Clathrin‐Mediated Endocytosis of Gold Nanoparticles In Vitro

Gold nanoparticles (AuNPs) have potential biomedical and scientific applications. In this study, we evaluated the uptake and internalization of FBS‐coated 20 nm AuNPs into lung fibroblasts and liver cells by different microscopy techniques. AuNP aggregates were observed inside MRC5 lung fibroblasts and Chang liver cells under light microscopy, especially after enhancement with automegallography. Clusters of AuNPs were observed to be adsorbed on the cell surface by scanning electron microscopy. Ultrathin sections showed that AuNPs were mainly enclosed within cytoplasmic vesicles when viewed under transmission electron microscopy. We also investigated the mechanism of uptake for AuNPs, using endocytosis inhibitors and quantification of Au with inductively coupled plasma mass spectrometry. Cells treated with concanavalin A and chlorpromazine showed significant decrease of Au uptake in MRC5 lung fibroblasts and Chang liver cells, respectively, implying that the uptake of AuNPs was facilitated by clathrin‐mediated endocytosis. It would therefore appear that uptake of 20 nm AuNPs in both cell types with different tissues of origin, was dependent upon clathrin‐mediated endocytosis. Anat Rec, 298:418–427, 2015. © 2014 Wiley Periodicals, Inc.     

Rabies virus entry into cultured rat hippo campalneurons

Rabies virus entry into cultured hippocampal neurons was investigated by immunofluorescence and electron microscopy. Hippocampal neurons were susceptible to rabies virus infection and became filled with viral antigen 1 day after infection. Infection was inhibited by the lysosomotropic agents chloroquine and ammonium chloride. To study entry, neurons were adsorbed with rabies virus at 4°C and warmed to 37°C for short periods of time prior to fixation and localization of viral antigen by immunofluorescence microscopy. By 5 min at 37°C, viral antigen was localized to puncta in the cell body and dendrites and in synapses along dendrites. Little viral antigen was present in axons. Cells adsorbed with rabies virus were incubated with tracers for early endosomes. The endocytic tracers or markers Lucifer Yellow, transferrin receptor, dextran, and wheat germ agglutinin co-localized with rabies virus, indicating that rabies virus enters an endosome compartment shortly after uptake. Rabies virus also co-localized with LysoTracker Red, an acidotropic probe, indicating that some of the virus-containing endosomes are acidified. Rabies virus also co-localized with synapsin I, a synaptic vesicle marker, in nerve terminals but did not co-localize with lysosomal glycoprotein. By electron microscopy, after adsorption of virus and warming for 10 min, virus particles were present in coated pits, coated vesicles, and vacuolar membrane compartments in processes and axon terminals. It is concluded that rabies virus enters the somatodendritic domain and axon terminals of cultured hippocampal neurons by adsorptive endocytosis and is located in endosomes shortly after uptake.     

Early stages of influenza virus entry into Mv-1 lung cells: involvement of dynamin

Viruses generally have one of two mechanisms for entry and uncoating. They can enter the cell either by endocytosis or by direct fusion at the plasma membrane. We have established a novel mink lung (Mv-1) cell line that expresses a dominant-interfering form of dynamin-1 (K44A) under the control of a tetracycline-responsive element and studied the early events in influenza infection using these cells. We found that influenza virus binds equally to both induced and uninduced cells, but in K44A-expressing cells, electron microscopy showed viruses trapped in deep coated pits and irregular-shaped tubular structures that contain discrete coated regions. We also show by immunofluorescence and confocal microscopy that entry of incoming virus into the nucleus is blocked in K44A-expressing cells. Virus replication was assayed by immunofluorescence microscopy and was strongly inhibited at both early and late times postinfection in K44A-expressing cells. Virus infectivity was inhibited by approximately 2 log units in cells expressing K44A dynamin when analyzed by influenza plaque assay. Overall these data show that dynamin is required for efficient influenza virus entry, presumably due to its function in release of vesicles from coated pits.     

