Skin Diseases Associated with Malassezia Species

Skin Diseases Associated with Malassezia Species

CLINICAL REVIEW Skin diseases associated with Malassezia species AdityaK.Gupta,MD,PhD,FRCPC,a,b Roma Batra, MPhil, PhD,b Robyn Bluhm, HBSc, MA,b,c Teun Boekhout, PhD,d and Thomas L. Dawson, Jr, PhDe Toronto and London, Ontario, Canada; Utrecht, the Netherlands; and Cincinnati, Ohio The yeasts of the genus Malassezia have been associated with a number of diseases affecting the human skin, such as pityriasis versicolor, Malassezia (Pityrosporum) folliculitis, seborrheic dermatitis and dandruff, atopic dermatitis, psoriasis, and—less commonly—with other dermatologic disorders such as confluent and reticulated papillomatosis, onychomycosis, and transient acantholytic dermatosis. Although Malassezia yeasts are a part of the normal microflora, under certain conditions they can cause superficial skin infection. The study of the clinical role of Malassezia species has been surrounded by controversy because of their fastidious nature in vitro, and relative difficulty in isolation, cultivation, and identification. Many studies have been published in the past few years after the taxonomic revision carried out in 1996 in which 7 species were recognized. Two new species have been recently described, one of which has been isolated from patients with atopic dermatitis. This review focuses on the clinical, mycologic, and immunologic aspects of the various skin diseases associated with Malassezia. It also highlights the importance of individual Malassezia species in the different dermatologic disorders related to these yeasts. (J Am Acad Dermatol 2004;51:785-98.) lthough yeasts of the genus Malassezia are also be affected by the clinical conditions associated a normal part of the skin flora, they are also with Malassezia. However, in the vast majority of Aassociated with several common dermato- patients, skin involvement is localized to specific logic conditions. It has been generally accepted that areas of the skin. In the past, it was believed that this pityriasis versicolor and Malassezia (Pityrosporum) genus (then known as Pityrosporum) consisted of folliculitis are caused by Malassezia yeasts. In the two species, which could often be differentiated on case of seborrheic dermatitis (SD) and dandruff (SD/ the basis of cellular morphology. In addition, reports D), the causal role of Malassezia has become clear, using the older Pityrosporum taxonomy suggested but the role of specific species is still being defined. that the relative prevalence of P orbiculare and P In atopic dermatitis (AD) and psoriasis, the evidence ovale varied with both body site1 and geographic for a causal relationship remains less defined. location of patients.2 However, there have been reports in the literature All Malassezia species have distinct morphologic linking all these disorders with the Malassezia yeasts. characteristics that allow them to be differentiated In general, because of their dependence on lipids for from other yeasts. However, the use of molecular survival, Malassezia yeasts are most often found in markers is essential to assign the correct taxonomic sebum-rich areas of the skin such as the trunk, back, position to the individual species. In 1996, Gue´ho et face, and scalp. Less frequently, they may also be al3 revised the Malassezia genus using morphology, found on other areas of the body including arms, ultrastructure, physiology, and molecular biology, legs, and genitalia. In some cases, these areas may and classified the genus into 7 species: M globosa; M restricta; M obtusa; M slooffiae; M sympodialis; From the Division of Dermatology, Department of Medicine, M furfur; and the nonlipid dependent M pachy- Sunnybrook and Women’s College Health Science Center dermatis. The recent identification of two new (Sunnybrook site) and the University of Torontoa; Mediprobe Malassezia species, M dermatis4 and M equi5 (not b c Research Inc, London ; University of Western Ontario, London ; yet formally described, but tentatively named), Centraalbureau voor Schimmelcultures, Utrechtd; and Proctor and Gamble, Cincinnati.e has further substantiated the need for molecular Supported in part by a grant from Proctor and Gamble. techniques to distinguish the various Malassezia Disclosure: Supported in part by a grant from Proctor and Gamble. species. With the revision of the taxonomy of Reprintrequests:AdityaK.Gupta,MD,PhD,FRCPC,645 Malassezia, there has been a renewal of interest in Windermere Rd, London, Ontario, Canada N5X 2P1. E-mail: their clinical importance. The development of phys- [email protected]. 