Experimental evidence showed that antibodies targeting the high-affinity iron permease, an iron transporter cell membrane protein, protect DKA mice from infection with R.
oryzae infection.[37] DAPT order Moreover, antibodies targeting the GRP78/CotH interactions (i.e. antiGrp78 antibodies[43] or antiCotH antibodies[47]) protected DKA mice from infection with R. oryzae. These findings lend support for the future development of novel passive immunisation strategies that target virulence traits of Mucorales. Mucormycosis is a lethal infection with very limited and mainly ineffective treatment options. Although considered rare, mucormycosis are on the rise and this increase is expected to continue due to the increased number of immunosuppressed patients and the severity in the immunosuppression regimens. Additionally, the increased cases of obesity and unhealthy life style will increase cases of diabetes, which are uniquely predisposed to mucormycosis. Clinical data point to the importance of iron acquisition in the pathogenesis of mucormycosis and subsequent research confirmed this observation. Although mucormycosis pathogenesis studies are at its infancy, recent major discoveries highlight the possibility of translating this knowledge into possible novel therapies urgently needed to improve the outcome of this disease.
This work was supported in part by Public Health Service grant R01 AI063503. The author received research grants or consultancy fees from the following companies to conduct Selleck MAPK inhibitor research on mucormycosis: Astellas, Enzon, Gilead, Merck and Pfizer. “
“Summary Aspergillus fumigatus is currently the major airborne fungal pathogen that menaces immunocompromised individuals. Germination Flavopiridol (Alvocidib) of inhaled conidia is a hallmark of the early infection process, but little is known about the underlying mechanisms. The intention of our ongoing studies is the identification of A. fumigatus
proteins that are differentially expressed during germination and may provide insights in the germination process. Using a proteomic approach, we identified AFUA_5G09330 as a major hyphal-specific protein. This result was confirmed using monoclonal antibodies generated in this study. AFUA_5G09330 belongs to a fungal-specific protein family. The eponymous CipC protein of A. nidulans has been shown to be induced by concanamycin A, and transcriptional data from Cryptococcus neoformans demonstrate a strong up-regulation of the expression of a homologous gene during infection. Our data provide evidence that AFUA_5G09330 is a monomeric, cytoplasmic protein. We found no evidence for an overexpression of AFUA_5G09330 induced by concanamycin A or other stress conditions. AFUA_5G09330 is exclusively found in the hyphal morphotype that enables an invasive growth of A. fumigatus during infection.