New York: Targeting certain gut bacteria with an antibiotic or vaccine may offer a promising new treatment approach for autoimmune diseases, new research suggests.
The findings, published in the journal Science, showed that bacteria found in the small intestines of mice and humans can travel to other organs and trigger an autoimmune response.
“Treatment with an antibiotic and other approaches such as vaccination are promising ways to improve the lives of patients with autoimmune disease,” said senior study author Martin Kriegel from Yale University in New Haven, Connecticut, US.
Gut bacteria have been linked to a range of diseases, including autoimmune conditions characterised by immune system attack of healthy tissue.
To shed light on this link, the research team focused on Enterococcus gallinarum, a bacterium they discovered is able to spontaneously “translocate” outside of the gut to lymph nodes, the liver, and spleen.
In models of genetically susceptible mice, the researchers observed that in tissues outside the gut, E. gallinarum initiated the production of auto-antibodies and inflammation — hallmarks of the autoimmune response.
They confirmed the same mechanism of inflammation in cultured liver cells of healthy people, and the presence of this bacterium in livers of patients with autoimmune disease.
Through further experiments, the research team found that they could suppress autoimmunity in mice with an antibiotic or a vaccine aimed at E. gallinarum.
With either approach, the researchers were able to suppress growth of the bacterium in the tissues and blunt its effects on the immune system.
“When we blocked the pathway leading to inflammation, we could reverse the effect of this bug on autoimmunity,” Kriegel said.
“The vaccine against E. gallinarum was a specific approach, as vaccinations against other bacteria we investigated did not prevent mortality and autoimmunity,” he noted.
The vaccine was delivered through injection in muscle to avoid targeting other bacteria that reside in the gut.
The findings have relevance for systemic lupus and autoimmune liver disease, the researchers said.