The pH‐Sensitive Dye Acridine Orange as a Tool to MonitorExocytosis/Endocytosis in Synaptosomes

Abstract: Abstract:We introduce the use of the pH-sensitive dye acridine orange (AO) to monitor exo/endocytosis of acidic neurotransmitter-containing vesicles in synaptosomes. AO is accumulated exclusively in acidic v-ATPase-dependent bafilomycin (Baf)-sensitive compartments. A fraction of the accumulated AO is rapidly released (fluorescence increase) upon depolarization with KCl in the presence of Ca 2ϩ . The release (completed in 5-6 s) is followed by reuptake to values below the predepolarization baseline. The reupta… Show more

“…Acidifica tion of synaptic vesicles was assessed using acridine orange (AO), a pH-sensitive fluorescent probe that is accumulated in the acidic cell compartments pro portionally to the pH gradient [18,19]. As a result, AO fluorescence is quenched because of protona tion of the dye.…”

The effect of nitric oxide on synaptic vesicle proton gradient and mitochondrial potential of brain nerve terminals

“…Acidifica tion of synaptic vesicles was assessed using acridine orange (AO), a pH-sensitive fluorescent probe that is accumulated in the acidic cell compartments pro portionally to the pH gradient [18,19]. As a result, AO fluorescence is quenched because of protona tion of the dye.…”

The effect of nitric oxide on synaptic vesicle proton gradient and mitochondrial potential of brain nerve terminals

“…In contrast to carboxyfluorescein, acridine orange can be taken up into cells and has been widely used to monitor pH inside animal (Wieczorek et al, 1991;Zoccarato et al, 1999;Malnic & Geibel, 2000) and plant cells (Pope & Leigh, 1988;DuPont, 1989). Carboxyfluorescein is a large double-negative charged anion that can permeate the plasma membrane only in its non-fluorescing diacetate form (Babcock, 1983;Graber et al, 1986).…”

Apoplast Acidification in Growing Barley (Hordeum vulgare L.) Leaves

“…We compared the effect of EGTA-AM on depolarization-induced and glutamate-induced glutamate release from hippocampus MFSs. We added 25 mM KCl to induce depolarization (Zoccarato et al, 1999) and 20 pM glutamate to activate presynaptic receptors on MF terminals (Schmitz et al, 2001;Rebola et al, 2008; but see Kwon and Castillo, 2008). Addition of KCl to the synaptosomes lead to large glutamate release, whereas 20 pM glutamate evokes significantly smaller responses.…”

Vesicular Zinc Regulates the Ca²⁺Sensitivity of a Subpopulation of Presynaptic Vesicles at Hippocampal Mossy Fiber Terminals