E Seidler scite author profile

The reduction of four tetrazolium cations (TCs), nitroblue tetrazolium (NBT), neotetrazolium (NT), methylthiazolyldiphenyltetrazolium (MTT) and iodonitrophenyltetrazolium (INT), by viable micro-organisms, immobilized on glass cover slips, was examined by light microscopy with a view to determining a systematic basis for applying these reagents as cytochemical indicators of microbial viability and activity. The potential value of histochemical information about TC reactions for developing their microbiological applications was also assessed. INT and MTT detected viable cells more readily than NBT and NT. In order to obtain cell-localized formazan, MTT required cobalt ions in the reaction mixture and INT reactions had to be assessed soon after mounting. In general, formazan deposition could be accelerated by the addition of glucose and an intermediate electron carrier (IEC) to the reaction mixture, although inhibitory effects of IECs were also detected. Cultures in exponential phase, in stationary phase and inhibited by chloramphenicol could be differentiated with MTT but not with INT. For some organisms, notably Candida albicans, Pseudomonas aeruginosa and Enterococcus faecalis. TC reactions proved to be a relatively insensitive means of demonstrating viability. Two parameters used in selecting TCs for histochemical reactions, lipophilicity and reducibility appeared to be predictive for the relative sensitivity of these reagents as indicators of cell viability. The concepts of substantivity, a measure of non-specific interactions between reagents and staining substrates, and TC oxygen sensitivity, the effect of competition between oxygen and TCs for electrons, were found to be relevant to formazan deposition in live microbes. These findings support the use of TCs as cytochemical probes of microbial activity in defined settings and the use of histochemical knowledge to support further development of these techniques.

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The Tetrazolium-Fomazan System: Design and Histochemistry

Seidler

1991

Progress in Histochemistry and Cytochemistry

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Calibration of a flow cytometric assay of glucose‐6‐phosphate dehydrogenase activity

Severin

Seidler

1992

Cytometry

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The reduction of tetrazolium salts to colored formazans is a reaction which has been exploited both in histo‐ and cytochemistry. Tetrazolium salts forming fluorescent formazans prove suitable for measuring defined cellular dehydrogenase activities in automated processes. This study considers an important aspect of formazan measurement in flow cytometry, namely, calibration. Calibration is performed by correlating the number (and fluorescence intensity) of formazanbearing cells measured by flow cytometry with simultaneously performed biochemical analyses of the same material. The method is demonstrated by an example of glucose‐6‐phosphate dehydrogenase. Using the data of a typical experiment, the enzyme activity is expressed in femtomol of hydrogen transferred per cell during incubation time. Furthermore, through spatially resolved double excitation of formazan and nuclear DAPI fluorescence, an independent analysis of cell cycle and cellular enzymatic activity is established.

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Flow Cytometric Assay of Cytochemically Demonstrated NAD(P)H Oxidoreductase (Diaphorase) Activities

Severin

Seidler²

1998

J Histochem Cytochem.

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The tetrazolium salt 5-cyano-2,3-di- p-toluyl-tetrazolium chloride (CTC), yielding a fluorescent formazan on reduction, was used to measure NAD(P)H oxidoreductase activity. In this study, optimal conditions for the flow cytometric technique were determined empirically with tissue culture cell lines and mouse Ehrlich ascites cells. Applying a coupled reaction procedure, NADH and NADPH as substrates of the oxidoreductases to be measured are generated endogenously by lactate or glucose-6-phosphate dehydrogenase, respectively. The results were evaluated by combining spectrophotometry and flow cytometry. We obtained integral activities for each group of NADH and NADPH oxidoreductases. Furthermore, by counterstaining the DNA with DAPI, followed by bivariate analysis of flow cytometric data, our assay gives a detailed distribution of enzyme activities of all cells, even in subgroups present in heterogeneous cell populations. Therefore, this protocol permits the study of NAD(P)H oxidoreductase activities in ex vivo tumor samples in which mixed cellular populations may be present.

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New nitro-monotetrazolium salts and their use in histochemistry

Seidler

1980

Histochem J

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E Seidler

Factors affecting the selection and use of tetrazolium salts as cytochemical indicators of microbial viability and activity

The Tetrazolium-Fomazan System: Design and Histochemistry

Calibration of a flow cytometric assay of glucose‐6‐phosphate dehydrogenase activity

Flow Cytometric Assay of Cytochemically Demonstrated NAD(P)H Oxidoreductase (Diaphorase) Activities

New nitro-monotetrazolium salts and their use in histochemistry

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