Detection of Circulating Paracoccidioides brasiliensis Antigen in Urine of Paracoccidioidomycosis Patients before and during Treatment

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Journal of Clinical Microbiology, June 1998, p. 1723-1728, Vol. 36, No. 6
0095-1137/98/$04.00+0
Copyright © 1998, American Society for Microbiology. All rights reserved.

Detection of Circulating Paracoccidioides brasiliensis Antigen in Urine of Paracoccidioidomycosis Patients before and during Treatment

Margarete Aparecida Salina,¹ Maria Aparecida Shikanai-Yasuda,² Rinaldo Poncio Mendes,³ Benedito Barraviera,³ and Maria José Soares Mendes Giannini¹^,^*

Departamento de Análises Clínicas, Faculdade de Ciências Farmacêuticas, UNESP, Araraquara,¹ Departamento de Doenças Infecciosas e Parasitárias, Faculdade de Medicina, USP, São Paulo,² and Departamento de Moléstias Infecciosas, Faculdade de Medicina, UNESP, Botucatu,³ Brazil

Received 29 September 1997/Returned for modification 28 November 1997/Accepted 17 March 1998

	ABSTRACT

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For the diagnosis and follow-up of paracoccidioidomycosis patients undergoing therapy, we evaluated two methods (immunoblottingand competition enzyme immunoassay) for the detection of circulatingantigen in urine samples. A complex pattern of reactivity wasobserved in the immunoblot test. Bands of 70 and 43 kDa were detectedmore often in urine samples from patients before treatment. Theimmunoblot method detected gp43 and gp70 separately or concurrentlyin 11 (91.7%) of 12 patients, whereas the competition enzyme immunoassaydetected antigenuria in 9 (75%) of 12 patients. Both tests appearedto be highly specific (100%), considering that neither fractiondetectable by immunoblotting was present in urine samples fromthe control group. gp43 remained present in the urine samplescollected during the treatment period, with a significant decreasein reactivity in samples collected during clinical recovery andincreased reactivity in samples collected during relapses. Reactivityof some bands was also detected in urine specimens from patientswith "apparent cure." The detection of Paracoccidioides brasiliensisantigens in urine appears to be a promising method for diagnosinginfection, for evaluating the efficacy of treatment, and for detectingrelapse.

	INTRODUCTION

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Paracoccidioides brasiliensis is the causal agent of paracoccidioidomycosis, a systemic disease that presents a marked tendencytoward dissemination with involvement of any organ or system.The clinical presentation mimics those of other serious diseaseentities and also could be associated with immunosuppression,AIDS, and other diseases (6, 14). The constant movement ofpeople from rural to urban areas and the increase in the averagelife span will certainly contribute to a higher frequency of patientswith immunosuppressive diseases or conditions for endogenous reinfectionof quiescent paracoccidioidomycosis foci. A definitive diagnosisis usually made by visualization or isolation of the fungus fromthe lesions, which is time-consuming and lacking in sensitivity.Detection of specific antibodies in serum has also been one ofthe main tools in diagnosing this disease and may be useful inmonitoring the evolution of the disease and its response to treatment(19). Serum antibodies are long lasting; some diagnosed patientshave low levels of specific antibodies for a long time, and itis doubtful whether they are ever cured (16). Eventual remissionfrequently occurs. Thus, studies are still under way to designa test that would permit a more accurate characterization of curein patients with paracoccidioidomycosis. For that, the detectionof antigen, not antibody, may be such a test.

The detection of circulating antigen represents a useful approach in the serodiagnosis of invasive fungal disease (4, 5,11, 15). In cases of paracoccidioidomycosis, attempts to identifyantigenemia have been made by using various tests. Most studieshave employed methods with low sensitivities (7, 8, 23).gp43, the most important antigen of P. brasiliensis (22), hasbeen demonstrated in the sera of patients with the chronic andacute forms of paracoccidioidomycosis. Prior to treatment andafter commencement of antifungal therapy, the antigen starts todisappear from the circulation (17). More recently, antigendetection in urine has been proposed as an alternative methodfor diagnosis of systemic mycoses (28). Recently, our groupdetected the presence of gp43 and other antigens in the urineof patients exhibiting the acute form of paracoccidioidomycosis(19).

