Microinjection of anticlathrin antibodies into fibroblasts does not interfere with the receptor-mediated endocytosis of alpha2-macroglobulin

Affinity-purified antibodies prepared against the major coat protein of brain coated vesicles, clathrin, were microinjected into cultured fibroblasts, and their intracellular distribution was followed by immunofluorescence microscopy and ultrastructural immunocytochemistry. Microinjected anticlathrin antibodies were concentrated on coated regions of the plasma membrane and the GERL apparatus. When an excess of anticlathrin antibodies was injected into the cytosol, coated pits on the plasma membrane were covered by anticlathrin antibody but still functioned to cluster an internalize alpha2-macroglobulin. These results are discussed in terms of the role of clathrin in the pathway of receptor-mediated endocytosis. Our data indicate that in cultured fibroblasts coated pits are stable elements permanently attached to the plasma membrane.     

Receptor-mediated endocytosis of alpha 2-macroglobulin in cultured fibroblasts

Alpha 2-macroglobulin is internalized into cultured fibroblasts by receptor-mediated endocytosis. This ligand binds initially to diffusely distributed receptors on the cell surface which cluster rapidly into bristle-coated pits. Within a few minutes at 37 degrees C, these complexes are internalized into uncoated cytoplasmic vesicles, called receptosomes, which move about in the cell by saltatory motion. These vesicles interact with the Golgi-endoplasmic reticulum-lysosome system in the cell to deliver the ligand to newly formed lysosomes within 30--60 min.     

Receptor-mediated endocytosis of alpha 2-macroglobulin in living intact 3T3 cells

Internalization process of the fluoresceinisothiocyanate-labeled alpha 2-macroglobulin (MG-F) in Swiss 3T3 cells has been studied. The presence of internalized MG-F, formation of endocytotic vesicles and endosomal pH value were estimated visually on living monolayer cells with TV microscope, on the base of supervidicon LI-702. The use of the TV method allowed to obtain a series of photographs of cell images without any significant dye fading. A brief characteristics of microprocess control system is presented. The influence of various chemical agents on MG-F internalization and endosomal pH value was investigated. It was shown that dansylcadaverine (150-200 microM) and monensin (10-20 microM) inhibited MG-F internalization. Methylamine, chloroquine and monensin quickly enhanced the endosomal pH value, while other amines did not, for example dansylcadaverine.     

Receptor-mediated endocytosis of alpha 2-macroglobulin and transferrin in rat caput epididymal epithelial cells in vitro

The endocytic activity of epithelial cells from the rat epididymis in vitro has been examined by following the uptake of tracer compounds conjugated to proteins. Transferrin-gold and alpha 2-macroglobulin-gold were taken up initially in coated pits, internalized and sequestered into tubular-vesicular structures, multivesicular bodies and, in the case of alpha 2-macroglobulin, into lysosomes. Uptake could be prevented by an excess of unlabeled protein. Studies using 125I-alpha 2-macroglobulin and 125I-transferrin also showed that the uptake of these proteins was specific and could be displaced with increasing amounts of unlabeled protein. In addition, binding of 125I-transferrin to cells was saturable at 4 degrees C. These studies indicate that transferrin and alpha 2-macroglobulin are taken up by receptor-mediated endocytosis. In contrast, a fluid phase marker, bovine serum albumin-gold (BSA-gold), was initially taken up predominantly in uncoated caveolae rather than coated pits, and could not be displaced with excess BSA. By virtue of their charge, polycationized ferritin and unlabeled colloidal gold were taken up and internalized by adsorptive endocytosis, a pathway which is similar to fluid phase endocytosis. The uptake and internalization of alpha 2-macroglobulin and transferrin differed in a number of respects. Uptake and internalization of alpha 2-macroglobulin but not of transferrin was dependent on extracellular calcium. Only alpha 2-macroglobulin was transferred into lysosomes, whereas transferrin was recycled to the cell surface. Although the proton ionophore, monensin, and the transglutaminase inhibitor, dansylcadaverine, did not stop uptake and internalization of either alpha 2-macroglobulin or transferrin, they did prevent the transfer of alpha 2-macroglobulin to lysosomes.     

