Characterization of the Fungal Microbiota (Mycobiome) in Healthy and Dandruff-Afflicted Human Scalps

Trehalose, a disaccharide of glucose, has been reported to accumulate in many organisms that can withstand extended periods of inanimation. Since this discovery, the properties of trehalose have been examined extensively to understand its role and abundance in nature. The unique features of this sugar became clearer with each new finding which demonstrated its ability to sustain and preserve a wide array of biological molecules. Trehalose has been used in a variety of research applications and is contained in several commercially available therapeutic products, including Herceptin®, Avastin®, Lucentis®, and Advate®. Currently, there is a growing interest in the use of trehalose in solid dosage formulations, most notably in quick-dissolving tablets. Furthermore, trehalose has found its use in several food and cosmetic products, and new applications capitalizing on its unique properties are being developed and implemented in everyday-use products. As trehalose is an approved ingredient in all major markets, there is no significant barrier to its use. Extensive work with trehalose has been conducted in the three major industries, however with little overlap. Further understanding of the role of trehalose in the various applications may lead to an increase in the number of trehalose-containing products. Copyright © 2011 Wiley-Liss, Inc.

Human fungal pathogens are associated with diseases ranging from dandruff and skin colonization to invasive bloodstream infections. The major human pathogens belong to the Candida, Aspergillus, and Cryptococcus clades, and infections have high and increasing morbidity and mortality. Many human fungal pathogens were originally assumed to be asexual. However, recent advances in genome sequencing, which revealed that many species have retained the genes required for the sexual machinery, have dramatically influenced our understanding of the biology of these organisms. Predictions of a rare or cryptic sexual cycle have been supported experimentally for some species. Here, I examine the evidence that human pathogens reproduce sexually. The evolution of the mating-type locus in ascomycetes (including Candida and Aspergillus species) and basidiomycetes (Malassezia and Cryptococcus) is discussed. I provide an overview of how sex is suppressed in different species and discuss the potential associations with pathogenesis.

Malassezia species are considered to be one of the exacerbating factors in atopic dermatitis (AD). During examination of the cutaneous colonization of Malassezia species in AD patients, we found a new species on the surface of the patients' skin. Analysis of ribosomal DNA sequences suggested that the isolates belonged to the genus MALASSEZIA: They did not grow in Sabouraud dextrose agar but utilized specific concentrations of Tween 20, 40, 60, and 80 as a lipid source. Thus, we concluded that our isolates were new members of the genus Malassezia and propose the name Malassezia dermatis sp. nov. for these isolates.