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A Grab for Iron - Breakthrough for Innsbruck Scientists

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25.10.2004

Nearly all organisms need iron to survive, even mould. For people with a weakened immune system such fungi pose a deadly threat. Scientists from Innsbruck (Austria) have now been able to genetically block the iron metabolism of Aspergillus fumigatus mould and thus render it harmless to humans. This discovery opens up completely new paths for developing drugs against fungal infections.

The Aspergillus fumigatus mould is commonly found in compost, green bins, potting compost and on wallpaper. For people with a weakened immune system it can become dangerous, attacking organs like lung, stomach, intestine and the nervous system. Because it is difficult to diagnose and treat, such a mould infection (aspergillosis) becomes life-threatening for patients whose immune system has been affected by chemotherapy, HIV infection or an organ transplant. Bacteria can be overcome quite effectively with antibiotics, but there are as yet hardly any effective drugs against mould, which accounts for the fact that 80 percent of affected patients do not survive such an infection.

Fighting mould

Now, for the first time, a working group headed by Hubertus Haas and Markus Schrettl of the Department for Molecular Biology of Innsbruck Medical University has managed to genetically block the iron metabolism of the mould. In a recent article in the acclaimed scientific Journal of Experimental Medicine they proved that the siderophore system is essential for the virulence of Aspergillus fumigatus. The mould uses the so-called siderophores for the reception of vital iron.

These low-molecular-weight peptides can bind iron and are sent out by the cells to absorb iron as well as being used inside the cell to store it. If this siderophore system is systematically disrupted, the fungus loses its essential iron supply and dies. In animal modelling this has been proven successfully. Being able to understand this mechanism offers very promising perspectives for the development of new therapies against fungal infections. Of particular advantage is the fact that humans do not have a comparable system, which bodes well for potential inhibitors having few side-effects.

“Gaining detailed insights into the siderophore metabolism enables us to investigate the system as a potential handle for combating aspergillosis and other fungal infections,” Hubertus Haas explained the impact of this breakthrough. “So far we have been able to identify at least 30 genes with gene products involved in this system. At the moment we are carrying out microarray-profiling, which should uncover additional factors,” Haas continued.

Basic research and application potential

The working group from Innsbruck has been exploring the iron metabolism of mould since 1998, supported by research funds from the Austrian Science Foundation (FWF) and the Austrian National Bank (ÖNB). As the new approaches for antifungal therapies show, there is a wealth of application potential in such basic molecular-biology research into identifying and characterizing the siderophore system. A novel screening process for antifungal substances – for which a patent is pending – recently won the Life Science Business Award of the Center for Academic Spin-offs Tyrol (CAST).

Univ.-Prof. Mag. Dr. Hubertus Ha | Source: alphagalileo
Further information: www.i-med.ac.at
www.jem.org

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