Myriodontium keratinophilum
Myriodontium keratinophilum | |
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Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Fungi |
Division: | Ascomycota |
Class: | Eurotiomycetes |
Order: | Onygenales |
Family: | Onygenaceae |
Genus: | Apinisia |
Species: | A. keratinophila
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Binomial name | |
Apinisia keratinophila | |
Synonyms[3] | |
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Apinisia keratinophila, formerly Myriodontium keratinophilum, is a fungus widespread in nature, most abundantly found in keratin-rich environments such as feathers, nails and hair.[4] Despite its ability to colonize keratinous surfaces of human body, the species has been known to be non-pathogenic in man[5] and is phylogentically distant to other human pathogenic species,[4] such as anthropophilic dermatophytes (e.g., Trichophyton rubrum, Trichophyton interdigitale). However, its occasional isolation from clinical specimens along with its keratinolytic properties suggest the possibility it may contribute to disease.
History and taxonomy
[edit]Apinisia keratinophila was first isolated in Italy in 1978, during the screening of soil microbes for their ability to produce antibiotic and antiviral substances.[6] The fungus was described by Luciano Polonelli and Robert A. Samson, and was classified into a separate taxon for its ability to produce multiple asexual spores (conidia) at different points across the surface of the hypha.[6] Later in 1997, its asexual state (teleomorph) was independently described and named as Neoarachnotheca keratinophilia by Josef Cano and Krzysztof Ulfig.[4][7] M. keratinophilum is the only member of the genus Myriodontium.[5]
Growth and morphology
[edit]The vegetative and fertile hyphae are branched, hyaline, septate, smooth-walled, and ranges from 2.5 μm to 6 μm in width.[5][6][7] The sexual fruiting structure (gymnothecium) consists of loosely interwoven hyphae that are hyaline to yellow in colour,[5][7] and typically matures within a month, attaining a diameter of 150–700 μm.[7] The gymnothecium encloses millions of round, hyaline asci that each bear 8 ascospores.[5] The defining feature of A. keratinophila is that its ascospores are randomly wrinkled and pitted with an irregular sheath.[5] The (conidia) are one-celled and emerge at multiple different points across the surface of fertile hyphae.[6][7] Species of the genera Chromelosporium and Pulchromyces morphologically resemble Myriodontium.[6]
Physiology
[edit]Apinisia keratinophila exhibits keratinolytic properties,[7][8][9][10] and it is able to grow on and degrade keratinous surfaces such as feathers.[8][9] The fungus shows moderate to rapid growth on YpSs agar,[6][7] attaining a diameter of 6 cm in 14 days at 25 °C (77 °F); the colonies are white with a felt base obscured by floccose mycelium.[6] On hay-infusion agar, the growth rate is slightly reduced with a diameter of 5 cm in 14 days at 25 °C (77 °F).[6] Similar growth rate is exhibited on oatmeal agar.[6] On phytone extract agar at 25 °C (77 °F), its colony shows faster growth relative to other medium, spreading up to 2.7 mm per day.[7] On potato dextrose agar at 25 °C (77 °F), it exhibits a mean daily spread of 1.8–2.3 mm.[7] On Sabouraud agar at 25 °C (77 °F), the mean daily spread is slightly reduced, ranging from 1.4–2.0 mm.[7] It shows no growth at 37 °C (99 °F).[7]
Habitat and ecology
[edit]Apinisia keratinophila is commonly found in soils[4][11] and river sediments.[7][12] M. keratinophilum has been isolated from many different keratinous materials, such as the penis of a bull,[4] hair of shrews and cats,[4] and feathers of pigeons.[9] The fungus also inhabits human hairs as an ectothrix that do not penetrate the cortex.[6]
Isolation from human clinical specimens
[edit]Due to its uncertain pathogenic potential, A. keratinophila is classified as safe to be handled with Biosafety Level 1-equivalent containment.[5] However, in 1985, a case of frontal sinusitis from a Nigerian patient reports its isolation from the mucosal tissue lining of the sinus. Considering the elevation in the levels of plasma cells and eosiophils, M. keratinophilum was determined to be the causal agent and the patient was treated with ketoconazole.[4] The morpholocial features of the species isolated were described to be similar to those that cause allergic aspergillosis of paranasal sinuses,[4] such as Aspergillus flavus and Aspergillus niger. However, it has been proposed that this case may have been misdiagnosed in confusion with Schizophyllum commune.[13] M. keratinophilum is also regularly isolated from dermatophytic and psoriatic lesions infected by non-dermatophytes,[14][15] and is identified as one of the agents of hyalohyphomycosis.[16] A report of spectrum analysis of patients with fungal infection also documents its isolation from nails of patients.[10]
Isolation from other clinical materials
[edit]A. keratinophila is identified to be entomopatheogenic and causes mycosis and mortality in oak lace bug (Corythucha arcuata) when exposed to conidia.[17] Its isolates have also been found on mole cricket nymphs (Gryllotalpa gryllotalpa), and conidial application of A. keratinophila induced significant mortality and mycosis.[18]
References
[edit]- ^ Li, M; Raza, M; Song, S; Hou, LW; Zhang, ZF; Gao, M; Huang, JE; Liu, F; Cai, L. 2023. Application of culturomics in fungal isolation from mangrove sediments. Microbiome. 11(no. 272, Add. file 1):1–87
- ^ Samson, R.A.; Polonelli, L. 1978. Myriodontium keratinophilum, gen. et sp.nov. Persoonia. 9(4):505–509
- ^ "Apinisia keratinophila". www.mycobank.org. Archived from the original on 10 January 2023. Retrieved 18 June 2024.
