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1.
Chondrogenic cells from hamster sternal cartilage were obtained as established cell lines, and have maintained the phenotypic traits of chondrocytes for about one year. In mass cultures, their extracellular matrix, staining metachromatically with toluidine blue, increased markedly in the confluent state. This extracellular material was confirmed to be cartilage matrix containing chondroitin sulfate proteoglycan, by digestion with various enzymes. In clonal cell cultures, the chondrocytes grew to form well differentiated colonies, and chondrogenesis in vitro in the central regions of the colonies was easily recognized under a phase-contrast microscope. This chondrogenesis in vitro was examined by light microscopy, and scanning and transmission electron microscopy.  相似文献   

2.
Schwann cells synthesize two heparan sulfate proteoglycans, one that is a component of the Schwann cell basement membrane and a smaller one that is an integral component of the Schwann cell plasma membrane. To determine the functions of these molecules, Schwann cell-nerve cell cultures were grown in medium containing a specific inhibitor of proteoglycan biosynthesis, 4-methylumbelliferyl-beta-D-xyloside. Treatment with 1 mM beta-D-xyloside caused a 90% reduction in the accumulation of 35SO4-labeled proteoglycans in the cell layer of the cultures. Gel filtration analysis revealed that both the basement membrane and plasma membrane proteoglycans were affected. Inhibition of proteoglycan biosynthesis was accompanied by an inhibition of laminin deposition into extracellular matrix as determined by immunostaining of cultures and by immunoblotting of cell-associated proteins. This occurred even though there was no decrease in the amount of laminin detected in the medium of beta-D-xyloside-treated cultures. Deposition of collagen type IV was similarly affected. In addition, there was no myelin produced in beta-D-xyloside treated cultures. However, when beta-xyloside-treated cultures were supplied with exogenous basement membrane, Schwann cells produced numerous myelin segments. These results indicate that Schwann cell proteoglycans play an essential role in basement membrane assembly, and that the integral plasma membrane proteoglycan is not required for the basement membrane to exert its effects on Schwann cell differentiation.  相似文献   

3.
The major families of proteoglycans in human arterial tissue have been localized and characterized by electron microscopy. After staining with the polycationic dye cuprolinic blue in the presence of a critical electrolyte concentration, three differently sized populations of proteoglycan-cuprolinic blue precipitates are found. The precipitates are distinguished of the basis of their morphology, topographical distribution and susceptibility to specific glycosaminoglycan-degrading enzymes. Each type of proteoglycan is preferentially associated with one connective tissue component: (a) a dermatan sulfate proteoglycan interacts with collagenous fibers, (b) a heparan sulfate proteoglycan is associated with elastic fibers and with the exterior surface of the basement membrane-like layer surrounding smooth muscle cells, and (c) a chondroitin sulfate proteoglycan forms aggregates with hyaluronate in the soluble matrix. Information about the pattern of proteoglycans in normal human arterial tissue should constitute a useful basis for evaluating perturbations in proteoglycan distribution in arteriosclerotic plaques.  相似文献   

4.
Proteoglycan accumulation by thioglycollate-elicited mouse peritoneal macrophages and a panel of murine monocyte-macrophage cell lines has been examined to determine whether these cells express plasma membrane-anchored heparan sulfate proteoglycans. Initially, cells were screened for heparan sulfate and chondroitin sulfate glycosaminoglycans after metabolic labeling with radiosulfate. Chondroitin sulfate is secreted to a variable extent by every cell type examined. In contrast, heparan sulfate is all but absent from immature pre-monocytes and is associated predominantly with the cell layer of mature macrophage-like cells. In the P388D1 cell line, the cell-associated chondroitin sulfate is largely present as a plasma membrane-anchored proteoglycan containing a 55 kD core protein moiety, which appears to be unique. In contrast, the cell-associated heparan sulfate is composed of a proteoglycan fraction and protein-free glycosaminoglycan chains, which accumulate intracellularly. A fraction of the heparan sulfate proteoglycan contains a lipophilic domain and can be released from cells following mild treatment with trypsin, suggesting that it is anchored in the plasma membrane. Isolation of this proteoglycan indicates that it is likely syndecan-4: it is expressed as a heparan sulfate proteoglycan at the cell surface, it is cleaved from the plasma membrane by low concentrations of trypsin, and it consists of a single 37 kD core protein moiety that co-migrates with syndecan-4 isolated from NMuMG mouse mammary epithelial cells. Northern analysis reveals that a panel of macrophage-like cell lines accumulate similar amounts of syndecan-4 mRNA, demonstrating that this proteoglycan is expressed by a variety of mature macrophage-like cells. Syndecan-1 mRNA is present only in a subset of these cells, suggesting that the expression of this heparan sulfate proteoglycan may be more highly regulated by these cells. © 1993 Wiley-Liss, Inc.  相似文献   