In the present investigation, we determined the presence of P. brasiliensis antigens in the urine of patients by an indirectcompetition enzyme immunoassay (EIA-c) and an immunoblot testfor diagnosing infection and for monitoring the response to therapy.

	MATERIALS AND METHODS

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Biological specimens. Forty-eight urine samples were collected from 12 patients with paracoccidioidomycosis. The diagnosis was established by histologicalexamination of biopsy samples and by visualization and isolationof the fungus in culture. This group of patients (group 1) wasmonitored during treatment, and the samples were collected indifferent periods. Group 2 consisted of two individuals with activedisease but without a confirmed diagnosis. One of these patientshad experienced a paracoccidioidomycosis relapse, and the otherone was a patient under diagnostic investigation. However, neitherthe typical P. brasiliensis yeast forms nor seroconversion couldbe demonstrated to confirm the diagnosis. Group 3 consisted ofnine patients who had previously documented P. brasiliensis infectionbut with an "apparent cure." The apparent cure was defined inaccordance with Mendes et al. (16) by the following criteria:(i) absence of symptoms for 2 years after the end of the maintenancetherapy; (ii) stabilization of the chest X-ray findings, whichpresent only fibrotic scar sequelae; and (iii) negative serology(immunodiffusion test) or presence of insignificant titers (complementfixation test, for example). Group 4 consisted of a variety ofsubjects who contributed 31 urine samples, 10 from clinicallyhealthy individuals, 10 from patients with albuminuria, and 10from patients with tuberculosis and a patient with aspergillosis.

Samples. Previous studies were done with urine concentrated 10- and 30-fold. Since all the bands had appeared in the urine samplesupon the first concentration, we used these samples for our ensuingexperiments. All the urine samples were filtered, dialyzed overnightagainst distilled water, concentrated against polyethylene glycol20000 (Sigma) in dialysis tubing with a molecular weight cutoffof 6,000 to 8,000 (Sigma) and stored at $-$ 80°C.

Fungal strains and antigen preparation. P. brasiliensis 113, Histoplasma capsulatum 58, Aspergillus fumigatus 354, Candida albicans 461, and Cryptococcus neoformans35 were obtained from the culture collection of Instituto MedicinaTropical de São Paulo.

Two extracts of P. brasiliensis were used: (i) the total antigen prepared after mixing a cell-free antigen, culture filtrate,and crude cellular extract and (ii) a culture filtrate. The cell-freeantigen and culture filtrate were prepared as described elsewhere(1, 18). The crude cellular extract was prepared from a suspensionof fungal cells containing 1 mM phenylmethylsulfonyl fluoride(Sigma). The cells were frozen and broken with glass powder andliquid nitrogen. The mixture was centrifuged, and the supernatantwas stored at $-$ 70°C. Culture filtrates of H. capsulatum and A.fumigatus and somatic antigens of Candida albicans and Cryptococcusneoformans were prepared in accordance with Centers for DiseaseControl procedures. The protein content was measured by the methodof Lowry et al. (13), and the electrophoretic pattern was analyzedby sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE)(12) and immunoblotting (18).

Preparation of antisera. Two antisera were prepared, namely, anti-culture filtrate and anti-total antigen of P. brasiliensis. Rabbits were initiallyimmunized by intradermal injections of 1 ml of P. brasiliensisextract mixed with 1 ml of Freund complete adjuvant. Subsequentinjections of antigen in Freund incomplete adjuvant were givenweekly for a period of 4 weeks and then monthly for a period of3 months. The rabbits were bled 7 days after the last dose. Theimmunoglobulin G (IgG) fractions of these antisera were obtainedby precipitation with ammonium sulfate followed by protein A-Sepharosechromatography. These antisera gave strong reactions in responseto the culture filtrate antigen and the total antigen by immunoblotting,respectively.

EIA-c. The EIA-c was developed from a modification of the method proposed by Freitas da Silva and Roque-Barreira (7). A referencestandard urine sample produced by adding the total P. brasiliensisantigen to a pool of urine from healthy volunteers to a concentrationof 1 mg/ml was used for EIA-c standardization. The standard wasused to prepare dilutions in buffer containing 0.05% Tween 20and 3% defatted powdered milk, providing final antigen concentrationsof 100 to 0.0004 µg/ml.

