The uptake of horseradish peroxidase by cortical synapses in rat brain. An in vivo study
Autor: | D.G. Jones, Paul U. Cameron, L. T. Ellison |
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Rok vydání: | 1977 |
Předmět: |
Male
Histology Coated vesicle Horseradish peroxidase Synaptic vesicle Exocytosis Pathology and Forensic Medicine In vivo medicine Animals Horseradish Peroxidase Cerebral Cortex biology Chemistry Vesicle Biological Transport Cell Biology Rats Microscopy Electron Membrane medicine.anatomical_structure Peroxidases Cerebral cortex biology.protein Biophysics Female Synaptic Vesicles |
Zdroj: | Cell and tissue research. 178(3) |
ISSN: | 0302-766X |
Popis: | Horseradish peroxidase (HRP) was introduced directly into the cerebral cortex of adult rats, which were allowed to survive for 60 min before perfusion fixation. After the tissue had been incubated to demonstrate HRP at the LM and EM levels, blocks of cortical tissue were taken at varying distances from the injection site. These eight blocks of tissue constituted a time sequence for HRP diffusion. Qualitative examination of the presynaptic terminals showed that the most commonly encountered profiles are the plain synaptic vesicles, many of which accumulate tracer. In some terminals labelled vesicles are “lined-up” in tubular fashion. Other profiles commonly labelled are coated vesicles, tubular and vacuolar cisternae, and plain and coated pinocytotic vesicles. Quantitative analyses based on the number of terminals containing labelled profiles demonstrate an early rise in the rate of labelling of both plain synaptic vesicles and coated vesicles, after which synaptic vesicle labelling rises slowly towards a plateau. By contrast, there is a late parallel increase in the rate of labelling of coated vesicles and cisternae. A more detailed analysis, based on the actual numbers of labelled and total profiles within each presynaptic terminal, highlight early and late periods of rapid labelling for plain synaptic vesicles, coated vesicles and cisternae. A further aspect of HRP incorporation studied, concerns its uptake into four delineated regions of the presynaptic terminal. Our data indicate that membrane uptake into the presynaptic terminal is accomplished mainly via coated vesicles, although plain synaptic vesicles may also be involved. Coated vesicles, in turn, appear to give rise directly to plain synaptic vesicles, with some coalescing to produce vacuolar cisternae. The latter are involved in a two-way interchange of membrane with tubular cisternae, plain synaptic vesicles and coated vesicles. An additional source of plain synaptic vesicles are the tubular cisternae. Exocytosis of plain synaptic vesicles constitutes the mechanism by which transmitter is released from the presynaptic terminal. |
Databáze: | OpenAIRE |
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