- ^ a b c d e f g h Maran, AG; Kwong, K; Milne, LJ; Lamb, D (19 January 1985). "Frontal sinusitis caused by Myriodontium keratinophilum". British Medical Journal (Clinical Research Ed.). 290 (6463): 207. doi:10.1136/bmj.290.6463.207. PMC 1417951. PMID 3917755.
- ^ a b c d e f g de Hoog, G. S.; Guarro, J.; Gene, J.; Figueras, M.J. (2000). Atlas of clinical fungi (2nd ed.). Utrecht: Centraalbureau voor Schimmelcultures [u.a.] ISBN 978-90-70351-43-4.
- ^ a b c d e f g h i j Samson, Robert; Polonelli, Luciano (1978). "Myriodontium keratinophilum". Persoonia. 9: 505–509.
- ^ a b c d e f g h i j k l Cano, J; Ulfig, K; Guillamon, JM; Vidal, P; Guarro, J (August 1997). "Studies on keratinophilic fungi. IX: Neoarachnotheca gen. nov. and a new species of Nannizziopsis". Antonie van Leeuwenhoek. 72 (2): 149–58. doi:10.1023/A:1000394118040. PMID 9298194. S2CID 2338964.
- ^ a b Pangallo, D; Kraková, L; Chovanová, K; Bučková, M; Puškarová, A; Simonovičová, A (12 June 2013). "Disclosing a crypt: microbial diversity and degradation activity of the microflora isolated from funeral clothes of Cardinal Peter Pázmány". Microbiological Research. 168 (5): 289–99. doi:10.1016/j.micres.2012.12.001. PMID 23305771.
- ^ a b c Deshmukh, SK (June 2004). "Keratinophilic fungi on feathers of pigeon in Maharashtra, India". Mycoses. 47 (5–6): 213–5. doi:10.1111/j.1439-0507.2004.00983.x. PMID 15189186. S2CID 1340672.
- ^ a b Lysková, Pavlina (2007). "aprotrophic microscopic fungi and dermatophytes accompanying infections of the skin and nails of patients in the Moravian-Silesian Region (Czech Republic)". Czech Mycol. 59 (1): 125–137. doi:10.33585/cmy.59114.
- ^ Deshmukh, SK; Verekar, SA (December 2014). "Isolation of keratinophilic fungi from selected soils of Sanjay Gandhi National Park, Mumbai (India)". Journal de mycologie médicale. 24 (4): 319–27. doi:10.1016/j.mycmed.2014.08.004. PMID 25442920.
- ^ Ulfig, K; Guarro, J; Cano, J; Gené, J; Vidal, P; Figueras, MJ; Lukasik, W (1998). "A preliminary study of the occurrence of actidione-resistant fungi in sediments of Catalonian river mouths (Spain). I. Keratinolytic fungi and related Onygenales". Mycopathologia. 141 (3): 143–51. doi:10.1023/A:1006978032246. PMID 16284860. S2CID 2522325.
- ^ Murray, Patrick R.; Baron, Ellen Jo, eds. (2007). Manual of clinical microbiology (9th ed.). Washington, D.C.: ASM Press. ISBN 978-1-55581-371-0. OCLC 63195972.
- ^ Kane, Julius; Summerbell, Richard C.; Sigler, Lynne; Krajden, Sigmund; Land, Geoffrey (1997). Laboratory handbook of dermatophytes: a clinical guide and laboratory handbook of dermatophytes and other filamentous fungi from skin, hair, and nails. Belmont, CA: Star Pub. ISBN 978-0898631579.
- ^ Gräser, Yvonne; Scott, James; Summerbell, Richard (14 May 2008). "The New Species Concept in Dermatophytes—a Polyphasic Approach". Mycopathologia. 166 (5–6): 239–256. CiteSeerX 10.1.1.681.6863. doi:10.1007/s11046-008-9099-y. PMID 18478366. S2CID 3349369.
- ^ Schinabeck, MK; Ghannoum, MA (November 2003). "Human hyalohyphomycoses: a review of human infections due to Acremonium spp., Paecilomyces spp., Penicillium spp., and Scopulariopsis spp". Journal of Chemotherapy (Florence, Italy). 15 (Suppl 2): 5–15. doi:10.1179/joc.2003.15.Supplement-2.5. PMID 14708962. S2CID 30628156.
- ^ SÖNMEZ, Emine; DEMİRBAĞ, Zihni; DEMİR, İsmail (2016). "Pathogenicity of selected entomopathogenic fungal isolates against the oak lace bug, Corythucha arcuata Say. (Hemiptera: Tingidae), under controlled conditions". Turkish Journal of Agriculture and Forestry. 40: 715–722. doi:10.3906/tar-1412-10. Archived from the original on 23 March 2019. Retrieved 17 October 2019.
- ^ Sönmez, Emine; Sevim, Ali; Demirbağ, Zihni; Demir, İsmail (3 February 2016). "Isolation, characterization and virulence of entomopathogenic fungi from Gryllotalpa gryllotalpa (Orthoptera: Gryllotalpidae)". Applied Entomology and Zoology. 51 (2): 213–223. Bibcode:2016AppEZ..51..213S. doi:10.1007/s13355-015-0390-3. S2CID 18652114.