Previous studies were done by using the culture filtrate antigen and total antigen for detection of urine-soluble antigens.Since the best results were obtained with the total antigen, itwas used in all experiments.

Polystyrene plates (Nunc) were sensitized with 0.1 ml of P. brasiliensis total antigen, diluted in 0.2 M sodium carbonatebuffer (pH 9.6) at a final protein concentration of 1.5 µg/ml.The plates were incubated at 37°C in a humid chamber for 2 h andthen at 4°C for an additional 18 h and were washed three times(5 min each) with 0.01 M phosphate-buffered saline (pH 7.2) containing0.05% Tween 20.

The urine specimens of the patients were diluted from 1:2 to 1:8 by serial twofold dilution in buffer. The same procedurewas used for the negative control. A volume of 0.1 ml of eachdilution was incubated with an equal volume of anti-P. brasiliensisrabbit IgG diluted 1:1,000 in buffer. After 4 h of incubationwith shaking at room temperature, 0.1 ml of each mixture was addedin duplicate to the previously sensitized wells and the platewas left standing for 1 h at 37°C in a humid chamber. After washingas described above, 0.1 ml of sheep anti-rabbit IgG antiserumconjugated with peroxidase (Sigma) in the appropriate dilutionwas added to each well and the plate was incubated for 1 h ina humid chamber at 37°C. The plate was washed again, and the reactionwas developed by adding a solution containing peroxide and ortho-phenylenediamine(Sigma). After 30 min of incubation in the dark at room temperature,the enzyme-substrate reaction was stopped by the addition of 50µl of 3 N HCl. The absorbance was measured at 450 to 630 nm witha Boehringer spectrophotometer.

The mean value for the readings obtained at the 1:2 dilution was calculated in relation to the mean value for the inhibitioncontrol (anti-P. brasiliensis rabbit IgG incubated with bufferonly). The result was considered positive only if the value washigher than the cutoff point for the plate. The mean ± 1.25 standarddeviation of the absorbance obtained with the urine samples fromhealthy subjects and individuals with albuminuria was establishedas the cutoff point. The percent inhibition observed with increasingdilutions of the reference standard urine sample in relation tothat of the control was used to construct the standard curve foreach plate. The antigen concentration was calculated from a linearregression equation of the standard curve by using the percentinhibition obtained with the 1:2 dilution of the test urine samplewith a positive reaction.

The cross-reactivity of the EIA-c was also tested with antigens of H. capsulatum, A. fumigatus, Cryptococcus neoformans, andCandida albicans. Dilutions of these antigens were made in poolednormal human urine and were tested by EIA-c.

Immunoblotting. The protein components of the biological specimens were fractionated by electrophoresis on an SDS-10% PAGE gel under reducingconditions by use of a discontinuous buffer system (12). Afterelectrophoresis, the gel was transferred by electrophoresis tonitrocellulose membranes. The immobilized antigens were revealedby treating the blots with a specific serum for paracoccidioidomycosis.The nitrocellulose membranes were processed by the methods ofTowbin et al. (25) and Mendes-Giannini et al. (18).

In a previous experiment, both antisera were assayed separately against the following preparations: culture filtrate or somaticantigens of P. brasiliensis, a pool of normal urine plus antigens(positive controls), and a pool of normal urine (negative control).The reagents chosen were the ones that distinguished the bestand largest number of bands in the positive control. To determinethe sensitivity of the test described above, serial dilutionsof positive and negative controls were also tested in the sameway.

In the immunoblot test, urine samples that demonstrated gp70 or gp43 either alone or concurrently were considered positivefor a diagnosis of paracoccidioidomycosis.

Statistical analysis. A comparison of the sensitivities of the methods was performed by the binomial test described in the specifications of Siegel(24). The P values reported are two-sided, and results wereconsidered significant if the P value was lower than 0.05.

	RESULTS

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The analysis of two antigens of P. brasiliensis by SDS-PAGE revealed a distinct electrophoretic pattern of proteins. The totalP. brasiliensis antigen had at least 26 bands, ranging from 160to 6 kDa, and the culture filtrate was less complex, with majorbands of 70 and 43 kDa.