Intracellular transport of transferrin- and asialoorosomucoid-colloidal gold conjugates to lysosomes after receptor-mediated endocytosis

Proteins coupled to colloidal gold particles have been widely used to visualize the uptake and intracellular transport of specific ligands by receptor-mediated endocytosis. The intracellular route of lysosome-directed ligands such as asialoglycoproteins (ASGP) are apparently unaltered by conjugation to gold, but the pathway of transferrin, a ligand that normally recycles to the cell surface, was reported to be altered by conjugation to 15-20 nm gold. In this study, we sought to determine whether a smaller transferrin-gold probe would recycle, and whether it might enter the same endosomal and lysosomal compartments as does a larger, lysosome-directed ASGP gold probe by visualizing their simultaneous uptake in human hepatoma (HepG2) cells. In the same cells, endocytosis of fluid-phase protein was followed using the soluble tracer native ferritin; lysosomal compartments were identified by acid phosphatase cytochemistry; and cell surfaces were labeled with ruthenium red or cationized ferritin. During the first 10 min of uptake at 37 degrees C, specific receptor-bound ferrotransferrin (FeTf)-8 nm gold and asialoorosomucoid (ASOR)-20 nm gold were clustered together in coated pits and entered the same coated vesicles, smooth vesicles, and tubules in the peripheral cytoplasm. At later times, however, transferrin-gold did not return to the cell surface; unlike native transferrin, this gold probe accompanied ASOR-gold into multivesicular bodies (MVB). The MVBs that contained probes were at first devoid of acid phosphatase activity, but at 30 min, enzyme activity was detected in a few MVBs. Native ferritin was present, along with gold probes, in all compartments of the endocytic pathway. We conclude that the normal intracellular pathway of transferrin is altered by its association with a colloidal gold particle.     

Kinetics of alpha 2-macroglobulin endocytosis and degradation in mutant and wild-type Chinese hamster ovary cells

The production of Chinese hamster ovary (CHO) cell mutants which are defective in endocytosis has led to a greater understanding of the process by which cells sort ligands and their receptors. Robbins and coworkers have obtained CHO mutants which are resistant to diphtheria toxin, defective in the delivery of endocytosed lysosomal enzymes to lysosomes, and have a decreased uptake of iron from transferrin (Robbins et al.: J. Cell Biol. 96:1064-1071, 1983). We have previously shown that these CHO mutants are markedly deficient in the acidification of early endocytic compartments (Yamashiro and Maxfield: J. Cell Biol. 105:2713-2721, 1987). In this study we examined the endocytosis of alpha 2-macroglobulin (alpha 2M) to determine whether the defects in early endosome acidification would alter the processing of this ligand. We found that the CHO mutants DTG 1-5-4 and DTF 1-5-1 bind, internalize, and degrade 125I-alpha 2M in a manner similar to the wild-type cells. We also found that the CHO mutants retain the ability to recycle the receptors for alpha 2M. Since the binding of alpha 2M is greatly reduced at mildly acidic pH (approximately 6.8), only slight acidification of the endosomal compartment should be sufficient to achieve sorting of alpha 2M from its receptor. In contrast, lysosomal enzymes require more acidic conditions (pH less than 6.0) for dissociation. The different behavior of the two ligands provides biochemical evidence for a partial (but not complete) defect in early endosome acidification in the mutants. The data also indicate that pH regulation in a relatively narrow range can achieve differential sorting of various ligands.     

