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Species: | S. salmonicolor
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Sporobolomyces salmonicolor is a yeast-like fungus in the Basidiomycota. It is generally considered a Biosafety Risk Group 1 fungus;[1] however isolates of S. salmonicolor have been recovered from cerebrospinal fluid, infected skin, a nasal polyp, lymphadenitis and a case of endophthalmitis.[2][3][4][5] It has also been reported in AIDS-related infections.[1] Sporobolomyces salmonicolor predominantly exists in the asexual state as a unicellular, haploid yeast, yet can sometimes produce a sexual state when conjugation of compatible yeast cells occurs. The asexual form of S. salmonicolor consists of a characteristic, pink, ballistosporic yeast.[6] Ballistoconidia are borne from slender extensions of the cell known as sterigma, and are forcibly ejected into the air upon maturity.[6] Levels of airborne yeast cells peak during the night and are abundant in areas of decaying leaves and grains.[2][3] Three varieties of Sporobolomyces salmonicolor have been coined; S. salmonicolor var. albus, S. salmonicolor var. fischerii, and S. salmonicolor var. salmoneus.[6]
Taxonomy
[edit]In 1924, Kluyver and van Niel coined the genus Sporobolomyces and classified it under the Basidiomycota.[6] They recognized that the yeast phase produced by Sporobolomyces exhibited the same forcible discharge mechanism as the basidiospores of the Basidiomycota.[7] They therefore hypothesized that the asexual ballistoconidia of Sporobolomyces are homologues with the basidiospores of the Basidiomycota.[8] Their hypothesis however was questioned by many who did not consider the asexual nature of the ballistoconidia as a basidiomycetous trait. Its classification as a basidiomycetous yeast was further demonstrated by Nyland (1949) with the discovery of its teleomorph; the genus Sporidiobolus.[6] The teleomorph presented basidiomycetous traits such as the presence of dikaryotic hyphae with clamp connections and the formation of resting spores known as teliospores.[6] In the past, Sporidiobolus salmonicolor was thought to be conspecific with Sporidiobolus johnsonii; however it is now well established that they are distinct taxa.[6] Sporidiobolus salmonicolor is distinguished from S. johnsonii by the absence in the former of assimilation of maltose, methyl-a-D-glucoside, cellobiose or salicin.[6]
Morphology
[edit]Colonies of Sporobolomyces salmonicolor produce visible, liposoluble carotenoid pigments, resulting in salmon-pink colored colonies. The colony surface is smooth and has a pasty texture.[1][9] There is considerable cell and colony morphology when S. salmonicolor is grown in culture.[6] The budding yeast-like cells produced during the asexual stage are ellipsoidal to subcylindrical in shape and 8–25 × 2–5.5 μm in size. They can occur singly or in pairs.[6][1] The ballistoconidia produced are kidney-shaped and can range in size from 6–18 × 2.5–7.0 μm. The characteristic ballistoconidia are borne by extension of the sterigmata which can reach up to 50 μm in length.[6][1][4] Pseudohyphae and true hyphae may also be present.[6]
In its sexual state, Sporidiobolus salmonicolor produces dikaryotic hyphae with clamp connections.[1][4] At the terminal end of the hyphae, thick-walled teliospores are produced. Teliospores are 9-15μm in diameter, brown in color, spherical in shape and contain lipid-rich globules.[6][1] Upon germination of the teliospore, basidia with basidiospores are produced. Basidia are transversely septate, two-celled and 4-6 x 20-25 μm in size. Each basidium will generally produce two large basidiospores that are 5–6 × 7–10 μm in size.[6] Prior to the production of the basidium, endospores have also been known to form in the interior of teliospores.[8] This phenomenon is associated with the production of meiospores within the teliospore cytoplasm, ultimately released by rupture of the teliospore wall.[8]
Life cycle
[edit]In 1969, Van der Walt and Pitout elucidated the life cycle of S. salmonicolor’s.[7] They performed DNA analysis on a colony of S. salmonicolor grown from a single cell in culture. After several generations, they observed a 2:1 ratio of diploid and haploid cells, respectively. The diploid cells were recovered from thick-walled resting spores known as teliospores. Meiosis was occurring within the teliospore, followed by germination of the teliospore and beginning of the haploid yeast state.[7] Sporobolomyces salmonicolor is predominantly a yeast-like fungus. It is typically found in the asexual state as a unicellular haploid yeast, however a sexually reproducing state can sometimes form. The name Sporobolomyces salmonicolor refers to the anamorph state whilst the name Sporidiobolus salmonicolor refers to its teleomorph state.[6]
Sporidiobolus salmonicolor is a heterothallic species; two mating types are known.[6] Induction of the sexual stage begins with anastomosis of compatible yeast cells to form dikaryotic hyphae with clamp connections.[1][4][6] Hyphae have “simple” septal pores that allow continuity of the cytoplasm between cells. At the terminal end of the hypha, thick-walled, resting spores called teliospores form. These germinate to form a transversely-septate basidia that bears two large basidiospores.[6]
Physiology
