Epidermal barrier impairment predisposes for excessive growth of the allergy‐associated yeast <i>Malassezia</i> on murine skin

Ruchti, Fiorella; Zwicky, Pascale; Becher, Burkhard; Dubrac, Sandrine; LeibundGut‐Landmann, Salomé

doi:10.1111/all.16062

Cited by 5 publications

(6 citation statements)

References 110 publications

(216 reference statements)

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“…Atopy-like conditions were induced by repeated administration of the vitamin D analogue MC903 to the murine skin prior to fungal association [39]. WT M. sympodialis robustly colonized the murine skin by day 4 post-infection, with higher loads in the atopic dermatitis-like skin than in control skin, as previously shown [38] (Figure 5A). Importantly, under high pH, but not low pH conditions, colonization levels of both, the rim101∆ [KPY34] and rra1∆ [KPY36] mutants were reduced compared to those of the WT control strain, although differences did not reach statistical significance (Figure 5A).…”

Section: S12 S13 S11)supporting

confidence: 72%

“…All experiments were conducted at the Laboratory Animal Science Center of the University of Zurich under specific pathogen-free conditions. AD-like conditions were induced in the murine ear skin according to Moosbrugger-Martiz et al [37] and Ruchti et al [38]. Briefly, 1.125 nm of MC903 (calcipotriol hydrate, Sigma) diluted in pure ethanol was applied on the dorsal and ventral side of both ears for 5 consecutive days and again for 4 days after a resting period of 2 days.…”

Section: Scanning Electron Microscopy (Sem) Sem Was Used To Visualize...mentioning

confidence: 99%

“…After infection, MC903 treatment was continued on day 2 p.i. (for the 4 days infection experiment) or daily from day 2 to 5 (for the 7 days infection experiment) on the ventral side of the ear only to avoid interference of the EtOH solvent with fungal viability [38]. Ear thickness was continuously monitored using the Oditest S0247 0-5 mm measurement device (Kroeplin).…”

Section: Scanning Electron Microscopy (Sem) Sem Was Used To Visualize...mentioning

confidence: 99%

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Malassezia responds to environmental pH signals through the conserved Rim/Pal pathway

Pianalto,

Telzrow,

Harding

et al. 2024

Preprint

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During mammalian colonization and infection, microorganisms must be able to rapidly sense and adapt to changing environmental conditions including alterations in extracellular pH. The fungus-specific Rim/Pal signaling pathway is one process that supports microbial adaptation to alkaline pH. This cascading series of interacting proteins terminates in the proteolytic activation of the highly conserved Rim101/PacC protein, a transcription factor that mediates microbial responses that favor survival in neutral/alkaline pH growth conditions, including many mammalian tissues. We identified the putative Rim pathway proteins Rim101 and Rra1 in the human skin colonizing fungusMalassezia sympodialis. Gene deletion by transconjugation and homologous recombination revealed that Rim101 and Rra1 are required forM. sympodialisgrowth at higher pH. Additionally, comparative transcriptional analysis of the mutant strains compared to wild-type suggested mechanisms for fungal adaptation to alkaline conditions. These pH-sensing signaling proteins are required for optimal growth in a murine model of atopic dermatitis, a pathological condition associated with increased skin pH. Together these data elucidate both conserved and phylum-specific features of microbial adaptation to extracellular stresses.ImportanceThe ability to adapt to host pH has been previously associated with microbial virulence in several pathogenic fungal species. Here we demonstrate that a fungal-specific alkaline response pathway is conserved in the human skin commensal fungusMalassezia sympodialis(Ms). This pathway is characterized by the pH-dependent activation of the Rim101/PacC transcription factor that controls cell surface adaptations to changing environmental conditions. By disrupting genes encoding two predicted components of this pathway, we demonstrated that the Rim/Pal pathway is conserved in this fungal species as a facilitator of alkaline pH growth. Moreover, targeted gene mutation and comparative transcriptional analysis supports the role of theMsRra1 protein as a cell surface pH sensor conserved within the basidiomycete fungi, a group including plant and human pathogens. Using an animal model of atopic dermatitis, we demonstrate the importance ofMsRim/Pal signaling in this common inflammatory condition characterized by increased skin pH.

