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1.
We have used electron microscopic immunocytochemistry to compare the distribution of LAMP-1, a marker for lysosomal membranes, with the intracellular localization of alpha 2-macroglobulin (alpha 2-M) and transferrin at various time points after their endocytosis into cultured NIH 3T3 cells. The purposes of this study were (a) to determine how soon endocytic ligands reach lysosomal organelles, (b) to examine whether the intermediate endocytic vesicles gained lysosomal markers gradually or in a precipitous, discrete event, and (c) to examine the relationship, if any, between the pathway of recycling ligands and lysosomes. At early time points (0-5 min) after initiation of endocytosis, most structures containing alpha 2-M labeled with colloidal gold (receptosomes) were not labeled by anti-LAMP-1 detected using ferritin bridge or peroxidase immunocytochemistry. At late time points (greater than or equal to 15 min), the structures containing alpha 2-M (lysosomes) were strongly labeled by anti-LAMP-1. In contrast, transferrin that was directly labeled with ferritin was mostly located in LAMP-1-negative structures at all time points studied. The proportion of alpha 2-M-gold containing vesicles strongly labeled for LAMP-1 roughly paralleled the proportion of alpha 2-M-gold-containing structures positive for cytochemically detectable acid phosphatase. Our data indicate that ligands such as transferrin that are internalized through coated pits and receptosomes, but not delivered to lysosomes, do not traverse a lysosomal organelle compartment as marked by LAMP-1 content. Ligands such as alpha 2-M that are destined for lysosomal delivery reach a LAMP-1-positive organelle compartment only after they traverse LAMP-1-negative, non-lysosomal vesicles previously described as receptosomes.  相似文献   

2.
Morphological studies have indicated divergent pathways for the endocytosis of epidermal growth factor (EGF) and transferrin (Tf). In order to obtain biochemical evidence for the pathways associated with the endocytosis of EGF and Tf, a series of Percoll density gradients were employed to separate individual cellular components. Subcellular fractionation of murine fibroblasts exposed to a 2-min pulse of either 125I-Tf or 125I-EGF results in the detection of a total of six cellular compartments related to the internalization process of these ligands. The results of kinetic analysis of the entry of EGF into five membranous fractions is consistent with a model in which ligand is transferred sequentially from the plasma membrane through three distinct prelysosomal environments prior to reaching secondary lysosomes. Each prelysosomal compartment exhibits distinct density and temporal properties in a Percoll density gradient and may represent preexisting endocytic vesicles and/or specific domains of a continuous tubular structure, vesicularized during the process of cell disruption. In addition, the observed differential migration on Percoll density gradients of Tf and EGF containing compartments indicates that the majority of cell bound Tf segregates from EGF and enters a compartment lacking EGF within 5 min of internalization.  相似文献   

3.
Several hormones, serum proteins, toxins, and viruses are brought into the cell by receptor-mediated endocytosis. Initially, many of these molecules and particles are internalized into a common endocytic compartment via the clathrin-coated pit pathway. Subsequently, the ligands and receptors are routed to several destinations, including lysosomes, the cytosol, or the plasma membrane. We have examined the mechanism by which sorting of internalized molecules occurs. A key step in the process is the rapid acidification of endocytic vesicles to a pH of 5.0-5.5 This acidification allows dissociation of several ligands from their receptors, the release of iron from transferrin, and the penetration of diphtheria toxin and some viral nucleocapsids into the cytoplasm. Transferrin, a ligand that cycles through the cell with its receptor, has been used as a marker for the recycling receptor pathway. We have found that in Chinese hamster ovary (CHO) cells transferrin is rapidly segregated from other ligands and is routed to a complex of small vesicles and/or tubules near the Golgi apparatus. The pH of the transferrin-containing compartment is approximately 6.4, indicating that it is not in continuity with the more acidic endocytic vesicles which contain ligands destined to be degraded in lysosomes.  相似文献   

