Fungi of the genus Trichosporon isolated from the skin  
in hospitalized patients

MARIA DYNOWSKA1, ANNA BIEDUNKIEWICZ1, ELŻBIETA EJDYS1  
EWA SUCHARZEWSKA1, and MAŁGORZATA ROSŁAN2

1Department of Mycology, Faculty of Biology and Biotechnology 
University of Warmia and Mazury in Olsztyn 

Oczapowskiego 1A, PL-10-917 Olsztyn, dynow@uwm.edu.pl 
2Independent Public Complex of Tuberculosis and Lung Diseases in Olsztyn 

Jagiellońska 78, PL-10-357 Olsztyn

Dynowska M., Biedunkiewicz A., Ejdys E., Sucharzewska E., Rosłan M.: Fungi of the genus 
Trichosporon isolated from the skin in hospitalized patients. Acta Mycol. 48 (2): 147–153, 2013.

Fungi of the genus Trichosporon are widespread in the biosphere and are a frequent 
component of the skin mycobiota. They are opportunistic organisms that adopt a commensal 
lifestyle on the skin in healthy humans but can cause pathological changes (trichosporonosis) 
of various intensity and range in immunocompromised persons. The species recorded 
in our study (T. asahii, T. capitatum, T. cutaneum, T. inkin, T. pullulans) are potential 
anthropopathogens. T. asahii, T. cutaneum and T. inkin are classed as BSL-2 in the biosafety 
classification.
Key words: mycobiota skin’s, opportunistic fungi, Trichosporon, yeasts, Basidiomycota

INTRODUCTION

The genus Trichosporon was established by Behrendt in 1890 (Barnett, Payne and 
Yarrow 1990) and included into yeast-like fungi. At present it belongs to yeasts 
(Kurtzman et al. 2011) and its species are related to Ascomycota and to Basidi-
omycota (de Hoog et 2000; Kurtzman, Fell 2000). Based on investigations of 18S 
rRNA and 26S rRNA, some species were placed in the genus Geotrichum, fam-
ily Dipodascaceae, order Saccharomycetales, while a vast majority of other species 
were included into the anamorphic Basidiomycota, genus Trichosporon (very closely 
related to Cryptococcus), family Filobasidiaceae, order Tremellales (de Hoog et al. 
2000). Teleomorphic stages have not been recorded in species belonging to Basidi-
omycota. Sexual forms have been described in several species of Ascomycota such 
as Dipodascus capitatus de Hoog, M. Th. Smith et Guého, which is a sexual stage of 
Trichosporon capitatum von Arx (Kurnatowska, Kurnatowski 2006).

ACTA MYCOLOGICA
Vol. 48 (2): 147–153

2013
DOI: 10.5586/am.2013.017

Dedicated to Professor Maria Ławrynowicz 
on the occasion of the 45th anniversary  

of her scientific activity



148 M. Dynowska et al. 

While fungi of the genus Trichosporon are euryecological organisms occurring 
in all climatic zones, each species prefers an ecological niche (de Hoog et al. 2000). 
The genus mostly includes anthropophiles which prefer the skin and its products but 
also colonize internal ontocoenoses as well as psychrophilic soil species (T. dulci-
tum (Berkhout) Weijman, T. sporotrichoides van Oorschot et de Hoog), coprophilic 
species close to them (T. faecale Guého et M. Th Smith), species preferring eutro-
phized waters (T. laibachii Guého et M. Th Smith) or clean waters (T. aquatile He-
drick et Dupont), species associated trophically with cap fungi (T. laubieri (Moretz) 
Weijman) and with birds (T. gracile Guého et M. Th. Smith) (Kurtzman, Fell 2000; 
Dynowska et al. 2008b).

Fungi of the genus Trichosporon are exogenic saprotrophs which are opportunis-
tic organisms. While they are not causative agents of pathological changes in healthy 
humans where the systemic balance is stable, they can colonize the human body 
asymptomatically and adopt a commensal lifestyle. They can attack the host when 
immunodeficient (Dynowska 1996; Baran 1998; Dynowska et al. 2011). The occur-
rence of fungi of the genus Trichosporon in biological materials in patients hospital-
ized for recurring respiratory infections, including suspected tuberculosis, was inves-
tigated in this study.

MATERIALS AND METHODS

Swabs were collected from the skin between fingers (I) and toes (II), and from the 
groin (III) and underarms (IV) in 50 patients, 25 men and 25 women, hospitalized 
at the Independent Public Complex of Tuberculosis and Lung Diseases in Olsztyn. 
Swabs were collected for mycological analysis and procedures used in laboratory di-
agnostics were followed (Annaisiae, Ginnis and Pfaller 2003; Kurnatowska, Kurna-
towski 2006). Fifty healthy persons presenting for a routine medical check-up were 
the control group.

