Lead‐dependent deposits in diverse synaptic vesicles: Suggestive evidence for the presence of anionic binding sites

Abstract

We have observed electron dense deposits dependent on incubation of aldehyde‐fixed tissues with lead ions within synaptic vesicles of several types of neurons that differ in the neurotransmitters utilized and in the secretory granules of the adrenal medulla. Evidently, vesicle components that can interact with lead ions are widespread. A plausible explanation for the occurrence of the deposits is the presence of anionic binding sites within the vesicles. This would agree well with other biochemical, cytochemical, and immunocytochemical evidence, such as that indicating the presence of sulfated macromolecules in certain synaptic vesicles. Anionic binding sites could play significant roles by participating in processes such as Ca²⁺ storage, stabilization of pH gradients, or the control of osmotic phenomena.