The epidemiology of cryptococcosis and the characterization of Cryptococcus neoformans isolated in a Brazilian University Hospital.

Cryptococcosis, a systemic disease caused by the fungus Cryptococcus neoformans/ Cryptococcus gattii is more severe in immunocompromised individuals. This study aimed to analyze the epidemiology of the disease, the molecular characteristics and the antifungal susceptibility of C. neoformans isolated from patients treated in a Brazilian university hospital. This retrospective study was conducted in the Clinical Hospital, Federal University of Uberlândia, and evaluated cases of cryptococcosis and strains of C. neoformans isolated from 2004 to 2013. We evaluated 41 patients, 85% of whom were diagnosed with AIDS. The fungus was isolated from the cerebrospinal fluid (CSF) of 21 patients (51%); 19.5% had fungemia and in 24% the agent was isolated from the CSF and blood, concurrently. Meningoencephalitis was the most frequent (75%) manifestation of infection. Despite adequate treatment, the mortality of the disease was 58.5%. Most isolates (97.5%) presented the VNI genotype (serotype A, var. grubii) and one isolate was genotyped as C. gattii (VGI); all the isolates were determined as mating type MATa and showed susceptibility to the tested antifungals (fluconazole, voriconazole, amphotericin B and 5-flucytosine). Although AIDS detection rates remain stable, opportunistic infections such as cryptococcosis remain as major causes of morbidity and mortality in these patients.

INTRODUCTION

Fungi of the complex Cryptococcus neoformans/Cryptococcus gattii are encapsulated, cosmopolitan yeasts, and are able to infect and cause disease in many hosts, including man . Cryptococcosis, an illness caused by these microorganisms, is a systemic disease that may be subacute or chronic and potentially fatal, and primarily affects the meninges. Its occurrence was rare before the acquired immunodeficiency syndrome (AIDS) epidemic, and was usually associated with patients presenting low cellular immunity . As a global causative agent, C. neoformans is estimated to cause more than one million new cases of cryptococcosis a year with about 625,000 deaths . C. neoformans is usually associated with immunocompromised individuals (AIDS patients, neutropenic individuals and those receiving prolonged therapy with corticosteroids); C. gattii is more often associated with immunocompetent patients .

Cryptococcus neoformans has serotypes A, D and AD; in contrast, C. gattii that has serotypes B and C. The former species also presents two varieties related to serotypes var. grubii (serotype A) and var. neoformans (serotype D) , . Serotype A predominates in clinical and environmental isolates in most areas, except in Northern European countries, where serotype D accounts for 50% of the isolates . Serotype AD was isolated from the environment and in patients in North America and Europe . Until recently, the accepted idea was that C. gattii was restricted to tropical and subtropical areas. However, an outbreak in Vancouver Island, Canada, reported in 2002, changed assumptions about the pattern of distribution of this species .

The treatment of cryptococcosis has been the subject of numerous studies. Currently, only three classes of antifungal drugs have been considered for this purpose: the polyenes (amphotericin B), the azoles (ketoconazole, itraconazole, fluconazole and voriconazole) and a pyrimidine-derived drug (5- flucytosine) . The latter is not available in Brazil. However, some of the drugs administered to treat fungal infections have high failure rates, and the emergence of fungal intrinsic resistance is a growing problem , . Regarding the treatment of HIV-positive patients with fungal infections of the mucous membranes, in the period preceding the introduction of antiretroviral therapy, the repeated and prolonged use of azoles favored the acquisition of drug resistance in several fungal pathogens, including C. neoformans .

The aims of this study were to evaluate the epidemiological profile of patients who had developed cryptococcosis and to determine their susceptibility to antifungal drugs, and also to explore the molecular characteristics of C. neoformans isolated from patients treated at the Clinical Hospital of the Federal University of Uberlândia (HCU) from 2004 to 2013.

