Time-resolvable fluorescent conjugates for the detection of pathogens in environmental samples containing autofluorescent material

Russell Connally; Duncan Veal; James A. Piper

doi:10.1117/12.478395

12 September 2003 Time-resolvable fluorescent conjugates for the detection of pathogens in environmental samples containing autofluorescent material

Russell Connally, Duncan Veal, James A. Piper

Author Affiliations +

Proceedings Volume 4967, Genetically Engineered and Optical Probes for Biomedical Applications; (2003) https://doi.org/10.1117/12.478395
Event: Biomedical Optics, 2003, San Jose, CA, United States

Abstract

Water is routinely monitored for environmental pathogens such a Cryptosporidium and Giardia using immunofluorescence microscopy (IFM). Autofluorescence can greatly diminish an operators capacity to resolve labeled pathogens from non-specific background. Naturally fluorescing components (autofluorophores) encountered in biological samples typically have fluorescent lifetimes (τ) of less than 100 nanoseconds and their emissions may be excluded through use of time-resolved fluorescence microscopy (TRFM). TRFM relies on the large differences in τ between autofluorescent molecules and long-lived lanthanide chelates. In TRFM, targets labeled with a time-resolvable fluorescent immunoconjugate are excited by an intense (UV) light pulse. A short delay is imposed to permit the decay of autofluorescence before capture of luminescence from the excited chelate using an image intensified CCD camera. In our experience, autofluorescence can be reduced to insignificant levels with a consequent 30-fold increase in target visibility using TRFM techniques. We report conjugation of a novel europium chelate to a monoclonal antibody specific for Giardia lamblia and use of the immunoconjugate for TRFM studies. Initial attempts to conjugate the same chelate to a monoclonal antibody directed against Cryptosporidium parvum led to poorly fluorescent constructs that were prone to denature and precipitate. We successfully conjugated BHHCT to anti-mouse polyvalent immunoglobulin and used this construct to overcome the difficulties in direct labeling of the anti-Cryptosporidium antibody. Both Giardia and Cryptosporidium were labeled using the anti-mouse protocol with a subsequent 20-fold and 6.6-fold suppression of autofluorescence respectively. A rapid protocol for conjugating and purifying the immunoconjugate was found and methods of quantifying the fluorescence to protein ratio determined. Performance of our TRFM was dependent on the quality and brightness of the immunoconjugate and optimization of the conjugation process is necessary to reap the full benefit of time-resolved techniques.

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Russell Connally, Duncan Veal, and James A. Piper "Time-resolvable fluorescent conjugates for the detection of pathogens in environmental samples containing autofluorescent material", Proc. SPIE 4967, Genetically Engineered and Optical Probes for Biomedical Applications, (12 September 2003); https://doi.org/10.1117/12.478395

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