Infectious dengue-1 virus entry into mosquito C6/36 cells

The entry of dengue virus-1 (DENV-1) strain Hawaii into mosquito C6/36 cells was analyzed using a variety of biochemical inhibitors together with electron microscopy. The treatment with ammonium chloride, chlorpromazine, dansylcadaverine and dynasore inhibited virus yields, determined by infectivity titrations, whereas nystatin and methyl-β-cyclodextrin did not have any effect. The effect of the clathrin and dynamin inhibitors on DENV-1 entry was corroborated by detection of internalized virions using immunofluorescence staining. Furthermore, electron micrographs showed the incoming virions attached to electron-dense invaginations of the plasma membrane and within coated vesicles that resembled clathrin-coated pits and vesicles, respectively. The susceptibility to clathrin and dynamin inhibitors of clinical isolates from recent outbreaks was comparable to that shown by the cell culture-adapted reference strain. Similarly, DENV-3 strain H87 and DENV-4 strain 8124 were also inhibited in the presence of ammonium chloride, chlorpromazine and dynasore, allowing conclude that the infectious entry of DENV serotypes to mosquito cells occurs by low pH-dependent clathrin-mediated endocytosis.     

Coated pits and vesicles in the osteoclast

The osteoclast is a cell with a phagocytic ability not dissimilar to the macrophage. Nevertheless, the mechanisms by which it resorbs bone are poorly understood. The aim of this study was to examine the distribution of coated membrane structures in the osteoclast in order to gain further information about endocytosis in this cell. Osteoclasts around the developing tooth germs of young rats were examined using transmission electron microscopy, and immunocytochemistry. Results showed that previously described coated membrane structures within the ruffled border do not appear to be associated with coated pits or vesicles. Coated pits were, however, evident on the dorsal and lateral surfaces of the cell, particularly opposite the clear zone areas. Immunogold staining for clathrin confirmed that coated pits and vesicles are absent within both the clear zone and ruffled border areas, but present on the lateral and dorsal surfaces of the actively resorbing cell. It is suggested that clathrin-associated receptor-mediated endocytosis occurs along the lateral and dorsal surfaces of the osteoclast for the uptake of nutrients and macromolecules, while endocytosis of bone mineral by the ruffled border is mediated by a non-clathrin associated coated membrane structure.     

The essential role of clathrin-mediated endocytosis in yellow head virus propagation in the black tiger shrimp Penaeus monodon

Yellow head virus (YHV) is one of the most widespread viruses seriously affecting black tiger shrimp (Penaeus monodon) cultivation. A previous microarray study demonstrated that clathrin coat assembly protein 17 (AP17) was significantly up-regulated after YHV infection (Pongsomboon et al., 2011). Clathrin coat AP17 is a part of the assembly protein σ2 (AP-2) complex which is involved in clathrin-mediated endocytosis. Quantitative RT-PCR (qRT-PCR) revealed that the clathrin coat AP17 gene was up-regulated 3-fold at 12 h post YHV infection. In addition, immunofluorescence microscopy showed that clathrin coat AP17 was highly expressed in the cytoplasm of the YHV-infected hemocytes. Knockdown of the clathrin coat AP17 gene dramatically reduced YHV replicativity by 32-fold. Interestingly, shrimp pre-treated with chlorpromazine, a commercial drug that inhibits clathrin-dependent endocytosis, exhibited significantly low levels of YHV infection. Taken together, these results suggest that clathrin-mediated endocytosis is involved in YHV propagation in P. monodon.     

Disparate localization of 55-kd and 75-kd tumor necrosis factor receptors in human endothelial cells.

We have used confocal immunofluorescence microscopy and immunogold electron microscopy to localize tumor necrosis factor (TNF) receptors in cultured human umbilical vein endothelial cells. The 75-kd receptor is largely expressed on the cell surface and undergoes endocytosis and transport to lycosomes through coated pits and coated vesicles. TNF may accelerate receptor clustering and internalization. The 55-kd receptor is expressed at much lower levels on the cell surface than the 75-kd receptor but is more abundant overall. It is predominantly localized to the Golgi apparatus and, to a lesser extent, cytoplasmic vacuoles. The cellular distribution of the 55-kd receptor is largely unaffected by TNF. These results have implications for TNF-mediated endothelial cell activation and for interactions between 75- and 55-kd TNF receptors.     

