Thursday, April 2, 2020

To stop TB bacteria, cut off their iron supply

A road block with a sign that reads "Road Closed"

Researchers have now solved the first detailed structure of the transport protein responsible for the iron supply for the bacteria that cause tuberculosis.

When the iron transport into the bacteria is inhibited, the pathogen can no longer grow, the research shows.

This could open new ways to develop targeted tuberculosis drugs.

One of the most devastating pathogens that lives inside human cells is Mycobacterium tuberculosis, the bacillus that causes tuberculosis. According to the World Health Organization, 1.5 million people died in 2019 from this disease that generally affects the lungs.

The rise of multidrug resistant M. tuberculosis strains, which are resistant to many of the most effective anti-tuberculosis drugs, is particularly worrying. In other words, we’re in urgent need of new drugs to treat tuberculosis.

All living organisms, including pathogens, need iron to survive. When a human cell is infected by pathogens like M. tuberculosis, it reduces the iron concentration to a minimum and thereby tries to starve the invader.

The tuberculosis bacteria, in turn, start to release small molecules called mycobactins. These can bind free iron extremely well and thus steal it from the host cell. The iron captured by mycobactin is then transported into the bacteria by a protein named IrtAB.

A team of researchers led by Markus Seeger, professor at the Institute of Medical Microbiology of the University of Zurich, has now analyzed in detail the protein responsible for transporting iron from the infected host cell into the bacteria.

“The transport protein, which is located in the bacterial membrane, is essential for the survival of the pathogens. If IrtAB is absent or not functioning, M. tuberculosis can no longer reproduce inside the human cell,” says Seeger.

Using a combination of cryo-electron microscopy and X-ray crystallography, the researchers solved for the first time a high-resolution structure of the transport protein IrtAB. This analysis was done in collaboration with Ohad Medalia, a professor in the biochemistry department.

According to its spatial structure, IrtAB belongs to the so-called ABC exporters, which are typically involved in the efflux of molecules out of the bacterial cell. “However, we were able to show that IrtAB in fact imports mycobactins into M. tuberculosis. It therefore transports molecules in the opposite direction than expected,” says Seeger.

Together with scientists from the University of Texas, the research team identified an additional peculiarity of the transport protein IrtAB: It can modify the iron bound to mycobactin after it is imported into the bacteria. The iron is released inside the cell and the empty mycobactin can be recycled.

“IrtAB is a potential drug target, because its deletion renders M. tuberculosis inactive and incapable of infection. With our structural and functional elucidation of IrtAB, we opened avenues to develop novel tuberculosis drugs that inhibit the iron transport into the bacteria,” Seeger says.

“In view of COVID-19, a disease that also affects the lungs, tuberculosis will likely play a more important role again in the future. It is quite conceivable that patients weakened by COVID-19 will show increased infection rates with tuberculosis,” he adds.

The research appears in Nature. Funding for the project largely came from the ERC Consolidator Grant 2017 of the European Research Council.

Source: University of Zurich

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