MATERIALS AND METHODS

In this retrospective study, 41 strains of Cryptococcus that had been previously identified as C. neoformans were included. They were isolated from patients treated at the Clinical Hospital of Uberlândia from 2004 to 2013. These strains were stored in the Clinical Laboratory of that institution from the time of diagnosis until the time of this study. Uberlândia is a city located in the western region of the State of Minas Gerais, Brazil. The strains were isolated from various clinical samples (cerebrospinal fluid [CSF], blood, skin lesion secretions and bronchoalveolar lavage).

The study was carried out after been approved by the Ethics Committee of the Federal University of Uberlândia (UFU), under number 357.803, in 08.13.2013. In the Microbiology Laboratory of the HCU, the phenotypic identification of Cryptococcus spp. is routinely carried out using classical phenotypic tests such as the hydrolysis of urea and canavanine glycine bromothymol blue agar (CGB). To ensure the viability of the strains, they were maintained on Sabouraud Dextrose agar (SDA) at room temperature with quarterly subcultures. These stored strains were evaluated in this study.

To evaluate the epidemiological profile of patients who had developed cryptococcosis, we studied patient charts. They were analyzed to gather data on demographics (gender, age, base disease, immunosuppression causes, CD4 lymphocyte count, treatment and outcome of the disease) and the primary isolation site of Cryptococcus sp.

Antifungal susceptibility was identified using the VITEK 2 system (Biomérieux), according to the manufacturer’s instructions. The inoculum suspension was prepared from cultures in SDA, incubated for 48 hours at 35 oC, with turbidity adjusted to the standard number 2 of McFarland. This suspension was transferred to cassettes of a susceptibility test card system (AST-YS01, Ref. 22108). The cassettes were inserted in the system and the minimal inhibitory concentration (MIC) levels were determined in an automated equipment. The results were expressed in µg/mL. The concentrations of drugs in the cassettes ranged from 1 to 32 µg/mL for amphotericin B, 1 to 16 µg/mL for fluconazole, from 4 to 64 µg/mL for 5-flucytosine (5FC) and from 0.5 to 8 µg/mL for voriconazole. Candida albicans ATCC 90028 was used as the control. Although clinical breakpoints for imidazole derivatives, including fluconazole, have not yet been defined in the literature, the strains with a MIC < 8 µg/mL were considered susceptible to fluconazole .

Although one of the aims of this study was to explore the molecular characteristics of Cryptococcus neoformans, phenotypic tests were repeated before performing the molecular characterization. These tests were conducted after recovery of the isolates through three serial subcultures, incubated for 72 hours. The phenotypic identification of the strains was performed in the last subculture using the same tests described previously (classical phenotypic tests).

Molecular tests were carried out after the extraction of genomic DNA, according to Bolano et al. , with the modifications advised by Pedroso et al. . Mating types and molecular types were determined. To establish the mating type, two pairs of primers were used as described by Chatuverdi et al. : MATa [MATaF (5’-CTTCACTGCCATCTTCACCA-3’); MATaR (5’-GACACAAAG GGTCATGCCA-3’)], and MATa [MATaF (5’-CGCCTTCACTGCTACCTTCT-3’); and MATaR (5’-AACGCAAGAGTAAGTCGGGC-3’)]. Amplification reactions were performed in a final volume of 25 µL, each tube containing 25 ng of genomic DNA, enzyme buffer 1X (Uniscience, São Paulo, Brazil), 1.5 mM magnesium chloride (Uniscience, São Paulo, Brazil), 0.2 mM of each dNTP (Ludwig Biotec, RS, Brazil), 20 picomoles of each primer, and 1 U Taq polymerase (Uniscience, SP, Brazil). The amplification conditions were: initial denaturation at 94 °C for 4 minutes, 34 cycles at 94 ºC for 1 minute, 63 ºC and 60 ºC for 1 minute, respectively, for MATa or MATa, extension at 72 ºC for 1 minute, followed by a final extension at 72 °C for 10 minutes. Reactions were kept at 4 ºC. The amplification products generated from the PCR reactions were subjected to agarose gel electrophoresis in 1% TBE (Tris, Boric acid, EDTA) 0.5X plus 5 µL/mL fluorescent dye Easy View (Easy Path, SP, Brazil), using 5 µL of the amplified product run at 75 V for 90 minutes. Then, the gel was visualized using an ultraviolet transilluminator (L-Pix HE, Loccus do Brasil, SP, Brazil) and photographed using the Lab-Image ID photo documentation system (Loccus do Brasil, SP, Brazil). The presence of amplified fragments of 101 bp and 117 bp was considered positive for a and a types, respectively. For the results analysis, strains of C. neoformans INCQS 40123 (ATCC 28957) and C. neoformans ATCC® 28958 were used as controls for a and a types, respectively.