The intensity of the immunoblot was proportional to the amount of the antigen of the standard curve. The data demonstratethat immunoblotting performed with artificially added antigendetected the 70- and 43-kDa bands at concentrations up to 2 to5 ng. The anti-culture filtrate serum was used to develop theimmunoblot test for detection of urine-soluble antigens; it waschosen because it best discriminated between P. brasiliensis fractions.Bands in the 160-, 100-, 70-, 75-, and 43-kDa areas were observedin the positive control and the culture filtrate antigen. Principalbands of 70, 55, and 43 kDa were seen in the positive control(data not shown).

Nineteen bands were present in the urine samples from the paracoccidioidomycosis patients (group 1) in the pretreatment phase,three bands were present in individuals with albuminuria, andfour bands were present in normal subjects. The antiserum didnot recognize any band in the samples from the tuberculosis patients.

We observed a complex pattern of reactivity in regard to the urine samples from paracoccidioidomycosis patients, with bandsranging from 110 to 24 kDa being recognized. Bands of 70, 64,55, and 43 kDa were recognized in 66.7, 41.7, 50.0, and 66.7%of the patient samples, respectively. Weak bands in the 94-, 90-,and 60-kDa areas were seen in 10, 10, and 20%, respectively, ofthe samples from patients with albuminuria. Of the urine samplesfrom healthy individuals, weak bands were observed in the 82 (10%)-,72 (30%)-, 67 (10%)-, and 48 (10%)-kDa areas.

gp43 and gp70 were detected by immunoblotting in the urine samples from 11 (91.7%) of 12 patients with paracoccidioidomycosis(Table 1). The specificity of this immunoblot was 100%, sincegp43 and gp70 fractions were not present in urine samples fromthe control group nor in the extracts of other fungi.

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TABLE 1. Detection of antigens in urine samples from paracoccidioidomycosis patients before treatment by immunoblot test and EIA-c

When we compared samples from the first group of patients before and during treatment by the immunoblot test, we observeda distinct reactivity pattern. Some of the patient urine samplespresented mainly a decrease in reactivity to the 43-kDa antigenin some periods (Fig. 1A and B), which correlated with clinicalimprovement. In other patients, constant decay in reactivity wasnot observed following treatment, while in others, an increasein reactivity of gp43 was found, as shown in Fig. 1C. This resultpreceded and/or coincided with a worsening of the clinical stateof the patients, who showed weight loss, weakness, and enlargedlymphatics.

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FIG. 1. Immunoblot of urine samples from paracoccidioidomycosis patients probed with immune anti-P. brasiliensis serum; samples were taken before and during treatment. (A) Patient 12 (with acute form of the disease). Lanes: 1, before treatment; 2 to 7, during treatment; 8, negative control; 9, positive control. (B) Patient 5 (chronic form). Lanes: 1, before treatment; 2 and 3, during treatment; 4, negative control; 5, positive control. (C) Patient 2 (acute form with clinical worsening). Lanes: 1, before treatment; 2 to 6, during treatment; 7, negative control; 8, positive control.

Of the two individuals (group 2) with signs and symptoms suggesting paracoccidioidomycosis but without a confirmed diagnosis,immunoblot analysis showed the presence of the 43-kDa fractionin urine samples from these patients.

In the urine samples from group 3, we observed reactivity of some bands, such as those at 70, 67, 64, 43, 28, and 24 kDa.Fractions of 70, 43, and 28 kDa were detected more frequentlyin these samples, and the 67-kDa band appeared in the urine specimensof healthy individuals (Fig. 2).

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FIG. 2. Immunoblot of urine samples from paracoccidioidomycosis patients probed with anti-culture filtrate P. brasiliensis serum. Lanes: 1 to 9, urine samples from apparently cured patients; 10, negative control; 11, positive control.

The limit of antigen detection by the EIA-c was found to be 2.3 ng of protein per ml of urine. The assay had a sensitivityof 75% and a specificity of 100% when a 35% cutoff point was used.The antigen levels detected ranged from 0.08 to 4.8 µg/ml, witha median of 0.79 µg/ml for the 12 patients analyzed (Table 1).

