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Lack of association between genotypes and virulence factors in C. albicans strains isolated from vaginal secretion

Ausência de associação entre genótipos e fatores de virulência em C. albicans isoladas de secreção vaginal

Abstracts

The physiopathogenesis of vulvovaginal candidiasis (VVC) is still not completely elucidated. The objective of this study was to evaluate if there is a relationship between the different genotypes of Candida albicans, their main agent and the virulence of this yeast in vaginal isolates, and to check if there are laboratorial markers that can predict the ability of each isolate to develop VVC independently of symptoms. The production of exoenzymes protease, phospholipase and haemolysin, resistance to hydrogen peroxide, and the genotype were determined. Genotype A was predominant (75%), protease, phospholipase and haemolytic activity were highly expressed, and the majority of the yeasts were sensitive to H2O2 in 1 and 2 hours of exposure, suggesting that these factors are important in the virulence of vaginal isolates. However they did not have any correlation with the genotypes. The different isolates expressed similar virulence potential, suggesting that other factors relating to the yeasts and the host must participate in the development of the clinical disease.

C. albicans; vulvovaginal candidiasis; genotype; virulence factors


A fisiopatogenia da candidíase vulvovaginal (CVV) não está completamente elucidada até o presente momento. O objetivo deste estudo foi avaliar se exite relação entre os diferentes genótipos de Candida albicans, seu principal agente, e a virulência desta levedura em isolados vaginais, e checar se existem marcadores laboratoriais que possam predizer a habilidade de cada isolado para desenvolver CVV independentemente dos sintomas. Foram determinados a produção de exoenzimas protease, fosfolipase and hemolisina, resistência ao peróxido de hidrogêncio, e genótipo. O genótipo A foi predominante (75%), protease, fosfolipase e atividade hemolítica foram alevadamente expressos, e a maioria das leveduras foram sensíveis ao H2O2 em 1 e 2 horas de exposição, sugerindo que estes fatores são importantes na virulênciae de isolados vaginais. Entretanto, não houve nenhuma correlação com os genótipos. Os diferentes isolados expressaram potencial de virulência similares, sugerindo que outros fatores relacionados às leveduras e ao hospedeiro devem participar no desenvolvimento da doença clínica.

C. albicans; candidíase vulvovaginal; genótipo; fatores de virulência


MEDICAL MICROBIOLOGY

Lack of association between genotypes and virulence factors in C. albicans strains isolated from vaginal secretion

Ausência de associação entre genótipos e fatores de virulência em C. albicans isoladas de secreção vaginal

Cristiane Suemi ShinobuI; Sueli Fumie Yamada OgattaII; Fenando BizerraII; Luciana FurlanetoII; Rosane Marina PeraltaIII; Terezinha Inez Estivalet SvidzinskiI; Marcia Edilaine Lopes ConsolaroI,* * Corresponding Author. Mailing address: Departamento de Análises Clínicas, Universidade Estadual de Maringá (UEM), Maringá, Paraná, Brasil. Av. Colombo, 5790, CEP: 87020-900, Brasil. Tel.: +55 44 3261-4795; Fax: +55 44 3263-1387. E-mail: melconsolaro@yahoo.com.br

IDepartamento de Análises Clínicas, Universidade Estadual de Maringá, Maringá, PR, Brasil

IIDepartamento de Microbiologia, Universidade Estadual de Londrina, Londrina, PR, Brasil

IIIDepartamento de Bioquímica, Universidade Estadual de Maringá, Maringá, PR, Brasil

ABSTRACT

The physiopathogenesis of vulvovaginal candidiasis (VVC) is still not completely elucidated. The objective of this study was to evaluate if there is a relationship between the different genotypes of Candida albicans, their main agent and the virulence of this yeast in vaginal isolates, and to check if there are laboratorial markers that can predict the ability of each isolate to develop VVC independently of symptoms. The production of exoenzymes protease, phospholipase and haemolysin, resistance to hydrogen peroxide, and the genotype were determined. Genotype A was predominant (75%), protease, phospholipase and haemolytic activity were highly expressed, and the majority of the yeasts were sensitive to H2O2 in 1 and 2 hours of exposure, suggesting that these factors are important in the virulence of vaginal isolates. However they did not have any correlation with the genotypes. The different isolates expressed similar virulence potential, suggesting that other factors relating to the yeasts and the host must participate in the development of the clinical disease.