Purification and characterization of a "half-molecule" alpha 2-macroglobulin from the southern grass frog: absence of binding to the mammalian alpha 2-macroglobulin receptor

An alpha-macroglobulin (alpha 2M), which is a dimer consisting of two non-disulfide-bonded subunits, was identified and purified from frog plasma by Ni2+ chelate affinity chromatography. This frog "half-molecule" alpha-macroglobulin migrated as an alpha 2-globulin in cellulose-acetate electrophoresis rather than as the previously described frog alpha 1M, which exists as a tetramer formed by the noncovalent association of disulfide-bonded pairs. A molecular weight of approximately 380 000 was obtained by gel-filtration high-pressure liquid chromatography, and in sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) the protein migrated as a single band of Mr approximately 180 000 before and after reduction. No evidence was obtained for association of this protein to a higher molecular weight species. After the preparation was heated, additional bands were obtained in SDS-PAGE with Mr approximately 60 000 and 12 000. The additional bands were not obtained after heating methylamine-treated preparations. The circular dichroic spectrum of frog alpha 2M exhibits negative ellipticity over the region 205-250 nm with a minimum at 216 nm. After reaction with proteinase, a decrease in the absolute mean residue rotation was obtained. Amino acid analysis demonstrated that frog alpha 2M and alpha 1M are similar in composition to avian and mammalian alpha-macroglobulins; however, there are sufficient differences in the composition of these two amphibian alpha-macroglobulins to support the conclusion that they are distinct proteins. Frog alpha 2M bound approximately 0.5 mol of trypsin/mol of inhibitor. This binding was abolished by pretreatment with methylamine.(ABSTRACT TRUNCATED AT 250 WORDS)     

Liposomes containing colloidal gold are a useful probe of liposome-cell interactions

A method is described for the preparation of liposomes containing colloidal gold as an electron-dense marker to trace liposome-cell interactions. Since gold sols would precipitate at the high concentrations necessary for loading a large proportion of liposomes, gold sols were formed within preformed liposomes which had encapsulated gold chloride. The optimal conditions for encapsulating the marker were ascertained for liposomes prepared by the method of reverse-phase evaporation. Gold sols formed rapidly at ambient temperature and without organic solvent, and produced homogeneous populations of gold granules inside liposomes. Most vesicles contained the marker, allowing us to determine unambiguously the intracellular fate of liposomes and their contents. The in vitro experiments showed that gold-liposomes were internalized by African green monkey kidney cells in a manner similar to receptor-mediated endocytosis of well-characterized ligands. Preliminary in vivo studies also indicated that liposomes were endocytosed by Kupffer cells via the coated vesicle pathway.     

Characterization of thrombin binding to alpha 2-macroglobulin

The formation and structural characteristics of the human alpha 2-macroglobulin (alpha 2M)-thrombin complex were studied by intrinsic protein fluorescence, sulfhydryl group titration, electrophoresis in denaturing and nondenaturing polyacrylamide gel systems, and in macromolecular inhibitor assays. The interaction between alpha 2M and thrombin was also assessed by comparison of sodium dodecyl sulfate-gel electrophoretic patterns of peptides produced by Staphylococcus aureus V-8 proteinase digests of denatured alpha 2M-125I-thrombin and alpha 2M-125I-trypsin complexes. In experiments measuring fluorescence changes and sulfhydryl group exposure caused by methylamine, we found that thrombin produced its maximum effects at a mole ratio of approximately 1.3:1 (thrombin:alpha 2M). Measurements of the ability of alpha 2M to bind trypsin after prior reaction with thrombin indicated that thrombin binds rapidly at one site on alpha 2M, but occupies the second site with some difficulty. Intrinsic fluorescence studies of trypsin binding to alpha 2M at pH 5.0, 6.5, and 8.0 not only revealed striking differences in trypsin's behavior over this pH range, but also some similarities between the behavior of thrombin and trypsin not heretofore recognized. Structural studies, using sodium dodecyl sulfate-polyacrylamide gel electrophoresis to measure alpha 2M-125I-thrombin covalent complex formation, indicated that covalency reached a maximum at a mole ratio of approximately 1.5:1. At this ratio, only 1 mol of thrombin is bound covalently per mol of alpha 2M. These gel studies and those of proteolytic digests of denatured alpha 2M-125I-trypsin and alpha 2M-125I-thrombin complexes suggest that proteinases form covalent bonds with uncleaved alpha 2M subunits. The sum of our results is consistent with a mechanism of proteinase binding to alpha 2M in which the affinity of the proteinase for alpha 2M during an initial reversible interaction determines its binding ratio to the inhibitor.     

