The Skin Commensal Yeast Malassezia Triggers a Type 17 Response that Coordinates Anti-fungal Immunity and Exacerbates Skin Inflammation

Sparber, Florian; Gregorio, Corinne De; Steckholzer, Simone; Ferreira, Fernando; Dolowschiak, Tamas; Ruchti, Fiorella; Kirchner, Florian; Mertens, Sarah; Prinz, Immo; Joller, Nicole; Buch, Thorsten; Glatz, Martin; Sallusto, Federica; LeibundGut‐Landmann, Salomé

doi:10.1016/j.chom.2019.02.002

Cited by 171 publications

(233 citation statements)

References 81 publications

(81 reference statements)

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“…This result is in contrast with previous findings in C. neoformans 28 , but it corroborates results obtained in A. fumigatus 30 . Further, the recently developed murine model for Malassezia skin infection 5 was utilized to test pathogenicity of the flavohemoglobin strains and the induction of host response. Corroborating ex vivo data, we found no differences both in terms of host tissue colonization and host inflammatory response for the yhb1 Δ mutant compared to the complemented strains (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Mice were maintained at the Laboratory Animal Science Center of University of Zurich, Zurich, Switzerland and used at 6-12 weeks in sex- and age-matched groups. Epicutaneous infection of the mouse ear skin was performed as described previously 5,84 .Briefly, Malassezia strains were grown for 3-4 days at 30°C, 180 rpm in liquid mDixon medium. Cells were washed in PBS and suspended in native olive oil at a density of 20 OD A600 /mL.…”

Section: Methodsmentioning

confidence: 99%

“…Although commensals, Malassezia species are also associated with a number of clinical skin disorders, including pityriasis versicolor, dandruff, and atopic dermatitis (AD) 4 . A recently-developed epicutaneous murine model revealed that the host responses to Malassezia are dominated by pro-inflammatory cytokine IL-17 and related factors that prevent fungal overgrowth and exacerbate inflammation under atopy-like conditions 5 . Furthermore, Malassezia species have also been implicated recently as causal agents of Crohn’s Disease/Inflammatory Bowel Disease in patients with CARD9 mutations, and in accelerating the progression of Pancreatic Adenocarcinoma in murine models and in humans 6,7 .…”

Section: Introductionmentioning

confidence: 99%

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Horizontal gene transfer in the human and skin commensalMalassezia: a bacterially-derived flavohemoglobin is required for NO resistance and host interaction

Ianiri

Ruchti

et al. 2020

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The skin of humans and animals is colonized by commensal and pathogenic fungi and bacteria that share this ecological niche and have established microbial interactions. Malassezia are the most abundant fungal skin inhabitant of warm-blooded animals, and have been implicated in skin diseases and systemic disorders, including Crohn’s disease and pancreatic cancer. Flavohemoglobin is a key enzyme involved in microbial nitrosative stress resistance and nitric oxide degradation. Comparative genomics and phylogenetic analyses within the Malassezia genus revealed that flavohemoglobin-encoding genes were acquired through independent horizontal gene transfer events from different donor bacteria that are part of the mammalian microbiome. Through targeted gene deletion and functional complementation in M. sympodialis, we demonstrated that bacterially-derived flavohemoglobins are cytoplasmic proteins required for nitric oxide detoxification and nitrosative stress resistance under aerobic conditions. RNAseq analysis revealed that endogenous accumulation of nitric oxide resulted in upregulation of genes involved in stress response, and downregulation of the MalaS7 allergen-encoding genes. Solution of the high-resolution X-ray crystal structure of Malassezia flavohemoglobin revealed features conserved with both bacterial and fungal flavohemoglobins. In vivo pathogenesis is independent of Malassezia flavohemoglobin. Lastly, we identified additional 30 genus- and species-specific horizontal gene transfer candidates that might have contributed to the evolution of this genus as the most common inhabitants of animal skin.Significance statementMalassezia species are the main fungal components of the mammalian skin microbiome and are associated with a number of skin disorders. Recently, Malassezia has also been found in association with Crohn’s Disease and with pancreatic cancer. The elucidation of the molecular bases of skin adaptation by Malassezia is critical to understand its role as commensal and pathogen. In this study we employed evolutionary, molecular, biochemical, and structural analyses to demonstrate that the bacterially-derived flavohemoglobins acquired by Malassezia through horizontal gene transfer resulted in a gain of function critical for nitric oxide detoxification and resistance to nitrosative stress. Our study underscores horizontal gene transfer as an important force modulating Malassezia evolution and niche adaptation.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Horizontal gene transfer in the human and skin commensalMalassezia: a bacterially-derived flavohemoglobin is required for NO resistance and host interaction

Ianiri

Ruchti

et al. 2020

Preprint

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“…In a recent study, Sparber and colleagues described a murine epicutaneous infection model that involves application of Malassezia to the mouse dorsal ear following mild tape stripping (41). Colonization of host tissue (fungal load) is determined by plating homogenized tissue onto agar plates and counting colony forming units; an increase in ear thickness is used as a measurement for skin inflammation.…”

