AI Article Synopsis
- The study compares isoluminol and luminol to understand why isoluminol does not detect oxidants inside cells, with findings showing isoluminol is more polar, hydrophilic, and forms weaker intramolecular bonds than luminol.
- Isoluminol only slightly penetrates cell membranes and mainly detects extracellular radicals, while luminol can interact with both extracellular and intracellular radicals due to its lipo/hydrophilic nature.
- The research also explores how two antihistamine drugs, brompheniramine and loratadine, affect radical formation, showing brompheniramine inhibits the extracellular signal and enhances the intracellular signal, while loratadine reduces radical formation in both areas.
Article Abstract
To address the question why isoluminol, but not luminol, failed to detect oxidants produced intracellularly, differences between these luminophores were investigated with respect to physicochemical parameters and the character of chemiluminescence signal. Our results showed the isoluminol molecule to be more polar, more hydrophilic and possessing lower ability to form intramolecular bonds than the luminol molecule. Therefore, isoluminol: (i) only slightly pervaded biological membranes; (ii) depended essentially on extracellular peroxidase; (iii) did not produce chemiluminescence in the presence of extracellular scavengers; and (iv) it could be considered a specific detector of extracellular radicals. On the other hand, the physicochemical parameters of luminol and partial resistance of its chemiluminescence to the effect of extracellular inhibitors proved the lipo/hydrophilic character of this luminophore and thus its ability to interact with radicals both outside and inside of cells. The luminol chemiluminescence measured in the presence of extracellular scavengers and the isoluminol chemiluminescence were used with the intention to differentiate the effects of two antihistamine drugs on intra- and extracellular radical formation. In activated human neutrophils, brompheniramine inhibited the extracellular and potentiated the intracellular part of chemiluminescence signal, whereas a reducing effect of loratadine was observed in both compartments.
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| http://dx.doi.org/10.1179/135100006X116592 | DOI Listing |
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