Fluorescence of neurotransmitters and their reception in plant cell

Abstract

The use of fluorescent reagents for the histochemical detection of catecholamines or histamine, as well as luminescent antagonists of the intracellular neurotransmitters revealed that they can bind to certain cellular compartments. After the treatment with glyoxylic acid (a reagent used for the detection of catecholamines), blue fluorescence with maximum at 460–475 nm was visualized in nuclei and chloroplasts (in control preparations no emission in this spectral region was recorded), as well as an intense fluorescence, exceeding the control level, in the vacuoles. After the exposure to ortho-phthalic aldehyde (a reagent used for the histamine detection), blue emission was more noticeable in nuclei and chloroplasts, which correlates with previously observed effects on intact cells, such as pollen and vegetative microspores. A comparison of the intensities of the biogenic amine-related emission in various organelles showed that the greatest emission was in vacuoles and the weakest, in chloroplasts. Thus, on the surface, and possibly within the organelles, fluorescence could demonstrate the presence of biogenic amines. Antagonists of the neurotransmitters (dtubocurarine for acetylcholine; yohimbine for dopamine; norepinephrine and inmecarb for serotonin), which fluoresce in the blue and blue-green region and usually bind with the plasmalemma of intact cells, also interacted with the membranes of the organelles studied. Fluorescence intensity depended on the object; most prominent it was for yohimbine in the outer membrane of the nucleus, vacuoles, and chloroplasts.