New cell-killing toxin discovered in an environmental pathogen

Embargoed until: Publicly released: 2023-04-19 13:58

Australia; VIC

La Trobe Institute for Molecular Science

An international research team has discovered how a bacterial toxin, known as Ssp, is capable of entering and killing a wide range of living cells, including human cells. The team were able to see the molecular structure of the Ssp toxin from the bacterial pathogen Serratia marcescens. S. marcescens is remarkable in that apart from causing many human infections including respiratory diseases, as well as bloodstream and urinary tract infections, this pathogen is known to cause infections in livestock, insects and plants. In contrast, other pathogens have a more limited host range.

Media release

From: La Trobe University

The finding, published in Nature Communications, could lead to the development of new antimicrobial treatments.

Researchers estimate that the structure of a new toxin class has not been determined in almost a decade.

Using the Australian Synchrotron researchers at the La Trobe Institute for Molecular Science (LIMS) and the French National Research Institute for Agriculture, Food and Environment were able to see the molecular structure of the Ssp toxin from the bacterial pathogen Serratia marcescens.

Dr Jason Paxman, one of two lead researchers, said that Ssp is a new type of toxin and its design is quite unlike any others previously known to science.

“Pretend you've never seen a syringe before, but someone explains what a syringe does – injects substances into human tissue, then all of a sudden you have a picture of a syringe, and you see the plunger and needle – that's what this what we've done here,” Dr Paxman said.

“So now that we actually have the structure of the toxin, we can see how it injects itself into cells to cause disease, and then start designing ways to stop it.”

The environmental pathogen S. marcescens is remarkable in that apart from causing many human infections including respiratory diseases, as well as bloodstream and urinary tract infections, this pathogen is known to cause infections in livestock, insects and plants. In contrast, other pathogens have a more limited host range.

With its wide host range, Serratia’s major toxin Ssp is able to enter and kill a wide range of living cells. Cell death caused by Ssp is responsible for the sickness associated with S. marcescens infections.

Professor Begoña Heras, Head of the Structural Biology and Bacterial Pathogenesis laboratory at LIMS, said by understanding what Ssp looks like we can now develop targeted inhibitors.

“These inhibitors or antimicrobials may be developed to bind to the part of Ssp responsible for injecting itself into cells,” Professor Heras said.

“Serratia has quite high levels of antibiotic resistance and can cause infections in a wide array of hosts, from humans to insects.”

New inhibitors of the Ssp toxin, could be used to ‘disarm’ S. marcescens and reduce the sickness during infections. This would circumvent the use of antibiotics.

Multimedia

Ssr toxin and cells affected by Ssr toxin

La Trobe team involved in Ssr toxin research

Journal/
conference: Nature Communications

Research:Paper

Organisation/s: La Trobe University, Australian Nuclear Science and Technology Organisation (ANSTO), Monash University

Funder: This research was undertaken in part using the MX2 beamline at the Australian Synchrotron, part of ANSTO, and made use of the Australian Cancer Research Foundation (ACRF) detector. The authors would like to acknowledge Peter Lock and Chad Johnson from the La Trobe University Bioimaging Platform. This work was supported by the Australian Research Council (ARC) project grants (DP150102287, DP180102987, DP210100673), Fellowship (FT130100580) and a National Health and Medical Research Council (NHMRC) project grant (GNT1143638).

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