Team:Goettingen/project overview/fungal infections

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       <h2 id="fungal_inf">Fungal infections and current diagnostic tools</h2>
       <h2 id="fungal_inf">Fungal infections and current diagnostic tools</h2>

Revision as of 07:37, 8 September 2014

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Fungal infections and current diagnostic tools

The most common fungal infections are superficial skin, nails and mucosal infections, which are caused in most cases by fungi of the genus Candida. These infections are usually not life threatening and have such common manifestations as athlete's foot and vulvovaginal candidiasis.


Invasive fungal infections, on the other hand, have unacceptably high mortality rates. Patients with a compromised immune system -such as AIDS patients and post-transplantation patients taking immunosupresants- are at special risk as they don't have the usual barriers that prevent invasive infections in healthy individuals.


According to Brown, et al., (2012), more than 90% of the reported deaths caused by fungi are associated with species from four genera: Cryptococcus, Candida, Aspergillus and Pneumocystis, but epidemiological data for fungal infections is poor, as these infections are often misdiagnosed and there is a lack of accurate data from the developing world.


Endemic dimorphic fungosis


The following map is an adaptiation of the information presented in Brown, et al., (2012), where the authors make some comments regarding the quality of that information: 1) the data is extrapolated from a few and geographically localized studies and 2) accurate data is lacking from the developing world and the calculations may underestimate the true values of the presented statistics.




Our project: paving the way for new diagnostic and therapeutic tools

Our aim is to develop a diagnostic technique capable of detecting the presence of fungal pathogens in a sample collected from a patient. Briefly, our approach is as follows. Through a yeast two-hybrid assay we will select a set of peptides that show affinity towards surface proteins from different fungi (Aspergillus nidulans, A. fumigatus, Candida albicans and C. glabrata). After confirming the interaction between the surface proteins and a given peptide, we intend to attach a molecule to the peptide marker. In our project, this molecule will be a fluorescent protein, but in principle can also be an immune system activator which is then recognized by the immune cells or other chemical moiety that adds novel functionalities or increases the peptide stability. In comparison to antibodies or antibody fragments, peptides are small, easily synthesized, modified less expensively and show higher diffusion rates in tissues. We expect our method to be faster, more accurate and cheaper than other existing methods. Other laboratories may follow our approach to generate and refine their own peptides with specificity towards their proteins of interest.