Enzymology of intracellular membrane fusion

Summary A combination of cell-free biochemical and morphological studies has revealed that a coated bud-coated vesicle transport system shuttles newly synthesized proteins through the successive processing compartments of the Golgi apparatus. These Golgi coated vesicles operate in a manner formally analogous to the clathrin coated pitcoated vesicle system responsible for receptor-mediated endocytosis; however Golgi coated vesicles do not contain clathrin.Abbreviations ER endoplasmic reticulum - VSV vesicular stomatitis virus - TGN trans Golgi network - GCVs Golgiderived coated vesicule - NEM N-ethylmaleimide - NSF NEM-sensitive fusion protein - SNAP soluble NSF-attachment protein(s) - ARF ADP-ribosylation factor - AlF₄ aluminumfluoride     

Clathrin-mediated endocytosis: the physiological mechanism of vesicle retrieval at hippocampal synapses

The maintenance of synaptic transmission requires that vesicles are recycled after releasing neurotransmitter. Several modes of retrieval have been proposed to operate at small synaptic terminals of central neurons, but the relative importance of these has been controversial. It is established that synaptic vesicles can collapse on fusion and the machinery for retrieving this membrane by clathrin-mediated endocytosis (CME) is enriched in the presynaptic terminal. But it has also been suggested that the majority of vesicles released by physiological stimulation are recycled by a second, faster mechanism called 'kiss-and-run', which operates in 1 s or less to retrieve a vesicle before it has collapsed. The most recent evidence argues against the occurrence of 'kiss-and-run' in hippocampal synapses. First, an improved fluorescent reporter of exocytosis (sypHy), indicates that only a slow mode of endocytosis  (τ= 15 s)  operates when vesicle fusion is triggered by a single nerve impulse or short burst. Second, this retrieval mechanism is blocked by overexpressing the C-terminal fragment of AP180 or by knockdown of clathrin using RNAi. Third, vesicle fusion is associated with the movement of clathrin and vesicle proteins out of the synapse into the neighbouring axon. These observations indicate that clathrin-mediated endocytosis is the major, if not exclusive, mechanism of retrieval in small hippocampal synapses.     

Arenavirus entry occurs through a cholesterol-dependent, non-caveolar, clathrin-mediated endocytic mechanism

Arenaviruses are important causes of viral hemorrhagic fevers in humans. Arenavirus infection of cells occurs via a pH-dependent endocytic route, but detailed studies of entry pathways have not been done. We investigated the role of cell membrane cholesterol, caveolae, and clathrin coated pits in infection by Lassa virus (LASV), which utilizes alpha-dystroglycan (alpha-DG) as a receptor, and Pichindé virus (PICV), which does not. Depletion of cellular cholesterol by treatment with methyl betacyclodextrin (MbetaCD) or nystatin/progesterone inhibited PICV replication and transfer of packaged marker gene by LASV or PICV pseudotyped retroviral particles. In cells lacking caveolae due to silencing of the caveolin-1 gene, no inhibition of PICV infection or LASV pseudotype transduction was observed. However, PICV infection and LASV and PICV pseudotype transduction was inhibited when an Eps15 dominant negative mutant was used to inhibit clathrin-mediated endocytosis. Altogether, the results indicate that diverse arenaviruses have a common requirement for cell membrane cholesterol and clathrin mediated endocytosis in establishing infection.     

Detection and characterization of individual endocytosis of AMPA‐type glutamate receptor around postsynaptic membrane

Synaptic plasticity such as long‐term depression (LTD) has been regarded as a cellular mechanism of learning and memory. LTD is expressed by the decrease in number of postsynaptic AMPA‐type receptor (AMPAR) at glutamatergic synapses. Although endocytosis is known to play an essential role in the decrease in AMPAR on postsynaptic membrane, the difficulty to detect individual endocytic events hampered clarification of AMPAR dynamics around synapses. Previously, we developed a method to induce formation of postsynaptic‐like membrane (PSLM) on the glass surface and observed pHluorin‐tagged AMPAR around PSLM with total internal reflection fluorescence microscopy. By this method, individual exocytosis of AMPAR‐pHluorin was recorded in both PSLM and non‐PSLM. In other studies, endocytic vesicles containing pHluorin‐tagged receptors were visualized by changing extracellular pH. Here, we have combined PSLM formation method and rapid pH change method, and detected individual endocytic events of AMPAR around PSLM with high spatial and temporal resolutions. Endocytic events of AMPAR were characterized by comparison with those of transferrin receptor. Constitutive endocytosis of AMPAR was not dependent on clathrin and dynamin in contrast to that of transferrin receptor. However, AMPAR endocytosis triggered by LTD‐inducing stimulation was clathrin‐ and dynamin‐dependent.     