5.
This report describes synthesis and degradation of proteoglycans by human gingival fibroblasts growing in an endogenous three-dimensional matrix. Cells grown in the matrix cultures demonstrated a high rate of proteoglycan synthesis, varying between 2 and 4 times that of cells maintained in monolayer cultures. In addition, the relative amount deposited into the cell layer was increased in the matrix cultures, constituting 70% to 90% of the synthesized material during the first 24 h. Comparable levels for the monolayer cultures were 30% to 60%. The majority of the 35S-sulfate-labeled material in both matrix (80%) and monolayer (62%) cultures was susceptible to chondroitin ABC-lyase digestion. The major product was a low Mr (120,000) proteoglycan which could be immunoprecipitated by an antibody against PGII (decorin). In addition, the cells synthesized two chondroitin ABC-lyase-sensitive proteoglycans, one with Mr greater than 400,000, one with an apparent Mr of 250,000, as well as two heparan sulfate proteoglycans with Mr greater than 250,000. The low Mr dermatan sulfate, decorin, was also the major component deposited in the three-dimensional matrix, constituting about 60% of the total sulfate incorporation. In contrast, fibroblasts in monolayer cultures deposited only a small amount (13%) of decorin (PGII) in the cell layer, and the major proteoglycan in this compartment was heparin sulfate. The rate of release of the newly deposited proteoglycans was the same in the two culture conditions, although material released from the three-dimensional matrix cultures contained small Mr components indicating a higher degree of degradation. These studies show differences in proteoglycan metabolism by gingival fibroblasts grown in an endogenous matrix and in monolayer cultures.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

6.
We generated a monoclonal antibody (Mab) against a large chondroitin sulfate proteoglycan (CSPG) isolated from bovine aorta. This Mab (941) immunoprecipitates a CSPG synthesized by cultured monkey arterial smooth muscle cells. The immunoprecipitated CSPG is totally susceptible to chondroitinase ABC digestion and possesses a core glycoprotein of Mr approximately 400-500 KD. By use of immunofluorescence light microscopy and immunogold electron microscopy, the PG recognized by this Mab was shown to be deposited in the extracellular matrix of monkey arterial smooth muscle cell cultures in clusters which were not part of other fibrous matrix components and not associated with the cell's plasma membrane. With similar immunolocalization techniques, the CSPG antigen was found enriched in the intima and present in the medial portions of normal blood vessels, as well as in the interstitial matrix of thickened intimal lesions of atherosclerotic vessels. Immunoelectron microscopy revealed that this CSPG was confined principally to the space within the extracellular matrix not occupied by other matrix components, such as collagen and elastic fibers. These results indicate that this particular proteoglycan has a specific but restricted distribution in the extracellular matrix of arterial tissue.  相似文献   