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Section: S12 S13 S11)supporting

confidence: 72%

Section: Scanning Electron Microscopy (Sem) Sem Was Used To Visualize...mentioning

confidence: 99%

Section: Scanning Electron Microscopy (Sem) Sem Was Used To Visualize...mentioning

confidence: 99%

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Malassezia responds to environmental pH signals through the conserved Rim/Pal pathway

Pianalto,

Telzrow,

Harding

et al. 2024

Preprint

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“…To understand which PRRs may be involved in innate immune recognition of Malassezia, we explored a transcriptomic dataset of M. pachydermatis-colonized murine skin [22]. We checked for differential expression of PRR encoding genes in colonized vs. naïve skin using the GO term "pattern recognition receptor activation", GO:0038187.…”

Section: Resultsmentioning

confidence: 99%

“…The primers used for qPCR were Actb forward 5'-CCCTGAAGTACCCCATTGAAC-3', Actb reverse 5'-CTTTTCACGGTTGGCCTTAG-3'; Il23a forward 5'-CCAGCAGCTCTCTCGGAATC-3', Il23a reverse 5'-TCATATGTCCCGCTGGTGC- RNA-Sequencing data analysis. For RNA sequencing analysis we explored a published data set (NCBI GEO repository, accession number GSE253214 [22]. Data analysis was performed using the SUSHI framework [98], including differential expression using the generalized linear model as implemented by the DESeq2 Bioconductor R package [99], and Gene Ontology (GO) term pathway analysis using the hypergeometric over-representation and GSEA tests via the 'enrichGO' and `gseGO` functions respectively of the clusterProfiler Bioconductor R package [100].…”

Section: Methodsmentioning

confidence: 99%

Card9 and MyD88 differentially regulate Th17 immunity to the commensal yeastMalasseziain the murine skin

Tuor,

Stappers,

Ruchti

et al. 2024

Preprint

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The fungal community of the skin microbiome is dominated by a single genus,Malassezia. Besides its symbiotic lifestyle at the host interface, this commensal yeast has also been associated with diverse inflammatory skin diseases in humans and pet animals. Stable colonization is maintained by antifungal type 17 immunity. The mechanisms driving Th17 responses toMalasseziaremain, however, unclear. Here, we show that the C-type lectin receptors Mincle, Dectin-1, and Dectin-2 recognize conserved patterns in the cell wall ofMalasseziaand induce dendritic cell activationin vitro, while only Dectin-2 is required for Th17 activation during experimental skin colonizationin vivo.In contrast, Toll-like receptor recognition was redundant in this context. Instead, inflammatory IL-1 family cytokines signaling via MyD88 were also implicated in Th17 activation in a T cell-intrinsic manner. Taken together, we characterized the pathways contributing to protective immunity against the most abundant member of the skin mycobiome. This knowledge contributes to the understanding of barrier immunity and its regulation by commensals and is relevant considering how aberrant immune responses are associated with severe skin pathologies.

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Card9 and MyD88 differentially regulate Th17 immunity to the commensal yeast Malassezia in the murine skin

Tuor,

Stappers,

Desgardin

et al. 2024

Mucosal Immunology

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Epidermal barrier impairment predisposes for excessive growth of the allergy‐associated yeast Malassezia on murine skin

Cited by 5 publications

References 110 publications

Malassezia responds to environmental pH signals through the conserved Rim/Pal pathway

Malassezia responds to environmental pH signals through the conserved Rim/Pal pathway

Card9 and MyD88 differentially regulate Th17 immunity to the commensal yeastMalasseziain the murine skin

Card9 and MyD88 differentially regulate Th17 immunity to the commensal yeast Malassezia in the murine skin

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