Alteration of virus entry mode: a neutralisation mechanism for Dengue-2 virus

Polyclonal antibodies derived from dengue virus immune sera and 3H5 monoclonal antibody showed potent neutralisation effect on dengue-2 virus in the plaque reduction neutralisation assay. This study demonstrated that antibodies present in immune human sera and 3H5 monoclonal antibody neutralised dengue-2 virus by altering the virus entry pathway into cells. In the presence of neutralising antibodies, dengue-2 virus was endocytosed by LLC-MK2 cells. The endocytosis process involved ruffling of antibody-coated virions by cellular pseudopodia and invagination of cell membrane. This mode of entry is atypical as compared to direct fusion of dengue-2 virus with cell membrane in the absence of antibody. The virions were internalised in the form of virion-antibody complexes consisting of single or clumps of virions. After 3 minutes of incubation, neutralised virions were detected in cellular vesicles, and signs of intra-endosomal penetration into cytoplasm were not evident even after a prolonged incubation of 10 minutes, suggesting that viral uncoating was compromised. Vesicle-bound virions were no longer detected after 20 minutes of incubation. In addition, no sign of viral replication was detected in cells infected with "neutralised" virions by immunofluorescence assay. This indicated that internalised virions had been degraded leading to abortive infection. In conclusion, antibodies present in 3H5 monoclonal antibody and human immune sera rendered dengue-2 virus non-infective by neutralising the viral fusion site and causing alteration of viral entry mode. Antibodies in immune sera but not 3H5 monoclonal antibody also exerted minimal inhibitory effect on virus binding and internalisation.     

Cellular uptake of avian leukosis virus subgroup B is mediated by clathrin

Avian leukosis virus (ALV) requires endocytosis and a low pH step for successful viral entry. Here we report that transient treatment with lysosomotropic agents was not sufficient to block ALV subgroup B (ALV-B) entry, while it completely inhibited uptake of the pH-dependent Semliki Forest virus. Extended incubations with lysosomotropic agents were required to block ALV-B entry, suggesting that ALV particles are stable in endosomal compartments. We analyzed endocytic pathways involved in the uptake of ALV-B into target cells. The ALV-B receptor TVB(S3) was not associated with detergent-resistant membranes (DRMs) in the presence or absence of ALV-B particles. This result suggested that DRM-associated endocytic pathways were not required for ALV-B entry. Using several approaches, we found that clathrin mediates endocytosis of ALV-B particles into target cells. By means of confocal microscopy, we established that the ALV-B receptor TVB(S3) colocalized with clathrin in TVB(S3)-expressing quail QT-6 cells. In addition, chlorpromazine, an inhibitor of clathrin-mediated endocytosis, blocked uptake of soluble ALV-B Env into chicken embryo fibroblasts. To examine ALV-B uptake into clathrin-negative cells, we used a chicken DT40 B cell line containing a tetracycline-regulatable clathrin gene. Clathrin depletion significantly reduced ALV-B entry into the chicken DT40 cell line. Taken together, our results suggest that clathrin is involved in uptake of ALV-B particles into target cells.     