Amplification reactions for URA-5 gene were performed as described in the literature , , with a final volume of 25 µL containing 50 ng of genomic DNA, 1X enzyme buffer (Uniscience, São Paulo, Brazil), 1.5 mM magnesium chloride (Uniscience, SP, Brazil), 0.2 mM of each dNTP (Ludwig Biotec, RS, Brazil), 20 picomoles of each primer URA-5 (5’-ATGTCCTCCCAAGCCCTCG ACTCCG-3’) and SJ01 (5’-TTAAGACCTCTGAACACCGTACTC-3’); and 1 U of Taq polymerase (Uniscience, SP, Brazil). Reaction conditions were: initial denaturation at 94 °C for 4 minutes, 34 cycles at 94 °C for 1 minute, annealing at 57 °C for 1 minute, extension at 72 °C for 1 minute, followed by a final extension at 72 °C for 10 minutes. Samples were kept at 4 °C. Thirty microliters of the reaction amplicon were doubly digested with Sau96I (10 U/µL) and HhaI (20 U/µL) (New England Biolabs, Uniscience, SP, Brazil), and incubated at 37 °C for 3 hours. The fragments were separated on 3% agarose gel at 100 V for 5 hours . We used the controls VNI (serotype A), VNII (serotype A), VNII (serotype AD), VNIV (serotype D) and VGI-VGIV (C. gattii) for the interpretation and analysis of results (Figure 1).

Figure 1

RFLP profiles (URA5 genes) from C. neoformans/C. gattii control strains. Columns 1 and 13: molecular markers (100 bp); columns 2 to 5: genotypes VNI, VNII, VNIII and VNIV, respectively; columns 6 to 9: genotypes VGI, VGII, VGIII and VGIV, respectively; column 10 is URA5 gene amplified product; columns 11 and 12 are clinical isolates Cryptococcus neoformans VNI and Cryptococcus gattii VGI, respectively.

Data were described (in terms of frequencies and percentages) by means of an entry table for each variable, as well as by using dual input tables. Associations were evaluated using the likelihood ratio test20. The level of significance was set at 5% (p < 0.05). The statistical procedures were performed using the SPSS software v. 20 (IBM, NY, USA).

RESULTS

Of the 41 patients evaluated, there were seven women (17%) and 34 men (83%). Most patients were aged from 20 to 40 years; most women were in the 20-30 years old group (Table 1). There was no statistically significant difference between men and women in relation to age (p > 0.05).

Table 1

Frequency of cryptococcosis according to the age and the gender of patients treated at the HCU, 2004-2013

AGE (years)	GENDER
	MALE		FEMALE
	n	%	n	%
20-30	10	29.4	3	42.8
31-40	14	41.2	1	14.3
41-50	6	17.6	1	14.3
51-60	1	2.9	0	0.0
61-69	1	2.9	2	28.6
> 70	2	6.0	0	0.0
Total	34	82.9	7	17.1

Table 2 shows the distribution of patients according to the underlying disease. Most of them (35 [90%]) were immunocompromised. In 35 patients (85%) the underlying disease was AIDS. Other diseases were chronic alcohol abuse, rheumatoid arthritis, leprosy, psoriatic arthritis, hypertension and gout; patients with these diseases were chronic corticosteroids or other immunosuppressive drugs users. In two patients, there was no evidence of immune impairment in their medical records.