Key-words:C. albicans, vulvovaginal candidiasis, genotype, virulence factors.

RESUMO

A fisiopatogenia da candidíase vulvovaginal (CVV) não está completamente elucidada até o presente momento. O objetivo deste estudo foi avaliar se exite relação entre os diferentes genótipos de Candida albicans, seu principal agente, e a virulência desta levedura em isolados vaginais, e checar se existem marcadores laboratoriais que possam predizer a habilidade de cada isolado para desenvolver CVV independentemente dos sintomas. Foram determinados a produção de exoenzimas protease, fosfolipase and hemolisina, resistência ao peróxido de hidrogêncio, e genótipo. O genótipo A foi predominante (75%), protease, fosfolipase e atividade hemolítica foram alevadamente expressos, e a maioria das leveduras foram sensíveis ao H2O2 em 1 e 2 horas de exposição, sugerindo que estes fatores são importantes na virulênciae de isolados vaginais. Entretanto, não houve nenhuma correlação com os genótipos. Os diferentes isolados expressaram potencial de virulência similares, sugerindo que outros fatores relacionados às leveduras e ao hospedeiro devem participar no desenvolvimento da doença clínica.

Palavras-chave:C. albicans, candidíase vulvovaginal, genótipo,fatores de virulência.

INTRODUCTION

Candida albicans is the most important species of yeast in the female genital tract. About 20 to 25% of healthy and completely asymptomatic women present positive vaginal secretion cultures for this fungus. Around 75% of adult women have at least one episode of vulvovaginal candidiasis (VVC) during their life, with prevalence of C. albicans in 70-90% (4). Some of these patients will experience episodes again and 5% will suffer recurrent VVC (RVVC) (13).

According to Ziarrusta (23), VVC is caused by the transformation of the yeasts from coloniser status (asymptomatic) to infectious agents (symptomatic vaginitis). However, the factors responsible for this transformation and the mechanisms that result in the pathological effects of C. albicans are poorly understood (7).

C. albicans presents various virulence factors such as exoenzyme secretion, capacity of adherence and morphogenesis (2). The association of clinical symptoms with the production of germ tubes by the yeast has recently been demonstrated (5). The production of exoenzymes such as proteases and phospholipases are factors which have been classically understood (6,8). Others, such as haemolytic activity (11,12) and the resistance to hydrogen peroxide (18,19), are still little studied, especially in vaginal isolates.

Recent advances in technologies based in molecular biology have enabled the increase of information about the genetic diversity of C. albicans. The genotypes of this yeast have been associated with different infection sites (18) and with susceptibility to antifungal drugs (20). Recently, Chong et al. (4), in a study of genetic similarities by random amplification of the polymorphic DNA (RAPD) of Malaysian patients with VVC and RVVC, found that patients with RVVC are more frequently colonised by the same isolate of Candida. However, little is known about the relation of the genotypes with the virulence capacity of C. albicans in the vagina. The genotyping is based in the gene rRNA of this fungus. The group I intron is a 379-base-long sequence insert at position 2,420 of the rRNA gene of some C. albicans strains (genotype B), or do not have this intron (genotype A) and a mixture of intron-containing and intronless 26S rRNA genes (genotype C). Of the pathogenic yeasts, only C. albicans and C. dubliniensis possess the 26S rRNA intron (20).

In spite of the technological advances, the physiopathogenesis and the clinical management of VVC remain unclear. Considering the limitation of the diagnosis of VVC only by clinical evaluation (16), the purpose of this study was to evaluate if there are laboratorial markers that can predict the capacity of a determined C. albicans isolate to develop VVC and also if there is a relation between genotypes and virulence for this fungus in vaginal isolates.