4.
LIM kinase (LIMK) plays a critical role in stimulus-induced remodeling of the actin cytoskeleton by linking signals from the Rho family GTPases to changes in cofilin activity. Recent studies have shown an important role for LIMK1 signaling in tumor cell invasion through regulating actin dynamics. In this study, we investigate the role of LIMK1 in intracellular vesicle trafficking of lysosomes/endosomes. We analyzed by confocal immunofluorescence microscopy the cellular distribution of lysosomal proteins and the endocytosis of an endocytic tracer, epidermal growth factor (EGF), in LIMK1-transfected cells. We found in these cells an abnormal dispersed translocation of lysosomes stained for LIMPII and cathepsin D throughout the cytoplasm. The small punctate structures that stained for these lysosomal proteins were redistributed to the periphery of the cell. Computational 3D-image analysis of confocal immunofluorescence micrographs further demonstrated that these vesicles did not colocalize with the transferrin receptor, an early endosomal marker. Furthermore, LIMPII-positive lysosomes did not colocalize with early endosomes labeled with endocytosed Texas red-transferrin. These results indicate that there is no mixing between dispersed lysosomes and early endosomes in the LIMK1-transfected cells. Moreover, LIMK1 overexpression resulted in a marked retardation in the receptor-mediated internalization of Texas red-labeled EGF in comparison with mock-transfected cells. At 30 min after internalization, most of the Texas red-EGF staining overlapped with LIMPII-positive late endosomes/lysosomes in mock-transfected cells, whereas in LIMK1 transfectants only a small fraction of internalized EGF colocalized with LIMPII-positive structures in the perinuclear region. Taken together, the findings presented in this paper suggest that LIMK1 has a role in regulating vesicle trafficking of lysosomes and endosomes in invasive tumor cells.  相似文献   

5.
Dynamics of compartmentalization of epidermal growth factor (EGF) in human carcinoma A431 cells during the first hour after initiation of endocytosis was examined by methods of the organelle fractionation on a 20% Percoll gradient and of the microfluorimetric visualization of endocytosis of rhodamine-labeled EGF (EGF-R). EGF was revealed in small vesicles localized in the peripheral region of cytoplasm in a few minutes after endocytosis initiation. During centrifugation in Percoll these vesicles (endosomes), with an average density of 1.038 g/ml, were seen co-sedimented with Golgi membranes. By one hour after initiation of endocytosis, EGF-R was accumulated in perinuclear zone, in a trans-Golgi region, as numerous big luminous centres that were apparently MB-endosomes and had the same density in Percoll as did small peripheral endosomes. Such centres appeared in several cells already within 5-10 minutes. In A431 cells EGF did not reach lysosomes within 60 minutes, because no accumulation of 125I-EGF was shown in lysosome corresponding regions of Percoll gradient (average density 1.070 g/ml).  相似文献   

6.
Recent work from several laboratories has suggested the participation of intermediate structures in the delivery of adsorbed ligands from the plasma membrane to lysosomes. This report presents subcellular fractionation studies bearing on the role of these structures in adsorptive pinocytosis of epidermal growth factor (EGF), beta-hexosaminidase, and low density lipoprotein (LDL) by human fibroblasts. Using a two-step Percoll density gradient fractionation, we identified newly internalized (5 min) EGF in two intermediate density structures that are essentially negative for plasma membrane marker, and more bouyant than secondary lysosomes. Continued incubation for 20 min resulted in transfer to (or conversion to) vesicles sedimenting with secondary lysosomes. Internalized beta-hexosaminidase and LDL behaved similarly, appearing first in structures of intermediate density, and later appearing in association with secondary lysosomes. Two drugs, NH4Cl and monensin, were found to inhibit ligand transfer to the secondary lysosome peak, although they did not inhibit entry of bound ligands into intermediate density structures. Upon removal of both inhibitors, internalized ligands were quickly transferred to the secondary lysosome peak. This "transfer process" was faster for EGF, than for the other two ligands studied. We interpret these data to indicate that the endocytosis of these three ligands, and their delivery to lysosomes in fibroblasts, proceeds through a common pathway, involving intermediate nonlysosomal structures.  相似文献   