Fungal macrocultures were conducted on solid and liquid Sabouraud medium 
with 0.1% chloramphenicol at 37oC for 48-72 hours. The incubation period was ex-
tended to seven days for the solid medium and to three weeks for the liquid medium 
if fungal growth was not observed. Microcultures were set up on slants coated with 
a thin film of Nickerson agar enriched with a few drops of 1:1 broth and rabbit se-
rum. The cultures were analyzed under a microscope after 48-72 (120) hours and 
the following were assessed: morphology of the hyphae, the presence of budding 
cells, shape, size and distribution of blastospores, arthrospores and chlamydospores. 
Arthrospores which are the most characteristic spores of the genus Trichosporon 
and hyphal branching were analyzed in special detail. Fermentation and assimila-
tion abilities of selected sugars and nitric compounds of the fungi were assessed (de 
Hoog et al. 2000; Kurtzman, Fell 2000).

Keys by de Hoog et al. (2000), Barnett, Payne and Yarrow (1990), Kreger – van 
Rij (1984), Kurtzman and Fell (2000), Kurtzman, Fell and Boekhout (2011) and 
specialist publications by Baran (1998) and Kurnatowska and Kurnatowski (2006) 
were used for identification.



 Fungi of the genus Trichosporon 149

RESULTS

A total of 93 isolates of fungi of the genus Trichosporon (46% of the samples) were 
identified in hospitalized patients: 57 isolates from men (61.3%) and 36 isolates 
from women (38.7%). Five species were detected: Trichosporon asahii Nishikawa 
Shinoda, T. capitatum Diddens et Lodder [= Magnusiomyces capitatus de Hoog et 
M. Th. Smith], T. cutaneum Ota [= T. beigelii Vuillemin], T. inkin do Carmo-Sousad 
Van Uden and T. pullulans Diddens et Lodder [= Guehomyces pullulans (Lindner) 
Fell et Scorzetti] (Tab. 1).

Considerably fewer isolates and species were recorded in the control group. 
A total of 52 isolates were identified (26% of the samples): 37 isolates from men 
(71.1%) and 15 isolates from women (28.9%). These belonged to three species: T. 
capitatum, T. cutaneum and T. inkin.

Fungi were isolated more frequently in men than in women in both groups. As 
many as three species were not isolated in healthy women: T. asahii, T. pullulans and 
T. inkin. T. asahii and T. pullulans were not isolated in healthy men (Tab. 1). T. cu-
taneum dominated in all the subjects. The number of its isolates was comparable in 
the hospitalized group and the healthy subjects: 55 and 42 isolates, respectively. The 
number of isolates of other species was considerably higher in the patients than the 
number of isolates recorded in the control group. 

It is interesting that T. asahii, T. cutaneum and T. inkin are not included in the 
biosafety classification of fungi potentially pathogenic to humans (BSL-2) of the 
European Confederation of Medical Mycology (de Hoog 1996). 

DISCUSSION

De Hoog (2000) reports nineteen species of the genus Trichosporon and specifies 
that nine of them can be associated with the human body. Six species are of clini-
cal importance, especially in immunocompromised persons: T. asahii, T. asteroides, 
T. cutaneum, T. inkin, T. mucoides and T. ovoides. Three of them were isolated in 

Table 1 
Fungi of the genus Trichosporon isolated from hospitalized patients and from healthy 

persons, segregated by gender, number of isolates of individual species and isolation site: 
I (the skin between fingers), II (the skin between toes), III (groin), IV (underarms)

Species of fungus Number of isolates
persons hospitalized healthy people

women men women men
T. asahii 1 (I) 1 (I) - -

T. capitatum 1 (I), 1 (II), 
3 (III), 1 (IV)

2 (I), 5 (II), 
5 (III), 1 (IV)

1 (II), 
1 (III), 1 (IV)

2 (II), 
1 (III), 2 (IV)

T. cutaneum 5 (I), 5 (II), 
10 (III), 5 (IV)

5 (I), 10 (II), 
10 (III), 5 (IV)

4 (I), 2 (II), 
4 (III), 2 (IV)

10 (I), 10 (II), 
5 (III), 5 (IV)

T. inkin - 5 (III) - 2 (III)
T. pullulans 2 (II), 2 (IV) 1 (I), 4 (II), 

1 (III), 2 (IV)
- -

Total 36 57 15 37
93 52



150 M. Dynowska et al. 

our study. T. asahii is especially important in patients with acute leukemia. It is 
sometimes isolated from pathological changes of the skin, nails (e.g. in complicated 
onychomycosis, from the lymphatic system, from blood and urine and in patients 
with inborn defects of the immune system (de Hoog et al. 2000).