MATERIALS AND METHODS

Sampling, culturing procedures and identification of yeasts

Research has been undertaken with C. albicans isolates of the vaginal secretions the women at the Teaching and Research in Clinical Analyses Laboratory (LEPAC) of the State University of Maringá, PR Brazil. They were identified as C. albicans initially using cervical-vaginal material collected for fungus culture and samples were seeded in plates with Sabouraud Dextrose Agar (SDA- Difco, USA), plus chloramphenicol (Sigma, USA) 0.2 g/l, incubated at 35ºC, for 48-72 hours. A pool of growing colonies were subcultivated in CHROMagar Candidaâ (Probac, França) to investigate purity of culture and colony's color. The yeasts growing this differential selective medium were identified, according to classical methodology (9, 10).

Identified molecular and genotyping

The isolates were molecularly identified as C. albicans using the methodology of Ahmad et al. (1) and genotyped using rDNA sequence analysis. Their genotype was determined by PCR using primers that span the intron site in the 26S rRNA gene: CaLSU-F (5'-GTTAATCCATTCATGCGCGTCAC-3') and CaLSU-R (5'-GTTTCCTGCCCAGTGCTCTG-3'). PCR was performed according Sugita et al. (2002).

Production of phospholipases and proteinases

The production of phospholipases was determined using the egg-yoke plate method described by Price et al. (15) and the extracellular proteinase activity by the bovine serum albumin plate method described by Ruchel et al. (17), both with incubation for 96 h at 37ºC. The presence of enzymes was detected by the formation of a clear zone of hydrolysis around the colony. The enzymatic activity (Pz) was measured by ratio between the diameter of the colony and the diameter of the colony plus the zone of precipitation. The tests were conducted in duplicate on 3 different occasions. The isolate C. albicans 12A, donated by the Institute of Biomedical Sciences University of São Paulo, was used as a positive control.

Hemolytic activity

The hemolytic activity was determinated by plate assay method described by Luo et al. (11). Spots have been made on a sugar-enriched sheep blood agar medium. The latter medium was prepared by adding 7 ml of fresh blood (CPPI-Brazil) to 100 ml of SDA supplemented with 3% glucose (Sigma, USA) providing a final concentration of 7%. The final pH of the medium so prepared was 5.6 ± 0.2. The plates were incubated at 37ºC in 5% CO2 for 48h. The presence of a distinct translucent halo around the inoculum site, viewed with transmitted light, indicated positive hemolytic activity. The diameters of the zones of lysis and the colony were measured, and this ratio (equal to or larger than 1) was used as a hemolytic index to represent the intensity of the hemolysin production by C. albicans. The assay was conducted in duplicate on three separate occasions.

Susceptibility to hydrogen peroxide

Susceptibility to hydrogen peroxide was investigated according Vilela et al. (22). The yeast were cultured in a 96-well microplate beginning with an inocultion of 2X106 ml-1 in RPMI 1640 (Sigma, Germany) supplemented with 1 or 10 mM hydrogen peroxide (Sigma, USA). They were incubated at 37ºC for 1-2 h and spread in plates with SDA for the determination of viability by counting the colony formation units (cfu).The assay was conducted in quadruplicate on two separate occasions.

RESULTS

Strains

One hundred and sixty-one patients were evaluated. Positive fungus culture had a frequency of 21.7% (35 patients). Twenty C. albicans was isolate and utilized in this study (numbered from 1 to 20 by isolation order).

Genotype distribution

The genotype distribution of the 20 C. albicans was: A 75.0% (n=15), B and C 10.0% each (n=2). One isolate (number 10) was not molecularly identified as C. albicans and for this reason was excluded from the study of virulence factors. The PCR products obtained are shown in Fig. 1.


Relation between the genotypes and the virulence factors

The relation between the genotypes and the expression of virulence factors of the 19 samples of C. albicans are shown in Table 1.

Production of phospholipases and proteinases

All of the isolates showed phospholipase and protease activity, however in 2 (10.5%) the phospholipasic activity was high and 17 (89.5%) exhibited intermediate activity. In relation to the proteases, 7 isolates (36.8%) showed high activity and 12 (63.2%) intermediate activity.

Haemolytic activity

All of the isolates showed haemolytic activity, but quantitative differences were observed. Two samples (1 and 8) produced partial haemolysis whereas all the others produced total haemolysis.