7.
The endocytosis and intracellular fate of epidermal growth factor (EGF) were studied in A431 cells. After 15-20 min of internalization at 37 degrees C, rhodamine-labeled EGF (EGF-Rh) accumulated into large juxtanuclear compartment consisting of closely related vesicles. This structure was shown to be localized in the para-Golgi region. Fluorescein-labeled transferrin (Tr-FITC) was observed in the same region when added to the cells simultaneously with EGF-Rh. Using microscope spectrofluorometer, we determined that the Tr-FITC-containing para-Golgi structures have a pH of 6.1 +/- 0.3 while lysosomes containing dextran-fluorescein have a pH of 5.0 +/- 0.2. To study the dynamics of EGF-receptor dissociation during endocytosis a mild detergent treatment of living cells was used for extraction of an intracellular receptor-unbound EGF. During the first hour of internalization at 37 degrees C, neither significant dissociation of EGF-receptor complexes nor EGF degradation was observed. After 3 h of endocytosis, the percentage of unbound EGF increased to 55% of the total internalized EGF. These results suggest that EGF remains associated with receptors during endocytosis in A431 cells until it is transferred to lysosomes where the pH of the EGF microenvironment is dropped to 5. A prolonged presence of EGF-receptor complexes in the para-Golgi region might be of importance in mitotic signaling.  相似文献   

8.
Constitutive secretory vesicles carrying heparan sulfate proteoglycan (HSPG) were identified in isolated rat hepatocytes by pulse-chase experiments with [35S]sulfate and purified by velocity-controlled sucrose gradient centrifugation followed by equilibrium density centrifugation in Nycodenz. Using this procedure, the vesicles were separated from plasma membranes, Golgi, trans-Golgi network (TGN), ER, endosomes, lysosomes, transcytotic vesicles, and mitochondria. The diameter of these vesicles was approximately 100-200 nm as determined by electron microscopy. A typical coat structure as described for intra- Golgi transport vesicles or clathrin-coated vesicles could not be seen, and the vesicles were not associated with the coat protein beta-COP. Furthermore, the vesicles appear to represent a low density compartment (1.05-1.06 g/ml). Other constitutively secreted proteins (rat serum albumin, apolipoprotein E, and fibrinogen) could not be detected in purified HSPG-carrying vesicles, but banded in the denser fractions of the Nycodenz gradient. Moreover, during pulse-chase labeling with [35S]methionine, labeled albumin did not appear in the post-TGN vesicle fraction carrying HSPGs. These findings indicate sorting of HSPGs and albumin into different types of constitutive secretory vesicles in hepatocytes. Two proteins were found to be tightly associated with the membranes of the HSPG carrying vesicles: a member of the ADP ribosylation factor family of small guanine nucleotide-binding proteins and an unknown 14-kD peripheral membrane protein (VAPP14). Concerning the secretory pathway, we conclude from these results that ADP ribosylation factor proteins are not only involved in vesicular transport from the ER via the Golgi to the TGN, but also in vesicular transport from the TGN to the plasma membrane.  相似文献   

