1. The monoamines dopamine (DA), norepinephrine (NE), epinephrine (E), and serotonin (5-HT) serve as endogenous neurotransmitters in the nervous system. We recently reported that the neurotransmitter DA can trigger apoptosis (programmed cell death; PCD) in cultured, postmitotic chick embryo sympathetic neurons, suggesting a role for apoptosis in degenerative processes such as Parkinson's disease (PD). However, PD is also associated with involvement of other monoaminergic (MA) neuronal systems (noradrenergic and serotoninergic), though to a lesser extent. 2. We therefore tested the apoptosis-triggering potential of NE, E, and 5-HT in comparison to the DA effect, in cultured postmitotic nerve growth factor (NGF)-dependent chick embryo sympathetic neurons and mouse cerebellar granule cells. 3. In both model systems MA induced neuronal attrition characteristic of apoptosis. MA caused marked morphological alterations: severe neuronal soma shrinkage, membrane blebbing, nuclear condensation and fragmentation, and axonal disintegration. Flow-cytometric analysis of propidium iodide-stained cell nuclei revealed characteristic apoptotic nuclear fragmentation. MA-induced apoptosis could be blocked by SH-group containing antioxidants but not by inhibitors of transcription and translation. 4. Comparison between the two model systems revealed that the cerebellar granule neurons were distinctly more sensitive to the neurotoxic potential of the MA than sympathetic neuronal cells. Significant differences in the dose dependencies and time course of the apoptotic effect were observed among the examined MA, graded as DA > NE approximately E > 5-HT. 5. We conclude that the apoptosis triggering potential, probably mediated by oxidative metabolites, is shared by all MA tested, but with differential time course and dose dependencies. A correlation can be drawn between the effects of DA vs NE vs 5-HT and the relative involvement of dopaminergic/noradrenergic/serotoninergic pathways in PD, which may suggest a common multisystem underlying abnormality in neuronal apoptosis-control mechanisms.