Table 2

Distribution of underlying diseases associated with cryptococcosis in patients treated at the HCU, 2004-2013

Base Disease	Frequency
	n	%
AIDS	35	85.0
Chronic alcohol abuse	1	2,5
Leprosy+Rheumatoid arthritis	1	2.5
Hypertension + gout	1	2.5
Psoriatic arthritis	1	2.5
Not reported	2	5.0
Total	41	100%

Among AIDS patients, 17 had a CD4 lymphocyte count < 200 cells/ mm3, with values ranging from 5-196 cells/ mm3. In other patients, this exam was not performed during the hospitalization period.

Cryptococcal meningoencephalitis was the predominant clinical form of cryptococcosis: in 21 (51%) the fungus was isolated from the CSF only, eight (19%) from the blood culture only, 10 (24%) from the CSF and blood culture, one (3%) from the secretions of skin lesions, and one (3%) from the bronchoalveolar lavage (BAL) (Table 3).

Table 3

Distribution of clinical forms of cryptococcosis according to the isolation site from patients treated at the HCU, 2004-2013

Clinical Form	Frequency		Isolation site
	N	%
Meningoencephalitis	21	51.2	CSF
Cutaneous cryptococcosis	1	2.5	Skin lesion secretion
Fungaemia	8	19.5	Blood
Meningoencephalitis + fungaemia	10	24.3	CSF+blood
Pulmonary cryptococcosis	1	2.5	BAL
Total	41	100

Thirty-five patients (85%) received antifungal therapy, and all of them were treated with amphotericin B; fluconazole was used in 25 patients (71%) during the consolidation phase. The remaining patients (15%) died before treatment.

The lethality of cryptococcosis was estimated at 58.5%. Among the patients who died, most had isolated fungemia or fungemia associated with meningoencephalitis (p = 0.001). Among the 35 patients with AIDS, 21 (60%) died; among the four patients with other causes of immunosuppression (all male), one (25%) died; however, there was no statistical difference (p=0.133) between the evolution of disease in the AIDS patients compared to those with other causes of immunosuppression (Table 4). There was no statistical difference regarding the clinical outcome of men and women (p = 0.935).

Table 4

Clinical outcome of patients with cryptococcosis treated at the HCU from 2004 to 2013

Clinical outcome	Patients												TOTAL
	MALE						FEMALE
	NR		HIV+		HIV-		NR		HIV+		HIV-
	n	%	n	%	n	%	n	%	n	%	n	%	n	%
Survived	0	0.0	11	32.0	3	9.0	0	0.0	3	43.0	0	0	17	41.5
Died	1	3.0	18	53.0	1	3.0	1	14.0	3	43.0	0	0	24	58.5
TOTAL	1	3.0	29	85.0	4	12.0	1	14.0	6	86.0	0	0	51	100.0

NR: Not reported; HIV: Human Immunodeficiency Virus

Table 5 shows some characteristics of cryptococcosis regarding the clinical outcome of patients.

Table 5

Comparison of variables according to the clinical outcome of patients with cryptococcosis treated at the HCU from 2004 to 2013

Variables	Clinical evolution				Total (41)	p value
	SURVIVED (17)		DIED (24)
	N	%	n	%	n
Male	14	41.2	20	51.8	34	0.935
AIDS	14	40.0	21	60.0	35	0.133
Meningoencephalitis	15	48.3	16	51.7	31	0.025
Fungemia	0	0.0	8	100.0	8	0.001
Pulmonary form	1	100.0	0.0	0.0	1	0.180
Treatment	17	48.6	18	51.4	35	0.008
Fluconazol	15	60.0	10	40.0	25	0.028
Amphotericin B	15	42.8	20	57.2	35	0.082

All the isolates were susceptible to the tested antifungal agents, showing a MIC < 8 µg/ mL for fluconazole.

Most isolates (97.6%) were genotyped as C. neoformans var. grubii (serotype A, VNI genotype). However, one isolate (2.4%) previously phenotyped as C. neoformans (positive urea hydrolysis test and negative CGB test) was genotyped as C. gattii (VGI genotype) (Figure 2). All the strains presented the MATa mating type.