9.
Endosomal density shift is related to a decrease in fusion capacity.   总被引:2,自引:0,他引:2  
Dinitrophenol (DNP)-beta-glucuronidase and mannosylated anti-DNP IgG, which are endocytosed by the mannose receptor and delivered to lysosomes, were previously developed as probes for examination of fusion between early endosomes in a cell-free system. In this study, these probes were found to be transported by intact cells to endocytic vesicles with heavy buoyant density at different rates, as determined by Percoll gradient fractionation of cell homogenates. There was a concomitant loss of in vitro fusion activity as the ligands moved to dense compartments. In monensin-treated cells, DNP-beta-glucuronidase was retained in a light compartment corresponding to intracellular vesicles capable of fusion in vitro. Pulse-chase studies using a DNP-derivatized transferrin-alkaline phosphatase conjugate showed that a recycling ligand was always found in light intracellular vesicles that were capable of fusion to early endosomes in vitro. In contrast to cell-free systems, intact cells sequentially labeled with DNP-beta-glucuronidase and then mannosylated anti-DNP IgG showed ligand mixing in both early and late endocytic compartments. Treatment with nocodazole or colchicine did not affect the rate of DNP-beta-glucuronidase transport to heavy vesicles in intact cells, however, the extent of ligand mixing in late endosomes was decreased by microtubule disruption. Using sequentially labeled cells split into two groups, we directly compared ligand mixing in vitro to mixing by intact cells. Fusion alone does not mediate increases in vesicle density, since DNP-beta-glucuronidase/anti-DNP IgG complexes formed in vitro were found in light vesicles, while intact cells showed immune complexes predominantly in heavy vesicles. These results suggest that the density shift is an initial step in targeting to lysosomes.  相似文献   

10.
Summary Epithelial cells from mouse seminal vesicles were enzymatically dissociated enriched by gradient centrifugation, and maintained in collagen gel cultures with defined (serum-free) media. The epithelial origin of the cells was determined morhologically, immunocytochemically, and biochemically. Cells formed three-dimensional colonies with a lumen in collagen gels. Cell number was increased eight-fold within a 8 to 12-d culture period in a medium supplemented with epidermal growth factor (EGF) (10 ng/ml), insulin (10 μg/ml), transferrin (10 μg/ml), cholera toxin (10 ng/ml), and hydrocortisone (0.1 μg/ml). The cells required eGF and insulin; the growth-promoting effects of these two peptide hormones were optimized by transferrin, cholera toxin, and hydrocortisone. Fetal bovine serum did not support growth; rather, it suppressed the stimulated growth observed in serum-free media. A time-course study revealed that a lag period preceded rapi growth. The collagen gel, serum-free culture provides a powerful tool to study the effects of hormones on proliferation and differentiation of androgen sensitive cells.  相似文献   

11.
Neutral red (2-methyl-3-amino-7-dimethylamino-phenazine) is taken up by cultured fibroblasts through a non-saturable process and its concentration in the cells reaches several hundred times that in the medium. The dye stains consistently discrete cytoplasmic granules; their size appears related to the level of cellular accumulation of neutral red. By isopycnic centrifugation of cytoplasmic extracts in sucrose gradients, we could clearly evidence an association of neutral red with (1) the lysosomal enzymes cathepsin D and N-acetyl-β-glucosaminidase; it is thought that neutral red accumulates in lysosomes by proton trapping; (2) cell constituents equilibrating at a median density of 1.15 g/cm3; this second compartment, with a concentration power as large as lysosomes, becomes apparent only when neutral red is more than 25 μM in the culture fluid; it serves as a temporary storage site, and the dye is thereafter transferred to lysosomes. We suggest this second compartment to be the Krinom vesicles, i.e. large autophagic vacuoles induced by and containing neutral red. Finally, a small amount of intracellular neutral red could be associated with either secretory or endocytic vesicles.  相似文献   