Our results confirmed an association of fungi of the genus Trichosporon with 
patients with a disturbed systemic and cellular homeostasis. They also showed that 
some species of the genus Trichosporon could colonize the skin on healthy persons. 
According to Kurnatowska and Kurnatowski (2006), these fungi are associated with 
human keratin, which closely corresponds with our results. As well as changes within 
the skin and mucous membranes. Kurnatowska and Kurnatowski (2006) described 
trichosporonosis in the reproductive and urinary tracts where T. cutaneum was the 
aetiological agent.

T. cutaneum has the broadest aetiological spectrum. It can be responsible for 
superficial mycosis, chronic meningitis and spreading infections in HIV carriers, sys-
temic infections in leukaemia patients, in burn victims – after blood transfusion, 
and in surgical patients where catheters are often an infection route (de Hoog et al. 
2000). We have previously identified catheterization as an important source of my-
coinfections (Dynowska, Biedunkiewicz 2001). Although systemic infections caused 
by T. cutaneum are rare, their course is usually terminal. The species poses a special 
danger to tunic-free bedsore wounds and delayed-healing wounds, so-called „silent” 
post-operative infections. These wounds contain a high amount of protein in the 
serum and dead tissues which are a highly suitable substrate for the growth and 
multiplication of fungi. Infected wounds are one of the sources of nosocomial infec-
tions (Dynowska, Góralska and Rosłan 2008a). Observations show that T. cutaneum 
is one of the dominants in the mycobiota in hospital rooms (Dynowska, Pacyńska 
and Karaszewska 2008c) and it exhibits increasing expansiveness towards organ 
ontocoenoses in humans, especially in hospitalized patients (Swoboda-Kopeć et al. 
2001). Its prevalence in the respiratory system is high (Dynowska 1993). It was often 
isolated from the oral cavity, sputum and bronchoscopic fluid in persons diagnosed 
with cancer of the respiratory system and suspected of tuberculosis (Dynowska, Bie-
dunkiewicz and Sucharzewska 2002). High prevalence of multifocal infections was 
observed in this group of patients (Dynowska, Ejdys and Kisicka 2004). Reconnais-
sance studies (Dynowska et al. 2008b) of endoscopic material from persons with 
unidentified digestive system complaints show that the species has also colonized 
this ecological niche. 

T. capitatum is listed by Kurtzmann and Fell (2000) as a species that can colonize 
the oral cavity and the digestive tract. It was isolated relatively frequently from the 
respiratory tract (Dynowska 1993). T. capitatum was detected in the sputum and on 
the skin of healthy humans but it may be an aetiological factor of terminal systemic 
mycosis (Baran 1998). It has been shown to occur at different sites on the skin in 
healthy humans (except hands).

Our results confirmed that T. pullulans rarely occurred on the skin and it was 
isolated only from patients. It is mostly reported from the oral cavity and different 
sections of the respiratory tract (Dynowska 1993, 1996). It accompanies T. cutaneum 
in our study.

T. inkin, reported as a potentially pathogenic species only in the Polish litera-
ture (Kurnatowska, Kurnatowski 2006), is especially interesting. It was recorded in 



 Fungi of the genus Trichosporon 151

hospitalized and healthy men in our study. It seems to be gender-specific and associ-
ated with men. This is also suggested in studies by other authors (Lopes et. al. 1997; 
Guého et al. 1994) who stressed its broad aetiological spectrum: from dermatomy-
cosis, especially of damaged skin, to infections of the urinary tracts and terminal 
sections of the digestive tract, to endocarditis.

