the Elemental Bio-imaging Facility at the University of Technology Sydney, and a co-author of the study.
Pneumonia accounts for more than one million deaths every year, with the greatest health burden in countries where zinc deficiency remains a major social challenge.
“Our findings highlight the importance of ensuring dietary zinc sufficiency as part of any population-wide strategy to control the burden of pneumococcal disease in conjunction with vaccination and other antimicrobial approaches,” Associate Professor McDevitt said.
This research was also conducted in collaboration with the University of Queensland and the University of Adelaide.