12.
Several ligands undergo endocytosis into the Golgi apparatus. We have examined with a quantitative ultrastructural, autoradiographic method the sequential endocytosis of tritiated wheat germ agglutinin (3H-WGA) by cultured murine neuroblastoma cells. Cells were incubated with 3H-WGA for 1 hour at 4 degrees C, washed, and incubated in complete medium without ligand at 37 degrees C for 5, 15, 30, and 120 minutes. At 5 minutes, the optimized sources/micron 2 of neuroblastoma cell area, which represented the grain density of each compartment, were as follows: smooth vesicles and tubules, 1.03 +/- 0.88; Golgi-associated vesicles, i.e., clusters of vesicles within a 1 micron radius of the Golgi cisterns, 1.03 +/- 0.31; Golgi cisterns, less than 0.01; and lysosomes, 0.26 +/- 0.16. At 15 minutes grain densities were: smooth vesicles and tubules, 0.9 +/- 0.34; Golgi-associated vesicles, 1.41 +/- 0.28; Golgi cisterns, 0.73 +/- 0.41; and lysosomes, 0.1 +/- 0.09. At 30 minutes grain densities were: smooth vesicles and tubules, 0.46 +/- 0.46; Golgi-associated vesicles, 1.78 +/- 0.34; Golgi cisterns, 0.89 +/- 0.78; and lysosomes, 0.39 +/- 0.14. At 2 hours, smooth vesicles, tubules, and Golgi cisterns were not labeled, Golgi-associated vesicles were still labeled (0.71 +/- 0.1), and lysosomes were heavily labeled (2.17 +/- 0.22). These results are consistent with the hypotheses that either the Golgi complex (cisterns and associated vesicles) is an early and intermediate step of the endocytosis of 3H-WGA into lysosomes or that it constitutes part of a separate and quantitatively significant pathway of endocytosis of this ligand.  相似文献   

13.
To study the intracellular sorting of internalized ligands and receptors, we examined the pathways of two ligands: transferrin, which is recycled, and alpha 2-macroglobulin (alpha 2M), which is degraded. In CHO cells the two ligands rapidly segregate into different intracellular compartments. Within 5 min fluorescein-labeled transferrin (F-Tf) is found in a large round juxtanuclear structure. Rhodamine-labeled alpha 2M is found in a punctate pattern. Ultra-structural localization studies demonstrate that colloidal gold-alpha 2M is found predominantly in endocytic vesicles, while ferritin-transferrin is found in small vesicles and tubular structures in a region adjacent to the Golgi complex. Using image intensified fluorescence microscopy and digital image analysis, we determined that the F-Tf containing structure has a pH of 6.4 +/- 0.2, while endocytic vesicles containing F-alpha 2M have a pH of 5.4 +/- 0.1. Our study defines a mildly acidic compartment, distinct from endocytic vesicles, that is involved in the recycling of internalized components back to the cell surface.  相似文献   

14.
Low density lipoprotein (LDL) and epidermal growth factor (EGF) bind to receptors on the surface of human fibroblasts and are internalized in coated vesicles. Each of the ligands has been studied separately by electron microscopy in human fibroblasts using ferritin-LDL as one visual probe and 125I-EGF as a second visual probe. A mutant strain of human fibroblasts (J.D.) has been described in which LDL does not localize to coated pits and hence is not internalized. Because LDL and EGF do not compete with each other for binding, in the current studies we coincubated the two ligands with normal and mutant cells to visualize their cellular fates. In normal fibroblasts ferritin-LDL and 125I-EGF both bound preferentially to coated pits at 4 degrees C and both ligands were internalized into endocytotic vesicles and lysosomes. Quantitative studies in normal cells showed that 75% of the coated pits and vesicles that contained 125I-EGF also contained ferritin-LDL, indicating that both ligands enter the cell through the same endocytotic vesicles. In the LDL internalization-mutant J.D. cells, ferritin-LDL did not localize in coated pits and was not internalized, but 125I-EGF bound to coated pits and was internalized just as in normal fibroblasts.  相似文献   

