Alan F. Boyne scite author profile

1. Synaptic vesicles separated by density-gradient centrifugation from extracts of the cholinergic nerve terminals of the electric organ of Torpedo marmorata were found to contain appreciable amounts of ATP as well as acetylcholine. 2. Vesicular ATP was stable in the presence of concentrations of apyrase and myokinase that rapidly destroyed equivalent amounts of endogenous or added free ATP; pre-treatment of cytoplasmic extracts of electric tissue with these enzymes destroyed endogenous free ATP, but did not affect the vesicular ATP. 3. When [U-(14)C]ATP was added to electric tissue at the time of comminution and extraction of the vesicles, all the radioactivity was associated with soluble components in the subsequent fractionation: none was associated with vesicles or membrane fragments; thus it is unlikely that vesicular ATP can be accounted for by the sequestration of endogenous free ATP within any vesicles formed during comminution and extraction of the tissue. 4. When synaptic vesicles were passed through iso-osmotic columns of Bio-Gel A-5m, which separates vesicles from soluble proteins and small molecules, all the recovered ATP and acetylcholine passed through together in the void volume. 5. Regression analysis showed that vesicular ATP content was highly correlated with vesicular acetylcholine content in different experiments, the molar ratio acetylcholine/ATP being 5.32+/-(s.e.m.) 0.45 (21 expts.) for the peak density-gradient fraction. The ratio varied, however, somewhat across the density-gradient peak suggesting some degree of chemical heterogeneity in the vesicle population.

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Liquid nitrogen‐based quick freezing: Experiences with bounce‐free delivery of cholinergic nerve terminals to a metal surface

Phillips

Boyne

1984

J. Elec. Microsc. Tech.

100

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The limitations of chemical fixation in permitting the 1:1 quantitative correlations required for convincing ultrastructural explanations of cell biological processes are noted. We describe techniques for obtaining highly reproducible direct quick freezing on the polished surface of pure copper bars dipping into a static dewar of liquid Nz. The importance and the ease of testing and obtaining bounce suppression with commercially available equipment is emphasized. Artefacts caused by tissue damage and bad freezing are illustrated, and a hitherto unrecognized population of presynaptic membrane attached vesicles is described in Torpedine electric organ. Between 15 and 20% of the synaptic vesicles are attached to ca. 30% of the cytoplasmic face of the presynaptic terminal membrane. There is a close correlation between the occurrence of such attachments and the application of electrocyte basal lamina to the external face. We suggest that these vesicles are the 'membrane operators,' 'vesigates,' and 'highly active subpopulation' of vesicles whose existence has been invoked to explain biochemical data in other laboratories. We further speculate that relatively selective Ca pumping by this immediately submembranous population leads to displacement of acetylcholine (ACh) and reloading with newly synthesized ACh. The preferential release of the latter would then be expected.

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Effects of Calcium-Containing Fixation Solutions on Cholinergic Synaptic Vesicles

Boyne

Bohan

Williams

1974

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Calcium (Ca)-containing fixation solutions applied to slices of electric organ of the electric ray, Narcine brasiliensis, have been shown to have three distinct ultrastructural effects on cholinergic synaptic vesicles of the nerve terminals.(a) An electron-dense particle (EDS) is observed within the vesicle; the particle is seen in unosmicated, unstained tissues and can be removed from thin sections by Ca-chelating agents. It is concluded that the EDS represents Ca bound by the vesicle. It is suggested that the bound ATP of the vesicle provides anionic Ca binding sites.(b) The vesicle membrane tends to 'crinkle' or collapse depending on the concentration of the other components of the fixative solution. The 'crinkling' or collapse are largely reversed by a wash step in the absence of Ca.(c) The presence of Ca results in the appearance of a population of vesicles which form characteristic fusions or 'tight' junctions with the terminal membrane. This appears to be morphological evidence for the proposal, which has been frequently put forward, that Ca facilitates such a fusion before discharge of vesicle-bound transmitter.With the discovery that the use of Ca-containing fixatives leads to the demonstration of a subpopulation of synaptic vesicles fused to the terminal membrane, we are led to propose that this is the ultrastructural location of the newly synthesized acetylcholine which has been shown by others to be preferentially released by stimulation.Recently, we (4) described fixation conditions which result in the appearance of a single, dense particle in many of the cholinergic vesicles of the neuroplaque junction of the electric ray, Narcine brasiliensis. Now we are presenting additional findings including the demonstration that calcium is necessary in the fixative solutions, if the particle is to be visualized.Oschman and Wall (29) have suggested that calcium-containing fixatives may facilitate the ultrastructural identification of calcium binding sites, which then appear as spots or plaques of high electron density. These electron-dense spots (EDS) were regarded as Ca binding sites in insect intestinal membranes because (a) they occurred only when Ca was included in the fixation solutions, and (b) they were visible in sections from aldehyde fixed, unosmicated tissues, indicating that the EDS have an intrinsic electron density. Hillman and Llinfis (15) and Oschman et al. (28) have recently analyzed Ca-dependent EDS in the membranes of the squid giant axon by energy dispersive X-ray "780

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A gentle, bounce-free assembly for quick-freezing tissues for electron microscopy: Application to isolated torpedine ray electrocyte stacks

Boyne¹

1979

Journal of Neuroscience Methods

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Alan F. Boyne

A methodology for analysis of tissue sulfhydryl components

Adenosine triphosphate. A constituent of cholinergic synaptic vesicles

Liquid nitrogen‐based quick freezing: Experiences with bounce‐free delivery of cholinergic nerve terminals to a metal surface

Effects of Calcium-Containing Fixation Solutions on Cholinergic Synaptic Vesicles

A gentle, bounce-free assembly for quick-freezing tissues for electron microscopy: Application to isolated torpedine ray electrocyte stacks

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