问号钩端螺旋体侵入单核-巨噬细胞方式及其吞噬泡形成差异性研究

目的 探讨问号钩端螺旋体(简称钩体)侵入人或鼠单核-巨噬细胞方式及其吞噬泡形成差异性.方法 采用透射电镜观察问号钩体黄疸出血群赖型赖株侵入小鼠单核-巨噬样细胞J774A.1和佛波酯(PMA)激活的人单核细胞THP-1后吞噬泡形成情况.采用免疫荧光联合激光共聚焦显微镜及荧光分光光度仪等方法,观察细胞内吞抑制剂单丹磺酰尸胺(MDC)、氧化酚砷(PAO)阻断及内吞相关网格蛋白抗体封闭前后,J774A.1细胞和PMA激活的THP-1细胞内问号钩体赖株数量的变化.结果 J774A.1细胞内问号钩体存在于吞噬泡内,THP-1细胞内问号钩体无吞噬泡膜包绕.MDC和PAO能以剂量依赖方式抑制J774A.1和THP-1细胞内吞问号钩体,其中10 μmol/L以上MDC和1 μmol/L以上PAO阻断的J774A.1和THP-1细胞内问号钩体数量明显少于未阻断细胞(P＜0.05).网格蛋白抗体封闭后,J774A.1和THP-1细胞内问号钩体数量也明显减少(P＜0.05).结论 问号钩体以网格蛋白依赖性内吞途径侵入人或鼠单核-巨噬细胞.人或鼠单核-巨噬细胞内问号钩体吞噬泡形成有明显差异,这可能是人或鼠感染问号钩体后发病情况不同的原因之一.     

The intestine is a site of passage for potato leafroll virus from the gut lumen into the haemocoel in the aphid vector,Myzus persicae Sulz

Summary Four detection techniques, three of which gave reliable identification of the virus particles, were used to locate potato leafroll virus (PLRV) in the alimentary canal of its main aphid vector,Myzus persicae Sulz: immunofluorescence on cryostat sections, conventional transmission electron microscopy on ultrathin sections and immune electron microscopy with gold labeling, either prior to or after fixation-embedding. Each method clearly showed the presence of the virus in the intestine epithelium and its absence in cells of the other parts of the alimentary canal. Under the experimental conditions used, the intestinal cells seemed to be the pathway for PLRV transport from the gut lumen into the haemocoel. Electron microscopy examinations showed many virus particles close to the apical plasmalemma of the epithelial cells in the gut lumen of the intestine. Other particles were seen in shallow pit-like regions or surrounded by coated vesicles in the apical part of these cells. Thus the virus particles seemed to enter the epithelial cells of the intestine by a mechanism of endocytosis. In the cytoplasm of these cells, virions were also frequently observed in isolated — or more often aggregated — tubular vesicles. The latter could be involved in PLRV transport through the cell since they were observed fusing with different cell organelles. A few viral particles were also detected in lysosomes as well as in multivesicular bodies. Virus particles were observed between the plasmalemma and basal lamina of the intestine cells but not in the haemocoel, where probably they were quickly dispersed. Our results are discussed in relation to other reports which have shown hindgut and stomach as sites of passage from the gut lumen into the aphid's body cavity for PLRV and other circulative viruses.     

Immunohistochemical characterization of clathrin assembly protein AP180 and synaptophysin in human brain

Neurons rely on clathrin-mediated endocytosis for retrieving synaptic vesicles (SVs) at the presynaptic compartment after the release of neurotransmitters. The clathrin assembly protein AP180 is shown to be a regulator for this clathrin-dependent SV recycling pathway. AP180 is efficient in facilitating the formation of clathrin-coated vesicles and regulating their size, but its exact location in synapse is not clear. In this study, we compared the expression of AP180 with synaptophysin in the aged human brain using confocal immunofluorescence microscopy. Synaptophysin is well characterized for its association with SVs and therefore a commonly used presynaptic marker. We achieved satisfactory immunofluorescent labeling by using an autofluorescence blocker Sudan Black B and more photostable Alexa Fluor dyes. Although we found that AP180 had an overall expression similar to synaptophysin, the immunoreactivity for the two proteins did not always co-localize.     

Beta very low density lipoprotein and clathrin-coated vesicles co-localize to microvilli in pigeon monocyte-derived macrophages.

