Affinity of Malassezia and Other Yeasts for Pulmonary Lipids

Mycopathologia. 2024 Dec 7;190(1):1. doi: 10.1007/s11046-024-00910-w.

Abstract

Pulmonary surfactant, the primary substance lining the epithelium of the human Lower Respiratory Tract (LRT), is rich in lipids, with dipalmitoyl-phosphatidylcholine (DPPC) being the most abundant. Although surfactants are known to have antifungal activity against some yeast species, the significant presence of species like Malassezia restricta in the lung mycobiome suggests that these yeasts may exhibit some level of lipo-tolerance or even lipo-affinity for pulmonary lipids. This study explored the affinity and tolerance of yeasts, identified as significant members of the lung microbiome, to pulmonary lipids through culture-based methods. Eleven species from the genera Malassezia, Candida (including the new genera Nakaseomyces and Meyerozyma), and Cryptococcus were tested for their growth on media containing pulmonary lipids such as DPPC and commercial porcine surfactant and in other culture medium that contain non-pulmonary lipids such as glycerol monostearate and tweens. The yeasts' lipo-affinity or lipo-tolerance was assessed based on their growth on these lipids compared to standard media, specifically Modified Leeming Notman Agar (MLNA) for Malassezia species and Sabouraud Dextrose Agar (SDA) for the other genera. The addition of DPPC or surfactant to the media enhanced the growth of most Malassezia yeasts and some Cryptococcus species. C. parapsilosis, Meyerozyma guilliermondii and Cryptococcus neoformans s.s. showed similar growth to that on the standard media, while the other yeasts primarily demonstrated lipo-tolerance without lipo-affinity for these compounds. To our knowledge, this is the first report on the influence of pulmonary lipids on the in vitro growth of Malassezia spp. and other yeast members of the lung mycobiome. Some yeasts, such as Malassezia restricta, commonly found in the lower respiratory tract (LRT), exhibit specific affinity for lung lipids like DPPC and commercial porcine surfactant. This finding suggests that lung lipids may play a significant role in shaping the LRT mycobiome.

Keywords: Lipophilic yeasts; Lower respiratory tract; Mycobiome, Malassezia; Pulmonary lipids.

MeSH terms

  • 1,2-Dipalmitoylphosphatidylcholine / chemistry
  • Animals
  • Candida / drug effects
  • Candida / growth & development
  • Cryptococcus / growth & development
  • Cryptococcus / metabolism
  • Culture Media* / chemistry
  • Humans
  • Lipids / analysis
  • Lung / microbiology
  • Malassezia* / growth & development
  • Malassezia* / metabolism
  • Pulmonary Surfactants / metabolism

Substances

  • Culture Media
  • Pulmonary Surfactants
  • Lipids
  • 1,2-Dipalmitoylphosphatidylcholine