A M Aldras scite author profile

Calcofluor white 2MR, modified trichrome blue, and indirect immunofluorescent antibody (IFA) staining methods were evaluated and compared for detecting microsporidia in stool. Serial 10-fold dilutions of Encephalitozoon (Septata) intestinalis were prepared in three formalinized stool specimens or in Tris-buffered saline. Ten-microliter aliquots were smeared onto glass slides, fixed with methanol, stained, and read by at least three individuals. The results indicated that the calcofluor stain was the most sensitive method, required approximately 15 min to perform, but did generate some false-positive results due to similarly staining small yeast cells. The modified trichrome blue stain was nearly as sensitive as the calcofluor stain and allowed for easier distinction between microsporidia and yeast cells. This stain, however, required approximately 60 min to perform. The IFA stain with polyclonal murine antiserum against E. intestinalis was the least sensitive of the methods and required approximately 130 min to perform. The lower limit of detection with the calcofluor and modified trichrome stains was a concentration of about 500 organisms in 10 l of stool to detect one microsporidian after viewing 50 fields at a final magnification of ؋1,000. Reliability was also addressed by use of 74 stool, urine, and intestinal fluid specimens, 50 of which were confirmed for the presence of microsporidia by transmission electron microscopy (TEM). All TEM-positive specimens were detected by calcofluor and modified trichrome blue staining. Ten specimens were not detected by the IFA stain. An additional seven TEMnegative specimens were read positive for microsporidia with the calcofluor stain, and of these, five also were read positive with the modified trichrome blue stain. The resulting diagnostic paradigm was to screen specimens with the calcofluor stain and to confirm the results with the modified trichrome stain. IFA, which was less sensitive, may become useful for microsporidian species identification as specific antibodies become available.

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Detection of microsporidia by indirect immunofluorescence antibody test using polyclonal and monoclonal antibodies

Aldras

Orenstein

Kotler

et al. 1994

J Clin Microbiol

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During a screening for monoclonal antibodies (MAbs) to the microsporidian Encephalitozoon hellem, three murine hybridoma cell lines producing strong enzyme-linked immunosorbent assay (ELISA) reactivities were cloned twice, were designated C12, E9, and Ell, and were found to secrete MAbs of the immunoglobulin M isotype. On subsequent ELISAs, the three MAbs reacted most strongly to E. hellem, and they reacted somewhat less to Encephalitozoon cuniculi and least to Nosema corneum, two other microsporidian species. The MAbs produced values of absorbance against microsporidia that were at least three times greater than reactivities obtained with control hybridoma supernatants or with uninfected host cell proteins used as antigens. By Western blot immunodetection, the three MAbs detected three E. helkm antigens with relative molecular weights (Mrs) of 62, 60, and 52 when assayed at the highest supernatant dilutions producing reactivity. At lower dilutions, the MAbs detected additional proteins with Mrs of 55 and 53. By using indirect immunofluorescence antibody staining, the MAbs, as well as hyperimmune polyclonal murine antisera raised against E. cuniculi and E. helem, were able to detect formalin-fixed, tissue culture-derived E. cuniculi and E. heUlem and two other human microsporidia, Enterocytozoon bieneusi and Septata intestinalis, in formalin-fixed stool and urine, respectively. E. bieneusi, however, stained more intensely with the polyclonal antisera than with the MAbs. Neither the MAbs nor the hyperimmune murine polyclonal antibodies detected Cryptosporidium, Giardia, Trichomonas, or Isospora spp. At higher concentrations, the polyclonal antisera did stain N. corneum and yeast cells. The background staining could be absorbed with Candida albicans. These results demonstrate that polyclonal antisera to E. cuniculi and E. hellem, as well as MAbs raised against E. helkm, can be used for indirect immunofluorescence antibody staining to detect several species of microsporidia known to cause opportunistic infections in AIDS patients.

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A M Aldras

Comparison of three staining methods for detecting microsporidia in fluids

Detection of microsporidia by indirect immunofluorescence antibody test using polyclonal and monoclonal antibodies

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