Synaptobrevin is essential for fast synaptic-vesicle endocytosis

Synaptobrevin-2 (VAMP-2), the major SNARE protein of synaptic vesicles, is required for fast calcium-triggered synaptic-vesicle exocytosis. Here we show that synaptobrevin-2 is also essential for fast synaptic-vesicle endocytosis. We demonstrate that after depletion of the readily releasable vesicle pool, replenishment of the pool is delayed by knockout of synaptobrevin. This delay was not from a loss of vesicles, because the total number of pre-synaptic vesicles, docked vesicles and actively recycling vesicles was unaffected. However, altered shape and size of the vesicles in synaptobrevin-deficient synapses suggests a defect in endocytosis. Consistent with such a defect, the stimulus-dependent endocytosis of horseradish peroxidase and fluorescent FM1-43 were delayed, indicating that fast vesicle endocytosis may normally be nucleated by a SNARE-dependent coat. Thus, synaptobrevin is essential for two fast synapse-specific membrane trafficking reactions: fast exocytosis for neurotransmitter release and fast endocytosis that mediates rapid reuse of synaptic vesicles.     

鸡前、后背阔肌去神经后对辣根过氧化物酶(HRP)的胞纳作用

本文报道了用辣根过氧化物酶(HRP)作为大分子标记物,以组织化学和生物化学方法观察了鸡前后背阔肌在去神经后的胞纳现象。结果表明,在去神经后发生肥大的前背阔肌和去神经后发生萎缩的后背阔肌同样都出现胞纳的明显增加。组织化学所观察的结果表明,浸泡在含 HRP 的任氏液中的有完整神经支配的前、后背阔肌只有极少数的肌纤维摄取 HRP,而在去神经的前、后背阔肌中则有不少的肌纤维内部出现 HRP 染色反应。这种反应在有的纤维表现为弥散性染色,有的表现为浓的 HRP 反应颗粒。生物化学的结果显示,去神经后的前、后背阔肌中 HRP 的相对含量分别比有神经支配的对照肌肉明显地增多54%和87%,我们在鸡前背阔肌用组织化学和生物化学所得的实验结果与 Thesleff 等人提出的关于肌肉萎缩机制的假设显然不符。本工作证实了肌肉的胞纳作用的增加并不一定最终导致肌纤维的变性和萎缩。     

小鼠骨胳肌在切腱、协同肌切腱和肉毒杆菌毒素中毒后对辣根过氧化物酶(HRP)的胞纳作用

本文报道了用生物化学方法测定离体小鼠比目鱼肌对 HRP 的胞纳作用。结果表明,在切断神经或切腱后引起萎缩的肌肉侧或在协同肌切腱后引起代偿性肥大的肌肉侧,与它们各自对照的正常肌肉侧相比,都可发生对 HRP 胞纳的明显增加。而在肉毒杆菌毒素中毒后引起萎缩的肌肉侧,和它正常的对照肌肉侧相比,却意外地不发生这种胞纳摄取的明显增加。本文的实验结果进一步证实。肌肉的胞纳增加并不一定导致肌纤维的变性和萎缩(例如代偿性肥大的肌肉);而肌纤维的变性和萎缩亦不一定需要肌肉的胞纳增加为前提(例如肉毒杆菌毒素中毒的肌肉)。本工作结果还提示:肌肉的胞纳增加有其神经原性和肌原性因素。本文还对肌肉胞纳增加的可能机制进行了讨论。     

Surface-associated vesicles in retinal arterioles and venules

Summary The surface-associated vesicles in retinal arterioles and venules were studied after fixation in glutaraldehyde-tannic acid or after intravitreal injection of peroxidase or lactoperoxidase. The vesicles were concentrated along the abluminal (basal) surface of the endothelial cells and along the plasma membranes of smooth muscle cells in arterioles and of pericytes in post-capillary venules. They were rarely encountered in the deeper regions of these cells. In perpendicular sections through the cell surface the majority of vesicles were in continuity with the plasma membrane whereas in tangential sections, they appeared to lie free in the cytoplasm. All such vesicles were labeled after exposure to tannic acid or to the heme-proteins. Peroxidase-reaction product was never seen in the lumen of the vessels. These observations suggest that the surface vesicles in endothelial cells, smooth muscle cells and pericytes are invaginations of the plasma membrane and are thus not involved in the transcytosis or endocytosis of proteins. The vesicles in the latter two cell types may be involved in some aspect of contractility rather than pinocytosis.Supported by grants EYO4831, Research to Prevent Blindness, Inc., and the Michigan Eye Bank     

The use of lectins and cholera toxin for the detection of surface carbohydrates of cultured neurons and neuroblastoma.