There were no statistically significant differences between the results of the EIA-c and immunoblot tests (P < 0.05). Discrepantresults were observed only in two patients with paracoccidioidomycosis,both of which were positive by the immunoblot test but falselynegative by the EIA-c. On the other hand, antigen was not detectedby immunoblotting nor by EIA-c in the urine sample from only onepatient of group 1. This patient presented a mild chronic formof the disease with involvement of the oral mucous membranes anda regional lymph node.

Regarding therapy follow-up for the first group, a decrease in urinary antigen correlated well with clinical improvement whereasan increase correlated with worsening. A representative four casesof paracoccidioidomycosis were chosen to demonstrate differentbehaviors during the follow-up treatment (Fig. 3). If diseasereactivation occurred with active lesions, the highest levelsof urinary antigen were detected. In some cases, an increase inthis antigen was demonstrated before clinical manifestation.

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FIG. 3. Paracoccidioides antigenuria in four patients during follow-up treatment correlated with severity degrees. (A and C) Chronic and acute cases demonstrated good response to treatment and correspondingly low levels of antigen. (B and D) Chronic and severe acute cases with worsening of clinical aspects corresponding with raised antigen levels. AgU, units of antigen.

One of the two patients with paracoccidioidomycosis in group 2 had antigen levels in urine of 0.46 µg/ml, and the other hadnegative results. Of the patients in group 3, which consistedof treated patients, only one patient had 0.2 µg of antigen perml and the others were negative.

	DISCUSSION

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Several studies have shown that assays for the detection of antigens in biological specimens are powerful tools for quantitativeand qualitative diagnoses and for monitoring chemotherapy. Antigendetection tests may be more effective than antibody tests fordiagnosing paracoccidioidomycosis mainly in immunocompromisedpatients. These patients possibly have diminished humoral antibodyresponses (10, 14). On the other hand, the greatest challengeswith paracoccidioidomycosis patients are treatment control andthe more accurate characterization of cure. The newly developedimmunoblot and EIA-c tests were capable of detecting antigensin urine specimens, and the potential of these are evident.

The antigenic mosaic of P. brasiliensis comprises at least 60 distinct components which may or may not exhibit enzymatic activity(1, 3, 20, 21, 23, 27, 29). Of this group of solubleantigens, the 43-kDa antigen is the most frequently recognizedby patient sera (2, 18, 22), followed by the 70-kDa antigen(2).

The 43-kDa antigen has already been detected in the serum and urine of patients with paracoccidioidomycosis (17, 19).The presence of this antigen in urine was demonstrated earlierin a patient with the acute form of the disease (19). Recently,Gómez et al. (9), using an inhibition enzyme-linked immunosorbentassay, reported the presence of an 87-kDa P. brasiliensis antigenin urine samples. However, the sensitivity obtained was low.

The two fractions gp43 and gp70 were detected separately or concurrently with 91.7% sensitivity by the immunoblot test. Theseantigens were detected exclusively in paracoccidioidomycosis patients,not in patients with other diseases, in healthy individuals, orin other controls. Our results indicate that these antigens havepotential for the diagnosis of paracoccidioidomycosis.

The EIA-c assay used in the present study allowed the detection of antigen concentrations in urine as low as 2.3 ng/ml. Despitethe high sensitivity of the EIA-c used in this study, the presenceof P. brasiliensis antigens could not be detected in 25% of theurine samples tested. The particular cutoff chosen optimized thetrue-positive rate while maintaining a low false-positive rate.

When we compared the two methods, the EIA-c demonstrated lower sensitivity than that of the immunoblot test. Several factorsmay have contributed to the false-negative determinations in theEIA-c in our study, such as the low concentration of the P. brasiliensisantigen detected by this test, the infrequency of sampling, andthe use of urine samples from patients without previous treatment(unlike the immunoblot test, which used urine samples from patientsthat had received reduced treatment). On the other hand, antigenicpresentation in the EIA-c (plastic plates) and in the immunoblottest (nitrocellulose paper) may also involve different conformations.

We noticed that only one patient was negative by both tests. This patient presented low levels of antigen in serum (unpublishedresults) and was also negative for specific antibodies by routinetest. The failure to detect specific antigen in urine in thiscase is probably related to the urinary antigen load. The evaluationof only one sample of urine could also have contributed to thisnegative result.