Computer averaging of single molecules of alpha 2-macroglobulin and the alpha 2-macroglobulin/trypsin complex

From electron micrographs single molecules of alpha 2-macroglobulin in the "closed" form, the "open" form and as the trypsin complex have been computer averaged. The molecular images are discussed. Molecules of the electrophoretically fast migrating "F-form" have the "closed" form. In the case of the alpha 2-macroglobulin/trypsin complex the two attached trypsin molecules are located very near to each other and in the central part of the alpha 2-macroglobulin molecule.     

Receptor-mediated endocytosis of immunoglobulin-coated colloidal gold particles in cultured mouse peritoneal macrophages

Endocytosis of immunoglobulin G (IgG)-coated colloidal gold particles in cultured mouse peritoneal macrophages was studied by scanning and transmission electron microscopy. At 4 degrees C, the tracers adhered to the plasma membrane and accumulated in coated pits located in the bottom of furrows or deep invaginations on the cell surface. In the presence of an excess of unlabeled mouse IgG, cellular binding of the tracer was reduced by 80 to 90%. After warming to 37 degrees C, surface-bound tracer particles were rapidly ingested and transported to small and large vesicles lacking membrane coat. From here, they were then passed over to multivesicular bodies and lysosomes characterized by their content of myelin-like figures and other inclusions. Double-labeling experiments with IgG-coated colloidal gold particles of two different sizes (20 and 5 nm diameter) indicated that the plasma membrane was depleted of binding sites after uptake of a polyvalent ligand. The restoration of the binding capacity was a slow process requiring ongoing protein synthesis. On the basis of these observations, a model for endocytosis of immune complexes in macrophages is presented. It includes the following four steps: IgG-containing macromolecular aggregates bind to specific receptors in the plasma membrane. These appear to be preclustered in coated pits or able to move laterally within the membrane even at 4 degrees C. The receptor-ligand complexes are internalized and transferred sequentially to larger uncoated vesicles or endosomes, multivesicular bodies, and lysosomes with inclusions of varying appearance. Receptors and ligands are degraded within the lysosomes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Platelet-derived growth factor labeled to colloidal gold for use as a mitogenic receptor probe

Studies by others utilizing 125I-PDGF have indicated that target cells express a high affinity surface receptor for PDGF. We have bound purified platelet-derived growth factor (PDGF) to gold colloid particles to explore the interaction of PDGF with mouse 3T3 cells. The gold-PDGF complex consists of approximately 26 PDGF molecules electrostatically absorbed to gold colloid (approximately 14.1 nm). The gold-PDGF complex induced mitogenic stimulation similar to unbound PDGF, although a 5 to 6 fold greater amount of complexed PDGF was required for the same effect. Incubation of the gold-PDGF complex with 3T3 cells for 4 h at 4 degrees C revealed that 98% of the membrane binding was randomly distributed on the cell surface with respect to coated pits, with each cell binding 7000 to 11000 complexes. Addition of a 20-fold excess of unlabeled PDGF reduced surface binding of the gold-PDGF complex by 87% (1230 probes/cell). Warming to 37 degrees C followed by time-interval fixation permitted visualization of endocytosis of the complexes in coated vesicles (1-3 min), internalization (3-15 min) and lysosomal accumulation (15-60 min). Pretreatment of cultures with monensin (2 h, 10 microM) abolished receptor binding, internalization and subsequent mitogenesis of the gold-PDGF complex. These studies support the suggestion that PDGF requires a surface receptor to elicit mitogenesis.     