Conjugates of horseradish peroxidase with the lectins ricin (d-galactose), wheat germ agglutinin (N-acetylglucosamine), phytohemagglutinin (N-acetylgalactosamine), and with cholera toxin (GM1 ganglioside) were used for a cytochemical detection of corresponding termin al carbohydrates, or glycolipids on cell surfaces of cultured neurons and neuroblastoma cells. Cells were labeled at 4 degrees C with the above ligands and their adsorptive endocytosis was studied after incubations at 37 degrees C in a medium free of ligand. Peroxidase was detected by the method of Graham and Karnovsky (J. Histochem. Cytochem. 14:291, 1966). Lectins and cholera toxin underwent endocytosis in cisternae and vesicles of GERL (Golgi-Endoplasmic Reticulum-Lysosome). We suggest that GERL is the primary ercipieint of adsorptively endocytosed plasma membrane "receptor"-ligand complexes which are thus degraded or possibly reutilized (recycling). Wheat germ agglutinin-horseradish peroxidase conjugates used in vivo for studies of retrograde axonal transport were significantly more sensitive than free horseradish peroxidase.     

Endocytosis in absorptive cells of cultured human small-intestinal tissue: Horseradish peroxidase,lactoperoxidase, and ferritin as markers

Summary The occurrence of endocytotic mechanisms in human small intestinal absorptive cells was investigated by culturing biopsy specimens in the presence of horseradish peroxidase (HRP), lactoperoxidase (LPO), and ferritin. The results indicate that both HRP and LPO entered the cells by apical endocytosis, after which they were transported via apical vesicles and tubules to the lysosome-like bodies. Ferritin, which showed a distinct affinity for the cell-coat glycoproteins, was not interiorized by the absorptive cells.These findings suggest that although human absorptive cells have an endocytotic mechanism, possibly fluid-phase endocytosis, cell-coat glycoproteins are not taken up by the cells, as indicated by the absence of ferritin in the apical vesicles and tubules, as well as the lysosome-like bodies. These findings provide indirect support for our hypothesis that the lysosome-like bodies have a function in the regulation of cell-coat glycoprotein transport via a crinophagic mechanism (fusion of apical vesicles and tubules with lysosome-like bodies) rather than via an exocytotic-endocytotic mechanism.     

Effects of colchicine on DNA synthesis, endocytosis and fine structure of cultivated arterial smooth muscle cells

Confluent secondary cultures of rat arterial smooth muscle cells were exposed to cationic and anionic derivatives of ferritin and horseradish peroxidase and studied electron microscopically in order to clarify the influence of molecular net charge on surface binding and endocytosis of proteins. The cationic markers bound uniformly to the plasma membrane. They were then ingested by membrane invagination and via small vesicles transported to lysosomes and the Golgi complex. These organelles were both labelled already after 30 min of incubation. With longer exposure times (2-4 h), an increasing accumulation within the lysosomes was observed, whereas the labelling of the Golgi complex decreased. In spite of continued interiorization of plasma membrane carrying the cationic markers, the cells retained their ability to bind the latter to the surface. The anionic markers did not bind to the cell surface, were taken up in the fluid phase, and later observed only in lysosomes. If assuming that the cationic and anionic proteins serve as markers for the plasma membrane and fluid phase, respectively, but do not affect the intracellular path of interiorized membrane, these results indicate that the endocytic vesicles fuse with and empty their content into lysosomes and that part of the incoming membrane subsequently is transferred to the Golgi complex for possible recirculation back to the cell surface. If, on the other hand, the net charge of the exogenous marker influences the path of the vesicles, there may exist more than one recovery route for membrane interiorized by endocytosis.     