The sensitivities of both methods in detecting urinary P. brasiliensis antigens were similar despite successful identificationin these two cases by immunoblotting alone. Further refinementsin the EIA-c procedure may improve the sensitivity of this test.

At present, the immunoblot technique should be the preferred test to be introduced into a laboratory routine until futurecomparative analysis could be performed with a larger number ofpatients. The diagnosis of this disease based on antigen detectionin urine could then be made earlier and the application of therapyand clinical improvement would be more effective and, finally,less expensive.

During the follow-up of patients undergoing therapy, monitoring the circulating antigen instead of antibodies may also beimportant mainly as a criterion of cure. Verification of P. brasiliensisantigen levels offers the reassurance that increases or decreasesare valid and not attributable to inaccuracies of the test. Thedifferential diagnosis between a paracoccidioidomycosis relapseand another disease was performed by the identification of thespecific urinary antigen. The reintroduction of treatment ledto improvement in the patient and consequently may become a valuableadjunct in the diagnosis of this fungal disorder.

The frequent relapse observed in patients who discontinue treatment early has stimulated the study of criteria of cure. Apparentcure is an expression that was introduced to characterize thesituation when all other criteria of cure (clinical, mycological,radiological, and serological) had been observed for at least3 years, the first year during which the patient was still undermaintenance treatment and the other two during which the patientwas without antifungal administration. One of the objectives ofthis research is also to evaluate the detection of specific antigenin patients with apparent cure.

In this work, gp43 was present in the urine samples of patients during the treatment period and diminished reactivity occurredduring clinical recovery. Increased reactivity occurred in samplesduring relapses. This antigen was also detected, although faintly,in patients considered healed, revealing the presence of thisantigen over long periods, even after treatment.

These data suggested one feasible explanation for the frequency of relapses in patients with this disease. The fungus probablyremains quiescent in some part of the human body and liberatesantigens such as gp43 and gp70 for prolonged periods of time.In the present work, one patient from group 3 showed clinicaland laboratory signs indicating pulmonary lesion sequelae dueto cigarette smoking and to paracoccidioidomycosis. Serum antibodieswere not detected, but specific antigen was detected in the urineby EIA-c. Tuder et al. (26) performed a careful study of lungsat autopsy from paracoccidioidomycosis patients and demonstratedthe presence of areas with fibrosis interspersed with areas ofemphysema and foci of active disease. The antigen revealed inthe present study could have spread from foci of active diseaseto the bloodstream and, finally, the urine. Considering the specificityof the method for the detection of P. brasiliensis antigen, thesefindings suggest the introduction of this procedure as a criterionof cure.

The demonstration of various antigens in the urine samples of patients with paracoccidioidomycosis and the correlation betweenantigenuria levels and the clinical evolution of the patientssuggest the clinical applicability of the methods described here,especially with respect to the evaluation of disease activity.The detection of P. brasiliensis antigens in the urine thus appearsto be a promising method for the diagnosis of paracoccidioidomycosis,for monitoring the effects of treatment, and for reducing theincidence of relapsing infection.

	ACKNOWLEDGMENTS

This work was supported by grants from FAPESP, CNPq, Fundunesp, and PADC-FCF.

	FOOTNOTES

^* Corresponding author. Mailing address: Laboratório de Micologia Clínica, Departamento de Análises Clínicas, Faculdadede Ciências Farmacêuticas $---$ UNESP, Rua Expedicionários do Brasil,1621, Cx. Postal 502, Araraquara SP, Brasil, CEP 14801-902. Phone:(016) 232-1233, ext. 149. Fax: 5516-232-0880. E-mail: giannini{at}fcfar.unesp.br.

REFERENCES

Top
Abstract
Introduction
Materials & Methods
Results
Discussion
References

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21. Mendes-Giannini, M. J. S., E. Toscano, G. Del Negro, C. P. Assis, and N. Garcia. 1995. Immunochemical study of a Paracoccidioides brasiliensis polysaccharide-like antigen. J. Med. Vet. Mycol. 33:379-383[Medline].