Figure 2

RFLP profile of the URA5 genes from Cryptococcus sp obtained by double-digestion with HhaI and Sau96I. Column 1: Molecular maker (100 bp). Columns 2 to 7: isolated 2, 4, 5, 6, 7 and 8 (VNI), respectively; column 8: isolated 12 (VGI); Columns 9 to 13: isolates 13, 18, 22, 24 and 25 (VNI), respectively.

DISCUSSION

This study has evaluated cases of cryptococcosis occurring at the Uberlândia Clinical Hospital from 2004 to 2013. Most patients (68%) were aged between 20-40 years (both genders) and had AIDS. The Brazilian Health Ministry data indicates the highest prevalence of AIDS in patients between 25 and 39 years in both genders. Brazilian studies show the highest prevalence of cryptococcosis in this age group, with slight variations concerning the age groups 20-30 years and 31-40 years , . Mezzari et al. studied the epidemiology of cryptococcosis in a public hospital in Rio Grande do Sul, Brazil and reported that most patients were aged 30-39 years. Patients in this age group were born and raised in the period coinciding with the emergence and spread of HIV, which was accompanied by changes in sexual behavior, including increased number of partners, thereby contributing to the spread of HIV and of opportunistic infections such as cryptococcosis.

In Brazil, cryptococcosis occurs as the first manifestation of an opportunistic disease in over 4% of AIDS patients, and is as one of its defining illnesses . The present study contained more men (83%) than women. According to the AIDS Epidemiological Bulletin data, there was an increase of 4.3% in the detection rates of the disease in men during the study period, while there was a significant decrease (14%) among women. Moreira et al. studied the epidemiology of cryptococcosis in the HCU and also reported a higher prevalence of the disease in males, with a similar percentage in the present study. According to Carvour et al. , despite the predominance in males, women with meningoencephalitis have a worse prognosis than men, with lower survival rates. In this study there was no significant difference between men and women in relation to prognosis and survival.

All 39 patients (95%) with a documented immune status were immunocompromised and most were AIDS patients (35 [90%]). C. neoformans infections in immunocompromised hosts are widely described in the literature , , . Among the AIDS patients, only 17 (48.5%) had CD4/CD8 T lymphocyte counts recorded in their medical notes, and most had been previously diagnosed with AIDS. These patients had less than 200 cells/mm3 and, in 15 of them (88%), the count was less than 100 cells/mm3. In a cohort study of 700 patients, Jarvis et al. observed an increased risk of meningoencephalitis when patients had CD4 counts below 100 cells/mm3. The WHO recommends screening with the Cryptococcus antigen test (CRAG) in AIDS patients who have CD4 counts below 100 cells/mm3. In those who have tested positive, treatment with fluconazole should be promptly initiated in order to prevent cryptococcosis. These recommendations, however, are not based on clinical evidence .

According to the Brazilian Consensus on Cryptococcosis , in over 80% of the cryptococcosis cases, the predominant clinical form is meningoencephalitis. The fungus was detected in the CSF of 31 patients (75%) in the present study; many studies have shown meningoencephalitis to be the predominant clinical form , , , , , , , . In eight patients (19%), the fungus was found only in the blood. Studies have shown that fungemia by Cryptococcus spp. may be present in 47-71% of AIDS patients. However, this percentage is 27% among those not infected by HIV . In this study, of the eight patients with isolated fungemia, six (75%) had AIDS. The other two patients had no medical report regarding their immune status. All the patients (10 [24%]) in whom the fungus was present in the CSF and blood, as detected by culture, had AIDS.

Thirty-five patients received specific treatment for cryptococcosis with drugs available in Brazil (amphotericin B and fluconazole) according to the management guidelines of the disease , , . Amphotericin B was started for all the patients; however, 10 (28.5%) died in the early induction phase before fluconazole could be started (during the consolidation phase). Six patients (14%) who had fungemia received no treatment because, we believe, they presented a serious initial clinical form of disease with hemodynamic instability. In these patients, the diagnosis of cryptococcosis was made only after the fungus was isolated in their blood cultures, and this occurred post mortem. Of these untreated patients, four (66%) had AIDS and the immune status of the other two was unknown.