Kinetic analysis of the triggered exocytosis/endocytosis secretory cycle in cultured bovine adrenal medullary cells

Cultured bovine adrenal medullary cells are an excellent preparation for quantitative analysis of the secretory exocytosis/endocytosis cycle. In this paper we examine the kinetics of endocytosis after stimulation of secretion. Membrane retrieval was monitored by uptake of the fluid phase marker horseradish peroxidase. Horseradish peroxidase was found to be suitable because it can be washed off completely, assayed quantitatively, and its uptake increases linearly with concentration. If this marker is present during stimulation, the rate of uptake is initially slower than catecholamine secretion but faster at a later time, suggesting that the formation of endocytotic vesicles follows exocytosis. To monitor the time-dependent concentration of secretory vesicle-plasma membrane fusion product (omega-profiles), secretion was halted at various time intervals after stimulation and the excess membrane allowed to transform into endocytotic vesicles in the presence of horseradish peroxidase. By adding horseradish peroxidase at various times after inhibition of secretion, the time course of membrane retrieval could be measured directly. All our results are consistent with a two-step kinetic model in which exocytosis and membrane retrieval are consecutive events. The estimated volumes of the compartments involved are roughly equal. The rate of endocytosis is strongly temperature-dependent but unaffected by extracellular calcium in the range of 10(-8)-2.5 X 10(-3) M, suggesting that calcium is not required at the site of endocytotic membrane fusion. Membrane retrieval is also unaffected by Lanthanum (1 mM) but is slowed by hypertonic media.     

Altered endocytosis in a mutant of LM fibroblasts defective in cell–cell fusion

Mutants of LM fibroblasts selected for their decreased ability to undergo polyethylene glycol-induced cell-to-cell fusion (F40 subline) were examined for possible alterations of their ability to carry out endocytosis. Both fluidphase endocytosis of inulin and horseradish peroxidase and nonreceptor mediated adsorptive endocytosis of poly(L-lysine) were reduced to 60% of control values. Comparable results were obtained when the uptake of poly(L-lysine) was measured as internalization of surface-bound label in label-free medium or following continuous exposure. Accelerated breakdown of internalized label was ruled out as a cause for decreased label accumulation. Accelerated exocytosis is an unlikely cause, and it is suggested that the decreased uptake is due to a decrease in the constitutive membrane vesiculation process that leads to the formation of endocytotic vesicles. The capacity of F40 cells to degrade internalized horseradish peroxidase and poly(L-lysine) was not impaired, nor was their susceptibility to the cytotoxic action of methotrexate-poly(L-lysine). This drug conjugate must be degraded inside cells and release small molecular methotrexate in order to be cytocidal. These data suggest that only the first step of nonspecific endocytosis is impaired, while the subsequent steps that require fusion of endosomes to lysosomes proceed normally. Since the formation of primary endosomes requires membrane fusion through the external aspect of the plasma membrane and in that respect resembles cell-cell fusion, we propose the hypothesis that the observed decrease in endocytosis is related to the decreased ability of F40 cells to fuse with each other, and reflects a decreased efficiency of fusion processes at the external face of the plasma membrane.     

Endocytotic pathways at the ruffled borders of rat maturation ameloblasts

Summary Using horseradish peroxidase (HRP) as a soluble protein tracer, electron microscopic studies were carried out in order to analyze endocytosis in the ruffle-ended ameloblasts of rat incisors. Accumulated HRP was initially incorporated from the ruffled border into the cytoplasm by means of pinocytotic vacuoles (pinosomes) and pinocytotic coated vesicles. The majority of the HRP was taken up by the large number of pinosomes, which then formed large endocytotic vacuoles by fusing either with each other or with preexisting endocytotic vacuoles. As time passed HRP accumulated, not in the pinosomes and ruffled border but in the endocytotic vacuoles and multivesicular bodies. Frequent connections between HRP-labeled coated vesicles and these cytoplasmic bodies indicate that these vesicles serve as an HRP carrier. These findings strongly suggest that ruffle-ended ameloblasts actively absorb soluble proteins from the enamel matrix during enamel maturation.     

Endocytotic pathways at the ruffled borders of rat maturation ameloblasts

Using horseradish peroxidase (HRP) as a soluble protein tracer, electron microscopic studies were carried out in order to analyze endocytosis in the ruffle-ended ameloblasts of rat incisors. Accumulated HRP was initially incorporated from the ruffled border into the cytoplasm by means of pinocytic vacuoles ( pinosomes ) and pinocytotic coated vesicles. The majority of the HRP was taken up by the large number of pinosomes , which then formed large endocytotic vacuoles by fusing either with each other or with preexisting endocytotic vacuoles. As time passed HRP accumulated, not in the pinosomes and ruffled border but in the endocytotic vacuoles and multivesicular bodies. Frequent connections between HRP-labeled coated vesicles and these cytoplasmic bodies indicate that these vesicles serve as an HRP carrier. These findings strongly suggest that ruffle-ended ameloblasts actively absorb soluble proteins from the enamel matrix during enamel maturation.     