[edit]The optimum temperature for growth of Sporobolomyces salmonicolor is between 25–35 °C (77–95 °F), being the highest tolerable temperature. Growth does not occur at 37 °C (99 °F).[6][1] This species does not undergo fermentation.[1] Additionally, Sporobolomyces salmonicolor shows positive urease activity and a positive staining response when stained with diazonium blue B.[6] Diazonium blue B is a technique used to classify anamorphic (asexual) yeasts as either zygomycetes, Basidiomycota or Ascomycota.[10] The major ubiquinone present is Q-10.[6] Components of the Sporobolomyces salmonicolor cell wall include fucose, mannose, glucose and galactose, however xylose is absent.[6]
Sporobolomyces salmonicolor colonies grow in the presence of glucose, sucrose, maltose, cellobiose, α,α-trehalose, melezitose, D-arabinose, ethanol, glycerol, D-mannitol, D-glucitol, D-gluconate, succinate, nitrate and urease.[1] This species does not assimilate myo-inositol or D-glucuronate, and do not form extracellular starch-like compounds.[8]
Distribution and ecology
[edit]Sporobolomyces salmonicolor has a broad geographical distribution. It has been isolated from many areas across the world including Europe, North and South America, Asia and Africa where it is known from a broad spectrum of substrates.[6] It is principally characterized as a phyllosphere fungus and is commonly found in areas of decaying organic material such as leaves and grains as well as ripening grapes.[2][3][11] Isolates of this species however have been recovered from freshwater, marine water and clinical specimens.[6] It has also been isolated from agricultural areas and indoor built environments.[12][13] In agricultural environments, Sporobolomyces salmonicolor can pose a respiratory hazard for agricultural workers. Agricultural workers are subject to increased exposure when they partake in activities involving the handling of grains. Sporobolomyces salmonicolor has additionally been isolated from straw in hay barns or hay lofts. Workers in these settings should consider the proper use of masks to avoid infection. If individuals show atopic symptoms, a change in occupation might be considered.[13] In indoor environments, S. salmonicolor has been associated with severe water and mould damage.[12][14] Flooded basements and utility rooms are places where S. salmonicolor may be recovered. This fungus will also commonly associate with standing water films, although not very much has been documented on this. It can form a pink water film around stagnant toilet water. The most efficient way to avoid exposure in the home is to eliminate moisture sources and keep bathrooms clean, dry and ventilated.[12]
Pathogenicity
[edit]Sporobolomyces salmonicolor is generally interpreted to be a Biosafety Risk Group 1 fungus.[1] It is considered an opportunistic fungal pathogen of immunocompromised individuals and has been reported in AIDS-related infections.[1] Sporobolomyces salmonicolor has been associated with nasal polyps, lymphadenitis, bone marrow involvement in AIDS patients, infected skin, pseudomeningitis and a case of endophthalmitis.[2][3][5] S. salmonicolor is also considered a type 1 allergen and has been known to cause asthma, nosocomial allergic alveolitis, and rhinitis.[14][15]
A 31 year-old woman went to her physician because of decreased vision in her left eye. The left eye showed fibrinous exudates, posterior synechiae and vitritis.[3] After a vitreous sample was sent to the lab for identification, the yeast was identified as Sporobolomyces salmonicolor. The recommended treatment was voriconazole 200mg, twice a day for two months. Improvement in the left eye was seen within a week.[3] Exposure to mould and yeast within a military hospital in Finland lead to an outbreak of asthma, alveolitis and rhinitis.[14] The building was known to have severe water and mould damage. After performing inhalation provocation tests, four cases of asthma caused by Sporobolomyces salmonicolor were reported. An additional seven workers were diagnosed with rhinitis. All seven individuals with rhinitis acted positively in nasal S. salmonicolor provocation tests.[14] Sporobolomyces salmonicolor was recovered from the cerebrospinal fluid of three patients in a hospital, one of whom was a kidney transplant recipient.[2] Heavy growth of S. salmonicolor was recovered from utility rooms on the floors of each patient, and from the hospital rooms of two patients. It was suggested that this particular case was most likely caused by contamination. During the collection process, S. salmonicolor was most likely introduced into the CSF as a contaminant.[2]
Treatment
[edit]Clinical infections due to Sporobolomyces salmonicolor are rare and there are currently no standard therapies for infection.[5] Treatment with amphotericin B alone, and amphotericin B followed by either ketoconazole or fluconazole have been successful. In one case of endophthalmitis (mentioned in case report below), treatment with voriconazole was likewise successful.[3] A small number of isolates however demonstrate resistance to fluconazole and micafungin.[5]
In literature
[edit]The genus Sporobolomyces was the unexpected subject of a poem, The Sporobolomycetologist, with an accompanying musical score, written by the eccentric Canadian mycologist Arthur Henry Reginald Buller.[16]
References
[edit]- ^ a b c d e f g h i j k l m de Hoog, G. S (2000). Atlas of clinical fungi (2. ed. ed.). Utrecht: Centraalbureau voor Schimmelcultures [u.a.]