The human alpha 2-macroglobulin receptor: identification of a 420-kD cell surface glycoprotein specific for the activated conformation of alpha 2-macroglobulin

Ligand affinity chromatography was used to purify a cell surface alpha 2-macroglobulin (alpha 2M) receptor. Detergent extracts of human placenta were applied to an affinity matrix consisting of alpha 2M, previously reacted with methylamine, coupled to Sepharose. Elution with EDTA specifically released polypeptides with apparent molecular masses of 420 and 39 kD. In some preparations, small amounts of a 90-kD polypeptide were observed. The 420- and 39-kD polypeptides appear specific for the forms of alpha 2M activated by reaction with proteinases or methylamine and do not bind to an affinity matrix consisting of native alpha 2M coupled to Sepharose. Separation of these two polypeptides was accomplished by anion exchange chromatography, and binding activity was exclusively associated with the 420-kD polypeptide. The purified 420-kD protein binds to the conformationally altered forms of alpha 2M that are known to specifically interact with alpha 2M receptors and does not bind to native alpha 2M. Binding of the 420-kD polypeptide to immobilized wheat germ agglutinin indicates that this polypeptide is a glycoprotein. The cell surface localization of the 420-kD glycoprotein was confirmed by affinity chromatography of extracts from surface radioiodinated fibroblasts. These properties suggest that the 420-kD polypeptide is a cell surface receptor for the activated forms of alpha 2M.     

Reaction of human alpha 2-macroglobulin half-molecules with plasmin as a probe of protease binding site structure

Human alpha 2-macroglobulin (alpha 2M) half-molecules were prepared by limited reduction and alkylation of the native protein. Reaction with plasmin resulted in nearly quantitative cleavage of the half-molecule Mr approximately 180000 subunits into Mr approximately 90000 fragments. Subunit cleavage was significantly less complete when plasmin was reacted with alpha 2M whole molecules. The plasmin and trypsin binding capacities of the two forms of alpha 2M were compared by using radioiodinated proteases. alpha 2M half-molecules bound an equivalent number of moles of plasmin or trypsin. Native unreduced alpha 2M bound only half as much plasmin as trypsin. These data are consistent with the hypothesis that the two protease binding sites are adjacent in native alpha 2M. alpha 2M half-molecule-plasmin complexes reassociated less readily than half-molecule-trypsin complexes, supporting this interpretation. The frequency of covalent bond formation between plasmin and alpha 2M was considerably higher than that previously observed with other proteases. Approximately 80-90% of the plasmin that reacted with alpha 2M whole molecules or half-molecules became covalently bound. The reactivities of purified alpha 2M-plasmin complexes were compared with small and large substrates. Equivalent kcat/Km values were determined at 22 degrees C for the hydrolysis of H-D-Val-Leu-Lys-p-nitroanilide dihydrochloride by whole molecule-plasmin complex and half-molecule-plasmin complex (40 mM-1 s-1 and 39 mM-1 s-1, respectively, compared with 66 mM-1 s-1 determined for free plasmin).(ABSTRACT TRUNCATED AT 250 WORDS)     

Evolution of alpha 2-macroglobulin. The demonstration in a variety of vertebrate species of a protein resembling human alpha 2-macroglobulin.

The amino acid sequence of the Pronase-released heads of neuraminidase subtype N2 from the A/Tokyo/3/67 strain of influenza virus was determined by a combination of peptide and nucleic acid sequence analysis. The results show that the Pronase-released heads contain 396 amino acid residues and extend from residue 74 in the original protein to the C-terminus at residue 469. The heads contain five potential glycosylation sites at asparagine residues 86, 146, 200, 234 and 402, but only the first four are glycosylated. The sequence homology with the corresponding region of the previously published sequence of the neuraminidase subtype N1 [Fields, Winter & Brownlee (1981) Nature (London) 290, 213-217] is 45%. Detailed evidence for the sequence data has been deposited as Supplementary Publication SUP 50116 (14 pages) at the British Library Lending Division, Boston Spa, Wetherby, West Yorkshire LS23 7BQ, U.K., from whom copies may be obtained on the terms given in Biochem. J. (1981) 193, 5.     