Visualization of endocytosed markers in freeze-fracture studies of toad urinary bladder

Antidiuretic hormone (ADH) stimulation increases the apical membrane water permeability of granular cells in toad urinary bladder. This response correlates closely with the fusion of tubular cytoplasmic vesicles with the membrane and delivery of intramembrane particle (IMP) aggregates from the tubules (aggrephores) to the apical membrane. These aggregates are believed to be associated with the channels responsible for the water permeability increase. Removal of ADH triggers apical membrane endocytosis and disappearance of aggregates from the apical membrane. However, it has been unclear whether aggregate disappearance is due to disassembly of aggregates within the apical membrane or to their endocytic retrieval as intact structures. Using colloidal gold and horseradish peroxidase to follow endocytosis from the apical surface after ADH removal, we have directly observed in cross-fractured bladder cells the intramembrane structure of intracellular vesicles that contain these fluid-phase markers. Under these conditions, intact aggregates can be identified in the membrane of tubular endocytosed vesicles. This directly demonstrates that conditions which lower apical membrane water permeability cause the tubular aggrephores to "shuttle" intact aggregates from the apical membrane back into the cytoplasm. An additional population of vesicles with tracer are found which are spherical and display structural features of the apical membrane, as well as occasional aggregates. These vesicles may be responsible for retrieval of aggregates from the surface apical membrane.     

Freeze-fracture studies of frog neuromuscular junctions during intense release of neurotransmitter. II. Effects of electrical stimulation and high potassium

Frog cutaneous pectoris nerve muscle preparations were studied by the freeze-fracture technique under the following conditions: (a) during repetitive indirect stimulation for 20 min, 10/s; (b) during recovery from this stimulation; and (c) during treatment with 20 mM K+. Indirect stimulation causes numerous dimples or protuberances to appear on the presynaptic membrane of nerve terminal, and most are located near the active zones. Deep infoldings of the axolemma often develop between the active zones. Neither the number nor the distribution of dimples, protuberances, of infoldings changes markedly during the first minute of recovery. The number of dimples, protuberances, and infoldings is greatly reduced after 10 min of recovery. Since endocytosis proceeds vigorously during the recovery periods, we conclude that endocytosis occurs mostly at the active zones, close to the sites of exocytosis. 20 mM K+ also causes many dimples or protuberances to appear on the axolemma of the nerve terminal but they are distributed almost uniformly along the presynaptic membrane. Experiments with horseradish peroxidase (HRP) show that recycling of synaptic vesicles occurs in 20 mM K+. This recycling is not accompanied by changes in the number of coated vesicles. Since both exocytosis and endocytosis occur in 20 mM K+, it is difficult to account for this unique distribution. However, we suggest that K+ causes dimples or protuberances to appear between the active zones because it activates latent sites of exocytosis specified by small numbers of large intramembrane particles located between active zones. The activation of latent release sites may be related to the complex effects that K+ has on the quantal release of neurotransmitter.     

Endocytosis in absorptive cells of cultured human small-intestinal tissue: Effect of cytochalasin B and D

Summary The effect of cytochalasin B (CB) and cytochalasin D (CD) on the endocytotic uptake of horseradish peroxidase (HRP) by intestinal absorptive cells was investigated by morphometric methods. The results showed that CD inhibited endocytosis considerably, and without any detrimental side-effects. CB had hardly any effect on the endocytosis of HRP, but caused a significant decrease in the number of apical vesicles and tubules involved in the transport of cell-coat glycoproteins from the Golgi apparatus to the brush border.Electron-microscopic autoradiographic analysis of the effect of CD showed that although endocytosis is inhibited significantly by the drug, the amount of radiolabelled cell-coat material entering the lysosome-like bodies was unaltered compared with control cultures. These observations support our hypothesis that the cell-coat glycoproteins of the absorptive cells enter the lysosome-like bodies by a crinophagic rather than by an exocytotic-endocytotic mechanism.     