Susceptibility to hydrogen peroxide

Isolates 1 and 2 demonstrated a high capacity of survival in H2O2 (1mM) until 2 h of exposure. The others showed variable resistance, however after 2h, the percentage of recovery was uniformly low or absent. All the isolates were sensitive to H2O2 (10 mM) exposition, independent of the time of exposure.

DISCUSSION

It was not possible to establish a relationship between the genotypes and the virulence factors. The combination of these parameters did not seem to be useful for predicting if a certain genotype is causing, or has a higher chance of causing, clinical infection. Vidotto et al. (21), in a study with C. albicans from various sites, also did not find a relationship between phospholipasic activity and genotypes. On the other hand, for Sugita et al. (20), in blood samples, phospholipase and proteinase secretion was higher in genotype B. In this work genotype A was predominant, differing from Vidotto et al. (21), who found equivalence between genotypes A and B in vaginal isolates.

In this study, the haemolytic, phospholipase and protease activity were positive and had highly expressed elevations, which confirms the idea that the virulence of C. albicans results from the combination of multiple factors (3). These three factors seem to be very important in the virulence of vaginal isolates. The samples numbered 8 and 20, both genotype A, had co-ordinately high phospholipase and protease secretions, leading to the belief that they must be the most virulent.

Haemolytic activity is associated with the ability of pathogenic organisms to acquire iron from mammalian cells, a critical stage in the establishment of an infection (14). However, the relationship between the production of haemolysin and virulence needs to be better evaluated. In the samples studied in this research, the production of haemolysin was always present and, to a large degree, reinforces the idea that the virulence potential is independent of the genotype.

The production of H2O2 and the maintenance of the pH for the species of Lactobacillus are important to reduce the overgrowth of microorganisms in bacterial vaginosis. Surprisingly, there is no information about whether this mechanism also influences the development of VVC. In this study, the susceptibility to H2O2 was not itself related to the genotypes or to the other virulence factors studied. However, the results suggest that the growth of the majority of C. albicans will be controlled by the presence of Lactobacillus, resulting in the situation of equilibrium or colonisation. This could be possible as the species of Lactobacillus that produces H2O2 are present in the vagina of 98% of normal women (18). In spite of this evidence, cases of VVC with normal lactobacilar flora have been observed. Therefore, other studies relating to the virulence factors studied here should be conducted with in vivo tests, as the factors related to the host are also important in the establishment of the infection.

In conclusion, we have demonstrated that classical factors, like protease and phospholipase activity, as much as the most recent, such as haemolytic activity and susceptibility to H2O2, do not have predominance in a specific genotype in relation to the virulence factors studied in vaginal secretion isolates of C. albicans. However, protease, phospholipase and haemolytic activity were highly expressed, suggesting that these virulence factors are important in vaginal isolates. Generally, the different isolates expressed similar virulence potential, reinforcing the necessity for new studies and also that other factors related to the yeasts and the host, such as adherence capacity, must be involved in the development of the disease.

ACKNOWLEDGEMENTS

The authors wish to thank Peter Grimshaw for revision this article. This work was supported by Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) (nº 474542/2003-3).

Submitted: March 06, 2007; Approved: July 16, 2007

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  • *
    Corresponding Author. Mailing address: Departamento de Análises Clínicas, Universidade Estadual de Maringá (UEM), Maringá, Paraná, Brasil. Av. Colombo, 5790, CEP: 87020-900, Brasil. Tel.: +55 44 3261-4795; Fax: +55 44 3263-1387. E-mail:
  • Publication Dates

    • Publication in this collection
      17 Oct 2007
    • Date of issue
      Sept 2007

    History

    • Accepted
      16 July 2007
    • Received
      06 Mar 2007
    Sociedade Brasileira de Microbiologia USP - ICB III - Dep. de Microbiologia, Sociedade Brasileira de Microbiologia, Av. Prof. Lineu Prestes, 2415, Cidade Universitária, 05508-900 São Paulo, SP - Brasil, Ramal USP 7979, Tel. / Fax: (55 11) 3813-9647 ou 3037-7095 - São Paulo - SP - Brazil
    E-mail: bjm@sbmicrobiologia.org.br