Journal of Fungi

Candida albicans is the primary agent of acute vulvovaginal candidiasis (VVC) and its recurrent form (RVVC). Local innate immunity contributes to both defense and pathogenesis during vaginal Candida infection, where epithelial β-defensins (BD) constitute key components of the mucosal barrier. We previously reported that epithelial BD-1 expression is dynamically modulated during murine and human vaginitis, revealing strain-dependent and stimulus-specific regulation but leaving the host pathways involved unresolved. This study functionally defines the contribution of key immune pathways to epithelial antimicrobial peptide regulation. Using a murine model of VVC and the virulent C. albicans strain SC5314, we aimed to evaluate the immune signaling pathways governing the temporal regulation of epithelial BD-1 and BD-3 expression during vaginal infection. In wild-type mice, both defensins displayed a biphasic pattern: early induction followed by attenuation as infection progressed. Genetic loss-of-function approaches revealed that NLRP3/IL-1β signaling is required for early BD-1 induction, whereas IL-17RA signaling preferentially supports sustained BD-3 expression. Together, these findings establish a causal and temporal link between host immune signaling and epithelial defensin regulation and reveal a transient subversion of mucosal defenses by C. albicans. This work advances understanding of epithelial innate immunity, defining distinct temporal programs for BD-1 and BD-3 and identifying NLRP3/IL-1β and IL-17RA signaling as key pathways shaping mucosal defensin expression.

Mexican species of Lactifluus have often been identified using names of morphologically similar Old World taxa. However, integrative approaches combining morphological and molecular data have revealed a high level of previously unrecognized diversity in the region. Here, two new species from lowland tropical Quercus forest are described: one in section Piperati (subgenus Lactifluus), characterized by pale yellow basidiomes and another in section Albati (subgenus Lactariopsis), with whitish basidiomes. The two taxa are distinguished by a unique set of macro- and micromorphological features, and their recognition is strongly supported by phylogenetic evidence from a concatenated dataset including nc ITS rDNA, nc 28S rDNA and the 6–7 region of the second largest subunit of the RNA polymerase II (rpb2).

Background: Pityriasis versicolor (PV) is a common superficial mycosis caused by Malassezia species. To describe the clinical and epidemiological characteristics of PV in Acapulco, Mexico, and to identify the associated Malassezia species using polymerase chain reaction–restriction fragment length polymorphism (PCR-RFLP). Methods: A cross-sectional study was conducted in 2024 at Acapulco General Hospital and a private dermatology clinic. Patients with clinically suspected PV and no recent antifungal or immunosuppressive treatment were enrolled. Skin scales were examined microscopically and cultured on modified Dixon agar. Isolates were identified using conventional methods and PCR-RFLP with HhaI and BstCI enzymes. Results: Sixty-nine patients were included; 68.1% were male, and the most affected age group was 11–20 years (34.8%). The hypochromic variant predominated (63.8%). PCR-RFLP identified M. globosa (33.3%) and M. furfur (31.9%) as the most frequent species, followed by M. restricta, M. sympodialis, and M. slooffiae. Species identification was unsuccessful in 11.6% of isolates. No statistically significant associations were found between clinical variants, gender, or species distribution. Conclusions: M. globosa and M. furfur were the predominant species in this tropical Mexican cohort. PCR-RFLP is a practical option for species-level identification, highlighting the diversity of Malassezia in PV.