Synaptic vesicle proteins in cells of the sympathoadrenal lineage.

The cells of sympathoadrenal lineage display different characteristics after differentiation, although they stem from the same neural crest precursor during embryonic development. In the present study we compared the distribution patterns of several synaptic vesicle proteins in the superior cervical ganglion (SCG) and the adrenal medulla. Using indirect immunofluorescence combined with confocal laser scanning microscopy, it was observed that antisera against integral synaptic vesicle membrane proteins (SV2, synaptotagmin I, synaptobrevin II and synaptophysin) induced strong immunoreactivities in these cells, but anti-synaptobrevin I caused only a faint fluorescence. Immunoreactivities of the synaptic vesicle-associated proteins Rab3a and SNAP25 were also observed in the cells. Synapsin-Ia-reactive material appeared absent from chromaffin cells but present in small amounts in sympathetic neurons in the SCG and iris terminals. On the other hand, synapsin IIa immunoreactive material was strong in most SCG neurons and in adrenergic iris terminals. The neural specific clatrin light chain was detected in the SCG cells and in ganglion cells of the adrenal, but only weak traces could be observed in chromaffin cells. One of the vesicular monoamine transmitter transporters, VMAT2, which is expressed in catecholamine neurons in the brain stem, was observed in most cells in the SCG and also in groups of cells in the adrenal medulla, where the VMAT2-positive small chromaffin cells were PNMT-negative. SIF cells in the SCG contained most of the synaptic vesicle proteins investigated. The results show that after differentiation, sympathetic neurons, SIF cells and adrenal chromaffin cells still share many vesicle proteins even though their physiology is different.