15.
Cancer cells invade by secreting degradative enzymes which, under normal conditions, are sequestered in lysosomal vesicles. The ability to noninvasively label lysosomes and track lysosomal trafficking would be extremely useful to understand the mechanisms by which degradative enzymes are secreted in the presence of pathophysiological environments, such as hypoxia and acidic extracellular pH, which are frequently encountered in solid tumors. In this study, a novel method of introducing a fluorescent label into lysosomes of human mammary epithelial cells (HMECs) was evaluated. Highly glycosylated lysosomal membrane proteins were labeled with a newly synthesized compound, 5-dimethylamino-naphthalene-1-sulfonic acid 5-amino-3,4,6-trihydroxy-tetrahydro-pyran-2-ylmethyl ester (6-O-dansyl-GlcNH2). The ability to optically image lysosomes using this new probe was validated by determining the colocalization of the fluorescence from the dansyl group with immunofluorescent staining of two well-established lysosomal marker proteins, LAMP-1 and LAMP-2. The location of the dansyl group in lysosomes was also verified by using an anti-dansyl antibody in Western blots of lysosomes isolated using isopycnic density gradient centrifugation. This novel method of labeling lysosomes biosynthetically was used to image lysosomes in living HMECs perfused in a microscopy-compatible cell perfusion system.  相似文献   

16.
《The Journal of cell biology》1989,109(6):3303-3314
To study the fusion and separation of endocytic compartments, we have used digital image analysis to quantify the accumulation of fluorescent ligands in endosomes during continuous endocytosis for periods of 1-20 min. Fluorescently labeled transferrin (Tf) and low density lipoproteins (LDL) were used as markers of recycling receptors and lysosomally directed ligands respectively. By measuring the intensity of individual endosomes, we found that the amount of LDL per endosome increases 30-40-fold between 1 and 10 min and then plateaus. In contrast, the amount of Tf per endosome reaches a steady state within 2 min at a level that is only three to four times that at 1 min. We used pulse-chase double label methods to demonstrate that Tf cycles through the compartment in which the LDL accumulates. When both Tf and LDL are added to cells simultaneously for 2 min, nearly all endosomes contain both labels. With 2-4 min further incubation in the absence of external ligands, LDL-containing compartments become depleted of Tf as Tf is directed to para-Golgi recycling endosomes. However, if Tf is added to the medium 2-4 min after a pulse with LDL, most of the LDL-containing endosomes become labeled with Tf. The data indicate that at least 30-40 endocytic vesicles containing both Tf and LDL fuse with an endosomal compartment over a period of 5-10 min. LDL accumulates within this compartment and Tf is simultaneously removed. Simple mathematical models suggest that this type of iterative fractionation can lead to very high efficiency sorting.  相似文献   

17.
Summary The uptake and pathway of different markers and ligands for fluid-phase, adsorptive and receptor mediated endocytosis were analyzed in the epithelial cells lining the rete testis after their infusion into the lumen of these anastomotic channels. At 2 min after injection, diferric transferrin bound to colloidal gold was seen attached to the apical plasma membrane and to the membrane of endocytic coated and uncoated pits and vesicles. The injection of transferrin-gold in the presence of a 100-fold excess of unconjugated diferric transferrin revealed no binding or internalization of transferrin-gold. Similarly, apotransferrin-gold was neither bound to the apical plasma membrane nor internalized by these cells. These results thus indicate the presence of specific binding sites for diferric transferrin. At 5 min, internalized diferric transferrin-gold reached endosomes. At 15 and 30 min, the endosomes were still labeled but at these time intervals the transferrin-gold also appeared in tubular elements connected to or associated with these bodies or seen in close proximity to the apical plasma membrane. At 60 and 90 min, most of the transferrin-gold was no longer present in these organelles and was seen only exceptionally in secondary lysosomes. These results thus suggest that the tubular elements may be involved in the recycling of transferrin back to the lumen of the rete testis. The coinjection of transferrin-gold and the fluid-phase marker native ferritin revealed that both proteins were often internalized in the same endocytic pit and vesicle and shared the same endosome. However, unlike transferrin, native ferritin at the late time intervals appeared in dense multivesicular bodies and secondary lysosomes. When the adsorptive marker cationic ferritin and the fluid-phase marker albumin-gold were coinjected, again both proteins often shared the same endocytic pit and vesicle, endosome, pale and dense multivesicular body and secondary lysosomes. However, several endocytic vesicles labeled only with cationic ferritin appeared to bypass the endosomal and lysosomal compartments and to reach the lateral intercellular space and areas of the basement membrane. The rete epithelial cells, therefore, appear to be internalizing proteins and ligands by receptor-mediated and non-specific endocytosis which, after having shared the same endocytic vesicle and endosome, appear to be capable of being segregated and routed to different destinations.  相似文献   