In the present study, the overall mortality associated with cryptococcosis was high and demonstrates the severity of the disease, despite the use of specific treatment. In Brazil, according to the literature, mortality rates range from 26% to 70% , , , ; in the present study the mortality rate was 58.5%. The factors that influence this outcome include the virulence of C. neoformans, the slow response to treatment with amphotericin B, the advanced stage of the patients immunosuppression (particularly those with AIDS), and the superimposition of opportunistic infections, for example, neurotoxoplasmosis, pneumocystosis, that have worsened clinical conditions.

In Brazil, studies of the in vitro susceptibility of Cryptococcus spp. have shown that most isolates are susceptible to polyene antifungals, 5-flucytosine and azoles . However, the in vivo resistance of C. neoformans to imidazole derivatives (especially to fluconazole) is well documented in the literature, especially in patients with AIDS who have meningoencephalitis and who use this drug for prolonged periods , , . Silva et al. suggested that treatment failure can occur due to the development of resistance to amphotericin B. Nevertheless, the present study found that all the isolates were susceptible in vitro to the tested drugs. The reference methodology indicated by CLSI to perform antifungal susceptibility tests to C. neoformans used the microdilution broth method, but Tweari et al. found that the technique used by Vitek 2 shows good accuracy for antifungal susceptibility testing, particularly to fluconazole and amphotericin, presenting an agreement level with the reference methodology of 80% and 90%, respectively.

C. neoformans var. grubii has been isolated from various environmental sources and from clinical samples. In Brazil, this species is prevalent in the Southeastern and Southern States2. In the present study, all the identified isolates as C. neoformans comprised var. grubii (serotype A, VNI genotype). This confirms the prevailing distribution of this species in the State of Minas Gerais , . Some studies indicate that over 80% of cases of cryptococcosis are caused by var. grubii, mostly in AIDS patients , .

All the isolates considered in this study were mating type MATa, a finding consistent with the literature . Desnos-Ollivier et al. studied 400 samples of C. neoformans (serotype A-244, serotype D-76 and serotype AD-70) isolated in France and found no MAT a sample in serotype A (all of them were MATa); only 13 serotype D samples were MATa.

This study demonstrates the importance of using molecular methods in the correct identification of clinical isolates. One of the isolates previously identified as C. neoformans presented a VGI genotype, showing that it was actually the species C. gattii. This isolate gave a negative CGB test result. This is an interesting finding because the results from epidemiological studies based only on classical techniques can diverge from those based on the most accurate methods. In general, clinical laboratories use the CGB test to distinguish between the two major species, C. neoformans and C. gattii. This test has been routinely used in laboratories since its proposal in 1982 . Despite being a simple biochemical test that is relatively rapid (requiring 10 days of incubation), although expensive, the CGB may result in reactions that are difficult to interpret, generating both, false positive and false negative results . The correlation between the molecular identification and the CGB test varies according to the study, from 95.4% to 100% , . Some studies , , suggest that the phenotypic identification of Cryptococcus spp. must be confirmed by molecular techniques such as RFLP-PCR, which for C. neoformans enables serotype and molecular typing at the same time. Although the use of molecular methods to identify the species of Cryptococcus may still be infrequent in routine microbiology laboratories, these have become efficient alternatives, being more sensitive, specific, timely, and being less influenced by external factors than the traditional phenotypic methods , , , .

In summary, in this study, cryptococcosis was most prevalent in male patients with AIDS and, despite the institution of appropriate drug therapy, most patients died. C. neoformans var. grubii (VNI genotype) was the main etiological agent, and all of the isolates showed in vitro susceptibility to the tested antifungal agents. It is worth noting the growing importance of molecular methods for the proper identification of Cryptococcus species, since traditional phenotypic methods may fail.