0190-9622/$30.00 iologic and molecular techniques for distinguishing ª 2004 by the American Academy of Dermatology, Inc. between the 7 recognized species has led to new doi:10.1016/j.jaad.2003.12.034 research that examines the relationship between 785 786 Gupta et al JAM ACAD DERMATOL NOVEMBER 2004 patients with AD; and M equi (tentatively named) isolated from skin of healthy horses.4,5 There is also the clinical question of whether there is a relationship between particular Malassezia species and various dermatologic disorders, as different authors have debated whether Malassezia yeasts are of primary pathogenic significance or a secondary phenome- non. This review will discuss the skin diseases associated with Malassezia yeasts and discuss the evidence for individual species being associated with a given condition. SD/D Fig 1. Dandruff (A) and seborrheic dermatitis (SD) (B)on SD/D is perhaps the most common disease asso- scalp. Note larger, yellowish scale and scalp erythema in ciated with Malassezia yeasts, occurring in 1% to 3% SD versus dandruff. of the general population.19,20 The incidence of SD/D is much higher in patients who are immuno- these yeasts and skin disease. Several culture-based compromised, especially those with AIDS, ranging and molecular techniques have been evaluated for from 30% to 33%.21,22 Dandruff has recently received their use to distinguish the Malassezia species. Gupta much attention, as its presence can lead to loss of et al6 and Nakabayashi et al7 successfully conducted self-esteem and a negative social image.20 It is culture-based assays on samples from patients with a disorder that is generally discussed alongside SD pityriasis versicolor, SD, and AD, and from control because of the scaling effect of the scalp. The subjects.6-8 However, culture-based methods can be relationship between SD and dandruff has been biased because of different growth rates and culture controversial. Some investigators regard a diagnosis requirements of different species. Therefore, the of SD of the scalp as a way of describing severe emphasis is now on molecular techniques. dandruff, whereas others believe that the term Recently, Gemmer et al9 devised a specific and highly ‘‘dandruff’’ should be used for any flaking of the sensitive molecular method, terminal fragment scalp, regardless of origin.23-26 The resurgence of length polymorphism, suitable for the rapid and interest in the role of Malassezia yeasts in the de- reliable identification of Malassezia species from velopment of SD/D has provided additional evi- very small clinical samples. Polymerase chain re- dence that, in most cases, dandruff is a mild form of action restriction endonuclease analysis, amplified SD. Some authors believe that dandruff is a nonin- fragment length polymorphism analysis, and pulsed flammatory form of SD.20,27,28 Considering all avail- field gel electrophoresis are the other molecular able data, we consider SD and dandruff to be techniques that have been successfully used by differing severity manifestations of similar origin, Gupta et al,10 Theelen et al,11 and Boekhout et al,12 and we will, therefore, discuss them together in this respectively. review (Fig 1).20,29 The sole nonobligatory lipophilic species, M The vast majority of more recent data supports pachydermatis, is primarily zoophilic, although it a direct causal link between Malassezia and dan- has occasionally been isolated from human skin and druff. First, effective treatment of the condition can has also been implicated in nosocomial systemic occur with a wide range of material types, from zinc Malassezia infections.13-15 M furfur has also been salts and selenium salts to highly specific azoles, and implicated in several nosocomial outbreaks.16-18 the only known functional link between these mat- M globosa matches the original description of erials is their antifungal activity.30 The second Pityrosporum orbiculare, whereas M restricta supporting factor is that improvement in SD/D is visually resembles Pityrosporum ovale.9 Of the 6 accompanied by a reduction in Malassezia levels lipophilic specieseM obtusa, M restricta, M slooffiae, on the scalp.31 Although the absolute level of M sympodialis, M furfur, and M globosae Malassezia does not appear to correlate with the there is some question as to which species are more condition, its reduction, among those individuals commonly found on human skin, whether there is who express the symptoms, strongly supports its variation in the distribution of the yeasts on different role. The nature of why some individuals are sus- body sites, and whether there is geographic variation ceptible and others are not is less clearly defined and in species prevalence. Two new species have re- will require further research into individual suscep- cently been described: M dermatis isolated from tibility. JAM ACAD DERMATOL Gupta et al 787 VOLUME 51, NUMBER 5 Other diseases associated with SD/D are Parkinson’s disease, depression, spinal injuries,32 and pityriasis versicolor. They are somewhat more common in male patients than in female patients, and tend to occur most frequently in adolescents and young adults, and again in adults older than 50 years.24 The association of SD/D with adolescents and young adults is most likely caused by the in- crease in sebaceous activity during puberty.33,34 The disease appears to be influenced by seasons. The lesions worsen during winter, whereas sunlight seems to improve the clinical appearance of the disease. It is interesting to note, however, that Malassezia secretes a potent UV protectant Fig 2. Normal (A) and dandruff (B) scalp stratum cor- (Pityriacitrin) that confers resistance to UV radia- neum.

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