Pathways involved in fluid phase and adsorptive endocytosis in neuroblastoma

The endocytosis of ricin, horseradish peroxidase (HRP), and a conjugate of ricin-HRP by monolayer cultures of murine neuroblastoma was studied using morphological and biochemical techniques. The binding of (125)I-ricin and (125)I-ricin-HRP to cells at 4 degrees C, as a function of ligand concentration, was a saturable process. The apparent affinity constants, determined at equilibrium, were 2.8 X 10(6) M(-1) for ricin and 1 x 10(6) M(-1) for ricin-HRP. The number of binding sites per cell was 8 x 10(7) and 3 x 10(7) for the lectin and the conjugate, respectively. The binding of (125)I-ricin to monolayers as not proportional to cell density. We found reduced binding at higher cell concentrations, suggesting a decrease in the accessibility of the ligand for the receptor site or fewer sites with increasing cell population. Neuroblastoma cells have an acid-phosphatase-positive network of cisternae and vesicles near the Golgi apparatus (GERL). Ricin-HRP undergoes endocytosis in vesicles and cisternae corresponding to GERL, and in residual bodies (dense bodies). The cellular uptake of ricin-HRP was 100-200 times greater than free HRP and there was no stimulation of fluid phase endocytosis by ricin. When monolayers were exposed to concentrations of native HRP 100-fold that of the conjugate, cellular uptake of peroxidase was comparable, but HRP was localized only in residual bodies and never in elements of GERL. These results support the conclusion that GERL is involved in the adsorptive endocytosis of ricin-HRP, while residual bodies are involved in the bulk uptake of HRP. In addition, the binding, uptake, and possible recycling of (125)I- subunit B (the binding subunit) of ricin and of (125)I-ricin was examined by quantitative electron microscope autoradiography. Both ricin and its binding subunit displayed similar autoradiographic grain distributions at 4 degrees C, and there was no evidence of their breakdown or recycling to the plasma membrane during endocytosis for 2 h.     

Regulation of Commissureless by the ubiquitin ligase DNedd4 is required for neuromuscular synaptogenesis in Drosophila melanogaster

Muscle synaptogenesis in Drosophila melanogaster requires endocytosis of Commissureless (Comm), a binding partner for the ubiquitin ligase dNedd4. We investigated whether dNedd4 and ubiquitination mediate this process. Here we show that Comm is expressed in intracellular vesicles in the muscle, whereas Comm bearing mutations in the two PY motifs (L/PPXY) responsible for dNedd4 binding [Comm(2PY-->AY)], or bearing Lys-->Arg mutations in all Lys residues that serve as ubiquitin acceptor sites [Comm(10K-->R)], localize to the muscle surface, suggesting they cannot endocytose. Accordingly, aberrant muscle innervation is observed in the Comm(2PY-->AY) and Comm(10K-->R) mutants expressed early in muscle development. Similar muscle surface accumulation of Comm and innervation defects are observed when dNedd4 is knocked down by double-stranded RNA interference in the muscle, in dNedd4 heterozygote larvae, or in muscles overexpressing catalytically inactive dNedd4. Expression of the Comm mutants fused to a single ubiquitin that cannot be polyubiquitinated and mimics monoubiquitination [Comm(2PY-->AY)-monoUb or Comm(10K-->R)-monoUb] prevents the defects in both Comm endocytosis and synaptogenesis, suggesting that monoubiquitination is sufficient for Comm endocytosis in muscles. Expression of the Comm mutants later in muscle development, after synaptic innervation, has no effect. These results demonstrate that dNedd4 and ubiquitination are required for Commissureless endocytosis and proper neuromuscular synaptogenesis.     

Endocytosis, intracellular transport, and turnover of anionic and cationic proteins in cultured mouse peritoneal macrophages

It was previously shown that cultured mouse peritoneal macrophages ingest anionic derivatives of horseradish peroxidase (HRP) and ferritin by fluid-phase endocytosis and accumulate them in lysosomes. Cationic derivatives were taken up by adsorptive endocytosis and transported to lysosomes but subsequently appeared also in stacked cisternae, tubules, and vesicles of the Golgi complex. In the present investigation, the effect of molecular net charge on the rate of cellular inactivation of a protein was studied. The results demonstrate that anionized HRP was inactivated at a higher initial rate than cationized HRP. This is in agreement with the finding that the cationic protein partly escaped from the digestive compartment of the cells, that means the lysosomes. The effects of phorbol myristate acetate (PMA)--a diterpene ester and a tumor promoter--and monensin--a carboxylic ionophore and a perturbant of the Golgi complex--on fluid-phase endocytosis of HRP and intracellular transport of cationized ferritin (CF) were also studied. PMA stimulated fluid-phase endocytosis of HRP but did not interfere with transport of CF to the Golgi complex. Contrarily, monensin inhibited uptake of HRP and almost totally blocked transport of CF to the Golgi complex. The findings support the idea that membrane and content of endocytic vesicles are treated separately. The content is emptied into lysosomes where macromolecular material normally is degraded. The membrane becomes part of the lysosomal envelope in connection with endocytic vesicle-lysosome fusion. Subsequently, membrane patches are detached from the lysosomes and reutilized. This is at least partly mediated via the Golgi complex and particularly its tubular and vesicular parts. Since the cationic tracers do not bind to the membrane in a stable way, it is not possible to extend the conclusions to individual membrane constituents.     