Drutz (1986) emphasized the risk of infection of organ ontocoenoses by T. cuta-
neum, T. capitatum and T. pullulans as early as over 20 years ago. According to Drutz 
(1986), these species are widespread in the biosphere and are a frequent component 
of the skin mycobiota. They can penetrate the oral and nasal cavities from the skin 
and transfer into to the ontosphere from there. It is disconcerting that as many as 
three species of the five species isolated by us are classified as BSL-2. This category 
comprises fungi colonizing organisms of invertebrates and vertebrates, with a high 
ability to survive in tissues of different organs, that can cause deep-seated opportu-
nistic infections in immunocompromized persons (de Hoog 1996). According to An-
naisiae et al. (2003), fungi of the genus Trichosporon prefer sites around the groin, 
sexual organs and the anus. Piedra alba, a chronic infection of the hair in different 
parts of the body, as well as infections of nails and mucous membranes of the oral 
cavity are very common infections caused by fungi of the genus Trichosporon, mostly 
T. cutanum and T. inkin, in the tropical and subtropical climates (Richardson, War-
nock 1993). Due to intensive tourism these diseases and their causal agents can be 
unintentionally introduced to our climatic zone. The risk of infection by new species 
of fungi increases as they widen the area of their occurrence in the biosphere and 
penetrate the human ontosphere (Dynowska 1996; Dynowska, Biedunkiewicz 2001; 
Dynowska et al. 2008b). 

CONCLUSIONS

Human skin should be treated as a natural reservoir of potentially pathogenic fungi. 
As well as being inhabited by typical dermatophytes, it is colonized by numerous 
yeasts. Fungi of the genus Trichosporon seem to be of primary importance.

REFERENCES

Annaisiae E.J., Mc Ginnis M.R., Pfaller M.A. 2003. Clinical Mycology. Els. Scien. and Church. Leving, 
New York, Edinburgh, London, Philadelphia.

Baran E. (ed.) 1998. Zarys mikologii lekarskiej. Volumed - Wrocław.
Barnett J.A., Payne R., Yarrow D. 1990. Yeast: characteristic and identification. Cambridge University 

Press, Cambridge.
de Hoog G.S. 1996. Risk assessment of fungi report from human and animals. Mycoses 39:407-417.
de Hoog G.S., Guarro J., Gené J., Figueras M.J. 2000. Atlas of Clinical Fungi. Centraalbureau voor 

Schimmelcultures, Utrecht, Univ. Rovira i Virgili, Reus, Spain.
Drutz D.J. 1986. Opportunistic pulmonary mycoses. Respiratory Infections. Church. Leving, New York, 

Edinburgh, London, Melbourne: 293-316.
Dynowska M. 1993. Changes in mycoflora of man’s respiratory system – observed during last some years 

– yeasts. Acta Mycol. 28 (2): 151-155.
Dynowska M. 1996. Trichosporon species isolated from human respiratory system. Acta Mycol. 31 (2): 

137-141.



152 M. Dynowska et al. 

Dynowska M., Biedunkiewicz A. 2001. Grzyby chorobotwórcze o wzrastającej ekspansywności. Wiad. 
Parazyt. 47 (4): 609-613.

Dynowska M., Biedunkiewicz A., Sucharzewska E. 2002. Participation of yeast-like fungi in respiratory 
system diseases tuberculosis and neoplasms. Acta Mycol. 37 (1/2): 117-122.

Dynowska M., Ejdys E., Kisicka I. 2004. Suscebility to antyfungal agents of yeast - like fungi and yeast 
isolated from people with multifocal infections. Mikol. Lek. 11 (1):15-19.

Dynowska M., Góralska K., Rosłan M. 2008a. Udział grzybów drożdżopodobnych w zakażeniach szpital-
nych. Mikol. Lek. 15 (3): 151-154.

Dynowska M., Góralska K., Szewczyk T., Buczyńska E. 2008b. Godne uwagi gatunki grzybów izolowane 
z przewodu pokarmowego osób poddawanych endoskopii – badania rekonesansowe. Mikol. Lek. 15 
(2): 80-83.

Dynowska M., Pacyńska J., Karaszewska H. 2008c. Ocena mikologiczna szpitalnego laboratorium dia-dia-
gnostycznego. (In:) J. Garbacz (ed.). Diagnozowanie stanu środowiska. Prace Komisji Ekologii 
i Ochrony Środowiska BTN: 47-54.

Dynowska M., Góralska K., Troska P., Barańska G., Biedunkiewicz A., Ejdys E., Sucharzewska E. 2011. 
Results of long-standing mycological analyses of biological materials originating from selected organ 
ontocenoses-yeast and yeast-like fungi. Wiad. Parazyt. 57 (2): 97-102.

