This paper reviews aspects of the origin and fate of synaptic vesicles and of the related catecholamine-containing secretion granules of the adrenal medulla. Most attention is given to evidence concerning the proposal that the membrane surrounding synaptic vesicles can originate from axonal agranular reticulum, participate in exocytosis and endocytosis and eventually undergo degradation in lysosomes of axons and perikarya. A number of relevant details of the roles of several organelles in neurons and other cells of the nervous system are discussed. The paper centers around microscopic and cytochemical work on a few experimental systems. 135, 136, 140, 211). The adrenal medulla is a tissue closely related to nervous tissue in its anatomy, biochemistry and development (34). Biochemical studies have shown that proteins and other components from the secretion granules are released from the medulla cells along with the c atechol amine hormones characteristically
A procedure is presented which modifies the Sternberger peroxidase--antiperoxidase (PAP) technique in order to visualize additional amounts of immunodeposits representing the antigen substance (SP) in 5-micrometer paraffin tissue sections of rat spinal cord. For increased sensitivity, the new procedure utilizes a "double bridge" and diaminobenzidine in low pH buffer. The modifications have made possible the visualization of immunoreactive beaded processes and punctate bodies, which were then traced to determine patterns of SP circuitry. Using the modified PAP procedure, the greatest number of immunoreactive processes appeared in the dorsal horn, where some punctate bodies and varicose processes could be seen adjacent to the myelinated afferent fiber bundles that penetrate the substantia gelatinosa as dorsal root collaterals. Additional immunoreactive processes and punctate bodies coursed through the myelinated afferent fiber bundles that penetrate the dorsolateral white matter, and extend into the intermediolateral gray region. Substance P was also identified within immunoreactive processes found in Rexed's laminae V and VI, as well as the central canal region, the dorsal gray commissure, and the ventral gray and white commissures. Since the modifications improved the visualization of SP-containing processes in sparsely populated regions of the spinal cord, especially the ventral horn, they may be useful in demonstrating other antigens that normally occur in small quantities within tissues.
Insulin was used to deplete the adrenalin stores of rat adrenal medulla cells. Release of secretion was observed to occur by exocytosis. In addition, during the stages of massive release of secretory granules, the insulin-treated preparations showed greatly enhanced endocytic uptake of horseradish peroxidase. The tracer was taken up within vesicles, tubules, multivesicular bodies, and dense bodies. From acid phosphatase studies and from previous work it appears that many of the structures in which peroxidase accumulates are lysosomes or are destined to fuse with lysosomes. Subsequent to the period of intense exocytosis and endocytosis, there is a transient accumulation of lipid droplets in the adrenalin cells. The cells then regranulate, with new granules forming near the Golgi region. These results suggest that under the conditions used, much of the membrane that initially surrounds secretory granules is degraded after release of the granules.
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