Identification of alpha 2-macroglobulin as a cytokine binding plasma protein. Binding of interleukin-1 beta to "F" alpha 2-macroglobulin

Treatment of normal human plasma with methylamine resulted in the discovery of an interleukin-1 beta(IL-1 beta) binding protein. The protein was labeled with 125I-IL-1 beta and the relative molecular mass (Mr) determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The protein-IL-1 beta complex had a Mr of approximately 400,000 in non-reducing sodium dodecyl sulfate-polyacrylamide gel electrophoresis but became dissociated when exposed to beta-mercaptoethanol. The 125I-IL-1 beta labeled protein complex could be immunoprecipitated from plasma by using an anti-alpha 2-macroglobulin (alpha 2M) antiserum. Similarly, a monoclonal antibody (mAb) specific for electrophoretically fast ("F")alpha 2M was able to adsorb the 125I-IL-1 beta labeled complex from plasma. The mAb was also capable of adsorbing "F" alpha 2M-125I-IL-1 beta complexes from binary reaction mixtures, but failed to adsorb free 125I-IL-1 beta. Experiments carried out with purified plasma alpha 2M established that IL-1 beta became bound to alpha 2M only upon reaction with trypsin or methylamine, which results in the appearance of free thiol groups in alpha 2M ("F" alpha 2M). There was no binding of IL-1 beta to the native form of alpha 2M (electrophoretically slow or "S" alpha 2M), which lacks free thiol groups. Pretreatment of "F" alpha 2M with N-ethylmaleimide or [ethylenebis(oxyethylenenitrilo)] tetraacetic acid prevented complex formation between "F" alpha 2M and IL-1 beta. In contrast, the yield of "F" alpha 2M IL-1 beta complex formation was increased severalfold in the presence of 2.5 mM Zn2+. These findings indicate that "F" alpha 2M interacts with IL-1 beta through a thiol-disulfide exchange reaction. Zn2+ may play a major role in bringing together the reactive domains of the adjoining peptide backbones into proper orientation. The ready complex formation between "F" alpha 2M and the pleiotropic cytokine IL-1 beta suggests a novel biological role for "F" alpha 2M, since "F" alpha 2M-IL-1 beta complexes, but not "F" alpha 2M alone, retained IL-1-like activity in the thymocyte costimulator bioassay.     

Conjugates of colloidal gold with native and acetylated low density lipoproteins for ultrastructural investigations on receptor-mediated endocytosis by cultured human monocyte-derived macrophages

Summary The morphological aspects of the binding and internalization of low density lipoproteins (LDL) and acetylated low density lipoproteins (AcLDL) by cultured human monocyte-derived macrophages were investigated. For this purpose, LDL and AcLDL were conjugated to 20 nm colloidal gold particles. After incubation of the cells with the conjugated lipoproteins at 4° C some LDL-or AcLDL-gold complexes were found to be attached to the cell surface, but without characteristic localization. However, after incubation of the cells at 8° C with either LDL-gold or AcLDL-gold, lipoprotein-gold complexes were present in clusters on the plasma membrane, often in coated pits. Cells incubated at 37° C for various time periods showed internalization of both LDL- and AcLDL-gold complexes via small coated and non-coated vesicles and processing of the complexes in smooth-walled endosomes. When the cells were pulse-chased with LDL- or AcLDL-gold for 30 min at 37° C, the gold conjugates occurred in dense bodies, probably lysosomes. The results suggest that although native and modified LDL are reported to be metabolized differently by macrophages, the morphological aspects of the endocytosis of LDL and AcLDL by cultured human monocyte-derived macrophages are similar.