22. Puccia, R., S. Schenkman, A. J. P. Gorin, and L. R. Travassos. 1986. Exocellular components of Paracoccidioides brasiliensis: identification of a specific antigen. Infect. Immun. 53:199-206[Abstract/Free Full Text].

23. Rodrigues, M. C., C. M. Cassaguerra, and C. S. Lacaz. 1984. Antigenemia in paracoccidioidomycosis. Probable demonstration of circulating antigen by counterimmunoelectrophoresis test. Rev. Inst. Med. Trop. São Paulo 26:285-287[Medline].

24. Siegel, S. 1975. Estatística não-paramétrica para as ciências do comportamento, p. 38-66. McGraw-Hill, São Paulo, Brazil.

25. Towbin, H., T. Staehelin, and J. Gordon. 1979. Electrophoretic transfer of proteins from polyacrylamide gels to nitrocellulose sheets: procedure and some applications. Proc. Natl. Acad. Sci. USA 76:4350-4354[Abstract/Free Full Text].

26. Tuder, R. M., R. El Ibrahim, C. E. Godoy, and T. Brito. 1985. Pathology of the human pulmonary paracoccidioidomycosis. Mycopathologia 92:179-188[Medline].

27. Vaz, C. A., D. W. Mackenzie, V. Hearn, Z. P. Camargo, L. M. Singer-Vermes, E. Burger, and V. L. Calich. 1994. Gelatinase activity of exoantigens from virulent and non-virulent isolates of Paracoccidioides brasiliensis. J. Med. Vet. Mycol. 32:65-69[Medline].

28. Wheat, L. J., R. B. Koller, and R. P. Tewari. 1986. Diagnosis of disseminated histoplasmosis by detection of Histoplasma capsulatum antigen in serum and urine specimens. N. Engl. J. Med. 134:83-88.

29. Yarzabal, L. A. 1982. Composición antigénica de Paracoccidioides brasiliensis, p. 59-67. In G. Del Negro, C. S. Lacaz, and A. M. Fiorillo (ed.), Paracoccidioidomicose $---$ blastomicose sul-americana. Sarvier, EDUSP, São Paulo, Brazil.

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22.	Puccia, R., S. Schenkman, A. J. P. Gorin, and L. R. Travassos. 1986. Exocellular components of Paracoccidioides brasiliensis: identification of a specific antigen. Infect. Immun. 53:199-206[Abstract/Free Full Text].
23.	Rodrigues, M. C., C. M. Cassaguerra, and C. S. Lacaz. 1984. Antigenemia in paracoccidioidomycosis. Probable demonstration of circulating antigen by counterimmunoelectrophoresis test. Rev. Inst. Med. Trop. São Paulo 26:285-287[Medline].
24.	Siegel, S. 1975. Estatística não-paramétrica para as ciências do comportamento, p. 38-66. McGraw-Hill, São Paulo, Brazil.
25.	Towbin, H., T. Staehelin, and J. Gordon. 1979. Electrophoretic transfer of proteins from polyacrylamide gels to nitrocellulose sheets: procedure and some applications. Proc. Natl. Acad. Sci. USA 76:4350-4354[Abstract/Free Full Text].
26.	Tuder, R. M., R. El Ibrahim, C. E. Godoy, and T. Brito. 1985. Pathology of the human pulmonary paracoccidioidomycosis. Mycopathologia 92:179-188[Medline].
27.	Vaz, C. A., D. W. Mackenzie, V. Hearn, Z. P. Camargo, L. M. Singer-Vermes, E. Burger, and V. L. Calich. 1994. Gelatinase activity of exoantigens from virulent and non-virulent isolates of Paracoccidioides brasiliensis. J. Med. Vet. Mycol. 32:65-69[Medline].
28.	Wheat, L. J., R. B. Koller, and R. P. Tewari. 1986. Diagnosis of disseminated histoplasmosis by detection of Histoplasma capsulatum antigen in serum and urine specimens. N. Engl. J. Med. 134:83-88.
29.	Yarzabal, L. A. 1982. Composición antigénica de Paracoccidioides brasiliensis, p. 59-67. In G. Del Negro, C. S. Lacaz, and A. M. Fiorillo (ed.), Paracoccidioidomicose $---$ blastomicose sul-americana. Sarvier, EDUSP, São Paulo, Brazil.