Macrophages derived from blood monocytes are key in the development of atherosclerosis, as monocyte migration into the intima and accumulation of cholesterol leads to foam cell formation. To investigate the relationship between lipoprotein binding and the distribution of clathrin-coated endocytic vesicles, monocyte-derived macrophages were exposed in vitro to beta very low density lipoprotein (beta VLDL), conjugated to colloidal gold, and later were processed for immuno-electron microscopy to localize clathrin-coated vesicles. The immunolocalization was done in conjunction with either cryosectioning or whole mount intermediate voltage electron microscopy. Preferential binding of beta VLDL on small membrane ruffles and microvilli was quantitatively verified. Clathrin-coated vesicles were distributed throughout the cell; however, clusters of microvilli were associated with both a high concentration of coated vesicles and lipoprotein. Small membrane ruffles were not associated with clathrin-coated vesicles. These data support our hypothesis that endocytosis of beta VLDL near microvilli involves coated vesicles, whereas endocytosis of beta VLDL near ruffles is not mediated by coated endocytic vesicles. Furthermore, the association of coated vesicles with microvilli but not membrane ruffles may be important in understanding ligand trafficking within the cell. Given the distribution of coated vesicles within the cell, it is possible that the site of lipoprotein binding may determine the mechanism of entry into the cell and the metabolic effects of the internalized ligand.     

Recovery of structurally intact and infectious poliovirus type 1 from HeLa cells during receptor-mediated endocytosis

Poliovirus type 1 enters HeLa cells by receptor-mediated endocytosis as an intact virus. Up to 30 min after adsorption complete virus particles still containing VP4 and sedimenting with 156 S could be recovered from the cells. These virus particles were N-antigenic and infectious. Thirty minutes after adsorption the recovery of intact and infectious virus decreased. This decrease presumably reflects viral uncoating in the acidic endosomes and/or lysosomes because virus particles could be localized in endosomes at this time. The direct involvement of clathrin-coated structures in the endocytosis of poliovirus has been deduced from the enclosure of poliovirus in coated vesicles at 10 min after adsorption. At this time intact and infectious virus could be recovered only after the coated vesicles were disrupted by treatment with 0.5 M Tris at pH 7.0.     

Endocytosis of the C3b receptor of complement within coated pits in human polymorphonuclear leukocytes and monocytes

The distribution and endocytosis of the C3b receptor by human polymorphonuclear leukocytes and monocytes were visualized by both fluorescent and electron microscopic examination of cells that had been labeled with monospecific F(ab')2 anti-C3b receptor and anti-F(ab')2 conjugated with rhodamine or ferritin. When prefixed or unfixed cells that were labeled at 0 to 4 degrees C were examined, the receptor was distributed within clusters on the plasma membrane. After the cells had been warmed to room temperature or to 37 degrees C for 5 minutes, the fluorescently labeled receptors appeared to enter the cells, and the ferritin-tagged receptors often occurred within coated endocytic pits and coated vesicles within the cytoplasm. After incubation at 37 degrees C for 20 minutes, the C3b receptor-antibody complexes were largely cleared from the cell surface, and much of the label was found within lysosomes. These results indicate that C3b receptors may directly mediate endocytosis within coated pits, thus utilizing a mechanism shared by a variety of other receptors for the rapid, efficient, and selective internalization of extracellular ligands.     

Inhibition of poliovirus uncoating by disoxaril (WIN 51711)

Disoxaril [WIN 51711, 5-[7-[4(4,5-dihydro-2-oxazolyl)phenoxy]heptyl]-3- methylisoxazole] inhibits the replication of polioviruses types 1 and 2 in HeLa cells by stabilizing the virus capsid, which results in the inhibition of the pH-dependent viral uncoating in endosomes and/or lysosomes. As shown by electron microscopy the virus entered into the cell by receptor-mediated endocytosis via coated pits and coated vesicles into endosomes irrespective of the presence or absence of the compound. Measurements of viral RNA synthesis showed that disoxaril completely inhibited the arrival of viral RNA in the cytoplasm for new RNA synthesis only when the inocula were preincubated with disoxaril for 15 min at 37 degrees at 0.3 microgram disoxaril/ml for poliovirus type 1 and 0.03 microgram disoxaril/ml for poliovirus type 2. Simultaneous addition of the compound and virus resulted in reduced inhibition of viral RNA synthesis. The inhibitory effect of the compound could be partially reversed up to 25 min p.i. if the compound was eluted from the cells.