Monika Ehling-Schulz's group from the Institute of Microbiology, together with Mathias Müller's group at the Institute of Animal Breeding and Genetics studied the influence of host organisms on bacterial metabolism. The researchers infected three different lineages of mice with the bacteria Listeria monocytogenes. The mouse strains showed significant differences in their response to the infection and in the severity of the clinical symptoms.
This image shows bacteria on a plate and the respective FTIR spectrum in front. Image courtesy of Tom Grunert, Vetmeduni Vienna.
Monika Ehling-Schulz's group from the Institute of Microbiology, together with Mathias Müller's group at the Institute of Animal Breeding and Genetics studied the influence of host organisms on bacterial metabolism. The researchers infected three different lineages of mice with the bacteria Listeria monocytogenes. The mouse strains showed significant differences in their response to the infection and in the severity of the clinical symptoms.
The researchers isolated the bacteria days after infection and analysed them for changes in their metabolism. They used a specific infrared spectroscopy method (FTIR) to monitor metabolic changes. The chemometric analysis of the bacterial metabolic fingerprints revealed host genotype specific imprints and adaptations of the bacterial pathogen.
"Our findings may have implications on how to treat infectious diseases in general. Every patient is different and so are their bacteria," says first author Tom Grunert.
After isolation from the mice, all bacteria were cultured under laboratory conditions. After prolonged cultivation under laboratory conditions all three bacterial batches switched back to the same metabolic fingerprint. "Based on our results it can be assumed that bacteria have some sort of memory. It takes some time under host-free laboratory conditions for this 'memory effect' to vanish," explains the head of the institute, Monika Ehling-Schulz.
The researchers employed a technique known as Fourier-transform infrared (FTIR) spectroscopy to monitor the metabolism in the bacteria. An infrared beam directed through the bacteria causes molecules such as proteins, polysaccharides and fatty acids to vibrate. The molecules variably allow more or less light to pass. The different molecular composition in the bacteria yields different spectral data providing information about the molecules inside.
"This method is used especially in microbiological diagnostics to identify bacteria. But we refined the method to decipher and monitor differences in the metabolic fingerprint of the same bacteria," says Grunert.
In the future, the researchers want to extend the concept to other species of bacteria and further study the impact of host organisms on pathogens. In a next step, the team plans to find out what exactly it is, that leads to metabolic changes in bacteria.
The paper "Deciphering Host Genotype-Specific Impacts on the Metabolic Fingerprint of Listeria monocytogenes by FTIR Spectroscopy" by Tom Grunert, Avril Monahan, Caroline Lassnig, Claus Vogl, Mathias Müller and Monika Ehling-Schulz was published in the journal PLOS One.
Source: University of Veterinary Medicine, Vienna
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