Guého E., Improvisi G. S., de Hoog G. S., Dupont B. 1994. Trichosporon on humans: a practical account. 
Mycoses 37: 3-10. http://dx.doi.org/10.1111%2Fj.1439-0507.1994.tb00277.x

Kurnatowska A., Kurnatowski P. 2006. Mikologia medyczna. Promedi - Łódź.
Kurtzman C.P., Fell J.W. 2000. The Yeast. A taxonomic study. 4th ed., Elsevier – Amsterdam.
Kurtzman C.P., Fell J.W., Boekhout T. 2011. The Yeast. A taxonomic study. 5th ed. Elsevier – Tokyo.
Lopes J.O., Alves S.H., Klock C., Oliveira T.L.O., Forno N.R.F. 1997. Trichosporon inkin peritonitis du-

ring continuous ambulatory peritoneal dialysis bibliography review. Mycopathol. 139: 15-18. http://
dx.doi.org/10.1023%2FA%3A1006870017725

Richardson M.D., Warnock D.W. 1993. Fungal Infection. Diagnosis and Management. Blackwell Scien. 
Publ. – Oxford.

Swoboda-Kopeć E., Rakosz A., Sawicka-Grzelak A., Wróblewska M., Krawczyk E., Stelmach E., Łuczak 
M. 2001. Etiologiczne czynniki fungemii u hospitalizowanych pacjentów. Med. Dośw. Mikrobiol. 53: 
291-295.

Grzyby z rodzaju Trichosporon izolowane ze skóry osób hospitalizowanych

Streszczenie

Grzyby z rodzaju Trichosporon są szeroko rozpowszechnione w biosferze i stanowią częsty 
komponent mykobioty skóry (powinowactwo do keratyny ludzkiej). Z niej mogą dostawać 
się do jamy ustnej, jam nosa a następnie przenosić się w głąb ontosfery. Jako formy oportu-
nistyczne u osób zdrowych prowadzą komensaliczny tryb życia, u osób z zaburzeniami odpor-
ności mogą wywoływać zmiany chorobowe (trychosporonozy) o różnym nasileniu i różnym 
zasięgu. Oprócz skóry i błon śluzowych najczęściej atakowany jest układ moczowy i płciowy 
a jako droga zakażenia wymieniane są cewniki. Odnotowano przypadki zakażeń układowych 
kończących się śmiercią. Grzyby z rodzaju Trichosporon są szczególnie niebezpieczne dla trud-
no gojących się ran chirurgicznych i ran odleżynowych.

Materiał badawczy stanowiły wymazy ze skóry między palcami rąk i nóg oraz pachwin 
i pach 50 pacjentów (25 kobiet i 25 mężczyzn) SPZG i ChP w Olsztynie (hospitalizacja z po-
wodu nawracających infekcji układu oddechowego, w tym podejrzeniami o gruźlicę). Grupą 
kontrolną było 50 osób zdrowych, zgłaszających się na badania okresowe. Analizy laborato-



 Fungi of the genus Trichosporon 153

ryjne i oznaczanie grzybów do gatunku przeprowadzono zgodnie z ogólnie przyjętym tokiem 
diagnostycznym w laboratoriach mykologicznych.

Od pacjentów hospitalizowanych uzyskano 93 izolaty grzybów z rodzaju Trichosporon na-
leżące do 5 gatunków: T. asahii, T. capitatum, T. cutaneum. T. inkin i T. pullulans. W grupie 
kontrolnej uzyskano 52 izolaty reprezentujące 3 gatunki: T. capitatum, T. cutaneum i T. inkin. 
W obydwu grupach grzyby częściej notowano u mężczyzn niż u kobiet. Zdecydowanym do-
minantem był T. cutaneum – liczba jego izolatów u osób hospitalizowanych i zdrowych była 
porównywalna. W przypadku pozostałych gatunków liczba izolatów uzyskanych od osób ho-
spitalizowanych znacznie przewyższała liczbę izolatów stwierdzonych w grupie kontrolnej. 
Wszystkie gatunki odnotowane w przeprowadzonych badaniach należą do potencjalnych 
antropopatogenów, a T. asahii, T. cutaneum i T. inkin są uwzględnione w klasyfikacji biobez-
pieczeństwa z kategorią BSL-2. W tej kategorii znajdują się grzyby zasiedlające organizmy 
bezkręgowców i kręgowców, o dużej zdolności przeżywania w tkankach różnych narządów, 
mogące wywoływać głębokie oportunistyczne zakażenia.

Reasumując, skórę człowieka należy traktować jako jeden z naturalnych rezerwuarów 
mikrogrzybów potencjalnie chorobotwórczych. Oprócz typowych dermatofitów jest ona sie-
dliskiem licznych drożdży, wśród których grzyby z rodzaju Trichosporon wydają się odgrywać 
pierwszoplanową rolę.


		2013-12-20T14:40:09+0100
	Polish Botanical Society