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:|edition=
has extra text (help) - ^ a b c d e f Bross, J.E (1986). "Pseudomeningitis caused by Sporobolomyces salmonicolor". American Journal of Infection Control. 14 (5): 220–223.
- ^ a b c d e f g Sharma, V (2006). "Endogenous endophthalmitis caused by Sporobolomyces salmonicolor". 20 (8): 945–946.
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: Cite journal requires|journal=
(help) - ^ a b c d St. Germain, Guy (2011). Identifying Fungi (2 ed. ed.). Stuart A. Hoffman. ISBN 978-08986-311-5.
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has extra text (help); Check|isbn=
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suggested) (help) - ^ a b c d Pfaller, [edited by] Elias J. Anaissie, Michael R. McGinnis, Michael A. (2009). Clinical mycology (2nd ed. ed.). [Edinburgh?]: Churchill Livingstone. ISBN 978-1-4160-5680-5.
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has extra text (help);|first1=
has generic name (help)CS1 maint: multiple names: authors list (link) - ^ a b c d e f g h i j k l m n o p q r s t u v w x Kurtzman, edited by Cletus P.; Fell, Jack W.; Boekhout, Teun (2011). The yeasts : a taxonomic study (5th ed. ed.). Amsterdam: Elsevier. ISBN 978-0-444-52149-1.
{{cite book}}
:|edition=
has extra text (help);|first1=
has generic name (help) - ^ a b c van der Walt, J. P. (December 1970). "The perfect and imperfect states ofSporobolomyces salmonicolor". Antonie van Leeuwenhoek. 36 (1): 49–55. doi:10.1007/BF02069007.
- ^ a b c d Boekhout, Teun (1995). "Heterobasidiomycetes: Systematics and Applied Aspects". Studies in Mycology. No. 38.
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has extra text (help) - ^ Fell, edited by Cletus P. Kurtzman, Jack W. (1998). The yeasts : a taxonomic study (4th ed. ed.). Amsterdam: Elsevier. ISBN 9780444813121.
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:|edition=
has extra text (help);|first1=
has generic name (help)CS1 maint: multiple names: authors list (link) - ^ Summerbell, Richard C. (1985). "The Staining of Filamentous Fungi with Diazonium Blue B". Mycologia. 77 (4): 587–593.
- ^ ed, Helmut König ... (2009). Biology of microorganisms on grapes, in must and in wine. Berlin: Springer. ISBN 978-3-540-85462-3.
- ^ a b c Chapman, Jean A. (1 September 1999). "Update on Airborne Mold and Mold Allergy". Allergy and Asthma Proceedings. 20 (5): 289–292. doi:10.2500/108854199778251889.
- ^ a b Linaker, C. (1 December 2002). "Respiratory illness in agricultural workers". Occupational Medicine. 52 (8): 451–459. doi:10.1093/occmed/52.8.451.
- ^ a b c d Seuri1, Markku (2000). "An Outbreak of Respiratory Diseases among Workers at a Water-Damaged Building- A case report". Indoor Air. 10 (3): 138–145.
{{cite journal}}
: CS1 maint: numeric names: authors list (link) - ^ Heseltine, [edited by Elisabeth; Rosen], Jerome (2009). WHO guidelines for indoor air quality : dampness and mould. Copenhagen: WHO Regional Office for Europe. ISBN 9789289041683.
{{cite book}}
:|first1=
has generic name (help) - ^ Goldsborough, Gorden. "Reginald Buller: The Poet-Scientist of Mushroom City". The Manitoba Historical Society.
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