Section: Resultsmentioning

confidence: 99%

“…Moreover, for one of the two strain pairs tested, the virus-infected strain displayed increased colonization compared to their virus-cured counterpart by day 4 post-infection (Figure 4B). To determine if there was a difference in the immune response elicited by the virus-infected and virus-cured strains, we assessed the expression of interleukin-17 (IL-17), a key mediator of the host response against Malassezia on the skin (41). However, we could not detect any statistically significant differences in cytokine induction in response to virus-infected and virus-cured strains (Figure 4C), indicating that IL-17 expression was not regulated by the virus and not responsible for the observed differences in fungal load and skin thickness.…”

Section: Resultsmentioning

confidence: 99%

A novel mycovirus evokes transcriptional rewiring in the fungusMalasseziaand stimulates interferon-β production in macrophages

Clancey

Ruchti

LeibundGut‐Landmann

et al. 2019

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46Mycoviruses infect fungi, and while most persist asymptomatically, there are examples 47 of mycoviruses having both beneficial and detrimental effects on their host. Saccharomyces and Ustilago strains exhibit a killer phenotype conferring a growth advantage 49 over uninfected strains, whereas hypovirus-infected Cryphonectria parasitica displays defects in 50 growth, sporulation, and virulence. In this study we identify a dsRNA mycovirus in five 51Malassezia species. Sequence analysis reveals it to be a totivirus with two dsRNA segments: a 52 larger 4.5 kb segment with genes involved in viral replication and maintenance, and a smaller 53 1.4 kb segment encoding a novel protein. Furthermore, RNA-seq of virus-infected versus virus-54 cured Malassezia sympodialis revealed an upregulation of dozens of ribosomal components in 55 the cell, suggesting the virus subjects the cell to a large transcriptional burden. Given that 56Malassezia is the most abundant fungus on human skin, we assessed the impact of the 57 mycovirus in a murine cutaneous infection model and found infection with virus-infected strains 58 was associated with enhanced skin colonization and inflammatory response compared to virus-59 cured strains. Moreover, interferon-β expression was significantly upregulated in bone marrow-60 derived macrophages when challenged with virus-infected, compared to virus-cured M. 61 sympodialis, suggesting that the presence of the virus can induce an immunological response. 62 Although many recent studies have illuminated how widespread mycoviruses are, there are 63 relatively fewer in depth studies about their impact on disease caused by the host fungus. We 64 describe here a novel mycovirus in Malassezia and its possible implications in inflammatory 65 disorders of the skin and possibly other tissues. 66 Importance 67 Malassezia species represent the most common fungal inhabitant of the mammalian 68 skin microbiome, and are natural skin commensal flora. However, these fungi are also 69 associated with a variety of clinical skin disorders. Recent studies have reported associations of 70 Malassezia with Crohn's disease and pancreatic cancer, further implicating this fungal genus in 71 inflammatory and neoplastic disease states. Because M. sympodialis has lost genes involved in 72 RNAi, we hypothesized Malassezia could harbor dsRNA mycoviruses. Indeed, we report here a 73 novel mycovirus of the totivirus family in several Malassezia species, and characterized the 74 MsMV1 mycovirus of M. sympodialis. We found conditions that lead to curing of the virus, and 75 analyzed isogenic virus-infected/virus-cured strains to determine MsMV1 genetic and 76 pathogenic impacts. MsMV1 induces a strong overexpression of transcription factors and 77 ribosomal genes, while downregulating cellular metabolism. Moreover, MsMV1 leads to 78 increased pathogenicity in a murine model, and induced a significantly higher level of interferon-79 β expression in cultured macrophages. This study sheds light on the mechanisms of 80 pathogenicity of Ma...

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Development or Exacerbation of Head and Neck Dermatitis in Patients Treated for Atopic Dermatitis With Dupilumab

et al. 2019

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The efficacy and safety of dupilumab, a humanized monoclonal antibody targeting the α subunit of the interleukin (IL)-4 and IL-13 receptors, has been assessed in adults with moderateto-severe atopic dermatitis (AD). 1,2 Injection site reactions, nasopharyngitis, conjunctivitis, and transient increases in eosinophil counts from baseline were higher in the dupilumab groups than in the placebo groups in pivotal studies. 1,2 A recent study by Zhu et al 3 reported new regional dermatoses in 17 patients with AD treated with dupilumab, with facial area involvement in 14 cases, whereas Blauvelt et al 4 reported an equal improvement of AD with dupilumab on different anatomic regions in a post hoc analysis of data extracted from 4 phase 3 clinical trials.

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The Skin Commensal Yeast Malassezia Triggers a Type 17 Response that Coordinates Anti-fungal Immunity and Exacerbates Skin Inflammation

Cited by 171 publications

References 81 publications

Horizontal gene transfer in the human and skin commensalMalassezia: a bacterially-derived flavohemoglobin is required for NO resistance and host interaction

Horizontal gene transfer in the human and skin commensalMalassezia: a bacterially-derived flavohemoglobin is required for NO resistance and host interaction

A novel mycovirus evokes transcriptional rewiring in the fungusMalasseziaand stimulates interferon-β production in macrophages

Development or Exacerbation of Head and Neck Dermatitis in Patients Treated for Atopic Dermatitis With Dupilumab

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