18.
Selective enrichment of clathrin-coated membranes by anticlathrin immunoadsorption was used to examine the internalization of receptor-ligand complexes through coated pits. Using Staphylococcus aureus-anticlathrin antibody and [35S]methionine-labeled KB cells, the kinetics of association of the epidermal growth factor (EGF-R) and transferrin receptors (TF-R) with coated membranes were directly examined. The accumulation of EGF-R in coated pits at the cell surface was dependent upon EGF binding. EGF-R then passed sequentially through a compartment which did not react with anticlathrin antibody and a second clathrin-coated compartment. The EGF-R was degraded in lysosomes with a half-life of approximately 41-55 min. The tumor promoter, 4 beta-phorbol 12-myristate 13-acetate, appears to mimic the action of EGF in inducing EGF-R accumulation in coated pits at the cell surface and receptor internalization. In contrast to the results with EGF-R, the TF-R was found in clathrin-coated membranes in the presence or absence of TF, and the concentration of TF-R in clathrin-coated membranes did not significantly change with time. The method presented should be of great utility for examining the biochemical changes that occur during the receptor-mediated endocytosis and sorting of ligands and receptors.  相似文献   

19.
Inhibition of endocytosis from coated pits by acidification of the cytosol   总被引:8,自引:0,他引:8  
Binding and endocytosis of the ligands transferrin, epidermal growth factor (EGF), and ricin were measured in a number of different cell lines after treatment of cells with compounds that react with SH-groups and under conditions where the cytosolic pH was lowered. N-ethylmalemide and diamide irreversibly inhibited endocytosis of all ligands tested, whereas low pH in the cytosol strongly inhibited endocytosis of transferrin and EGF. Data obtained by electron microscopy indicated that the formation of coated vesicles from coated pits is inhibited in acidified cells. Entry of ricin was much less affected, and ricin endocytosed under these conditions was able to intoxicate the cells. At low pH in the cytosol there was a calcium-dependent increase in the number of transferrin receptors at the cell surface. The increase was even larger in the presence of the calcium ionophore A23187, whereas it was completely blocked by the calmodulin antagonists trifluoperazine and W7. The results show that endocytosis from coated pits can be inhibited in a reversible way by acidification of the cytosol and they suggest that a second pathway of endocytosis exists, possibly involving formation of vesicles from uncoated areas of the membrane.  相似文献   

20.
We have investigated receptor-mediated endocytosis of transferrin (Tf) in baby hamster kidney (BHK) cells, using fluorescence and electron microscopy, and by carrying out colocalization experiments with clathrin antibodies and a fluorescently tagged glycolipid. Early during internalization, Tf was found in small vesicles (100-150 nm in diameter) located at the cell periphery. The ligand remained associated with such vesicles when the latter concentrated towards the cell center, before ending up in the juxtanuclear area. Throughout this vesicular trafficking pathway, clathrin colocalized with Tf. We conclude that Tf is processed intracellularly via small coated endosomal vesicles (CEV) and is not delivered into large tubular endosomes (CURL; compartment for uncoupling receptors and ligands), typical for ligand trafficking to lysosomes. By determining the kinetics of Tf internalization and by comparing the flow of Tf to that of a fluorescent glycolipid, it can also be concluded that CEVs display sorting and recycling properties, implying that small vesicles can be shed from or fuse with CEVs. Acidic pH does not prevent the formation of CEVs, but their intracellular movement, towards the cell center, is impeded.  相似文献   

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