Visualization of the binding, endocytosis, and transcytosis of low- density lipoprotein in the arterial endothelium in situ

We investigated the interaction and transport of low-density lipoprotein (LDL) through the arterial endothelium in rat aorta and coronary artery, by perfusing in situ native, untagged human, and rat LDL. The latter was rendered electron-opaque after it interacted with the endothelial cell and was subsequently fixed within tissue. We achieved LDL electron-opacity by an improved fixation procedure using 3,3'-diaminobenzidine, and mordanting with tannic acid. The unequivocal identification of LDL was implemented by reacting immunocytochemically the perfused LDL with anti LDL-horseradish peroxidase conjugate. Results indicate that LDL is taken up and internalized through two parallel compartmented routes. (a) A relatively small amount of LDL is taken up by endocytosis via: (i) a receptor-mediated process (adsorptive endocytosis) that involved coated pits/vesicles, and endosomes, and, probably, (ii) a receptor-independent process (fluid endocytosis) carried out by a fraction of plasmalemmal vesicles. Both mechanisms bringing LDL to lysosomes supply cholesterol to the endothelial cell itself. (b) Most circulating LDL is transported across the endothelial cell by transcytosis via plasmalemmal vesicles which deliver LDL to the other cells of the vessel wall. Endocytosis is not enhanced by increasing LDL concentration, but the receptor-mediated internalization decreases at low temperature. Transcytosis is less modified by low temperature but is remarkably augmented at high concentration of LDL. While the endocytosis of homologous (rat) LDL is markedly more pronounced than that of heterologous (human) LDL, both types of LDL are similarly transported by transcytosis. These results indicate that the arterial endothelium possesses a dual mechanism for handling circulating LDL: by a high affinity process, endocytosis secures the endothelial cells' need for cholesterol; by a low-affinity nonsaturable uptake process, transcytosis supplies cholesterol to the other cells of the vascular wall, and can monitor an excessive accumulation of plasma LDL. Since in most of our experiments we used LDL concentrations above those found in normal rats, we presume that at low LDL concentrations saturable high-affinity uptake would be enhanced in relation to nonsaturable pathways.     

DEPLETION OF VESICLES FROM FROG NEUROMUSCULAR JUNCTIONS BY PROLONGED TETANIC STIMULATION

Curarized cutaneous pectoris nerve muscle preparations from frogs were subjected to prolonged indirect stimulation at 2/sec while recording from end plate regions. At the ends of the periods of stimulation, the curare was removed and the preparations were fixed for electron microscopy or treated with black widow spider venom to determine the degree to which their stores of transmitter had been depleted. After 6–8 hr of stimulation the nerve terminals were almost completely depleted of their stores of transmitter and of their population of vesicles. Most of the transmitter release occurred during the first 4 hr of stimulation, and after this time most (about 80%) of the fibers were depleted of about 80% of their transmitter. The organization of the nerve terminals in 4-hr preparations appeared normal and the terminals still contained many vesicles. When peroxidase was present in the bathing medium, terminals from stimulated preparations showed many vesicles that contained peroxidase, whereas the rested control preparations showed few such vesicles The fact that after 4 hr the total number of vesicles is not markedly changed while a large fraction (up to 45%) contained peroxidase suggests that in our experiments vesicles were continuously fusing with and reforming from the axolemma.     

Endothelial vesicles as a transport system in the blood-brain barrier. Morphometric study during development

The vesicles and vacuoles of the endothelia, morphological expression of endocytosis and transendothelial transport, are quite absent in the mature neural endothelia. In order to study the temporal sequence of the vesicle and vacuole modifications during the blood brain barrier (bbb) setting up, the extent of these structures was morphometrically analyzed on electron micrographs of neural microvessels in the optic tectum of 8, 14, and 17 day chick embryos, fixed after an intracardial injection of the permeability marker horseradish peroxidase. During the development, endocytosis and transendothelial transport change, since a statistically significant reduction of both vesicles and vacuoles was recorded at the 17th incubation day. The temporal coincidence between decrease of endocytosis-transport processes and appearance of astrocytic endfeet close to the vessel wall, suggests that the glial cells might control, besides the tight junction formation, the expression of other properties of the bbb-provided endothelia.