7.
Chondroitin sulfates and their related proteoglycans are components of extracellular matrix that act as key determinants of growth and differentiation characteristics of developing lungs. Changes in their immunohistochemical distribution during progressive organ maturation were examined with monospecific antibodies to chondroitin sulfate, a nonbasement membrane chondroitin sulfate proteoglycan, and the specific chondroitin sulfate-containing proteoglycan decorin in whole fetuses and lungs from newborn and adult rats. Alveolar and airway extracellular matrix immunostained heavily in the prenatal rat for both chondroitin sulfate and chondroitin sulfate proteoglycan, whereas decorin was confined to developing airways and vessels. These sites retained their respective levels of reactivity with all antibodies through 1-10 days postnatal but thereafter became progressively more diminished and focal in alveolar regions. The heavy staining seen early in development was interpreted to reflect a significant and wide distribution of chondroitin sulfates, chondroitin sulfate proteoglycans, and decorin in rapidly growing tissues, whereas the reduced and more focal reactivity observed at later time points coincided with known focal patterns of localization of fibrillar elements of the extracellular matrix and a more differentiated state.  相似文献   

8.
《The Journal of cell biology》1986,103(6):2683-2696
The cell surface proteoglycan on normal murine mammary gland mouse mammary epithelial cells consists of an ectodomain bearing heparan and chondroitin sulfate chains and a lipophilic domain that is presumed to be intercalated into the plasma membrane. Because the ectodomain binds to matrix components produced by stromal cells with specificity and high affinity, we have proposed that the cell surface proteoglycan is a matrix receptor that binds epithelial cells to their underlying basement membrane. We now show that the proteoglycan surrounds cells grown in subconfluent or newly confluent monolayers, but becomes restricted to the basolateral surface of cells that have been confluent for a week or more; Triton X-100 extraction distinguishes three fractions of cell surface proteoglycan: a fraction released by detergent and presumed to be free in the membrane, a fraction bound via a salt-labile linkage, and a nonextractable fraction; the latter two fractions co-localize with actin filament bundles at the basal cell surface; and when proteoglycans at the apical cell surface are cross- linked by antibodies, they initially assimilate into detergent- resistant, immobile clusters that are subsequently aggregated by the cytoskeleton. These findings suggest that the proteoglycan, initially present on the entire surface and free in the plane of the membrane, becomes sequestered at the basolateral cell surface and bound to the actin-rich cytoskeleton as the cells become polarized in vitro. Binding of matrix components may cross-link proteoglycans at the basal cell surface and cause them to associate with the actin cytoskeleton, providing a mechanism by which the cell surface proteoglycan acts as a matrix receptor to stabilize the morphology of epithelial sheets.  相似文献   

9.
Antibodies were raised against a small high-density and a large low-density form of heparan sulfate proteoglycan from a basement membrane-producing mouse tumor and were characterized by radioimmunoassays, immunoprecipitation and immunohistological methods. Antigenicity was due to the protein cores and included epitopes unique to the low density form as well as some shared by both proteoglycans. The antibodies did not cross-react with other basement membrane proteins or with chondroitin sulfate proteoglycans from interstitial connective tissues. The heparan sulfate proteoglycans occurred ubiquitously in embryonic and adult basement membranes and could be initially detected at the 2-4 cell stage of mouse embryonic development. Low levels were also found in serum. Biosynthetic studies demonstrated identical or similar proteoglycans in cultures of normal and carcinoembryonic cells and in organ cultures of fetal tissues. They could be distinguished from liver cell membrane heparan sulfate proteoglycan, indicating that the basement membrane types of proteoglycans represent a unique class of extracellular matrix proteins.  相似文献   

10.
Near confluent monolayers of arterial smooth muscle cells derived from Macaca nemestrina were labeled with Na2[35S]O4 and the newly synthesized proteoglycans present in the culture medium and cell layer were extracted with either 4 M guanidine HCl (dissociative solvent) or 0.5 M guanidine HCl (associative solvent) in the presence of protease inhibitors. The proteoglycans in both compartments were further purified by cesium chloride density gradient ultracentrifugation. Two size classes of proteoglycans were observed in the medium as determined by chromatography on Sepharose CL-2B. The large population (Kav = 0.31) contained predominantly chondroitin sulfate chains with Mr = approximately 40,000. The smaller population (Kav = 0.61) contained dermatan sulfate chains of similar Mr (approximately 40,000). When tested for their ability to aggregate, only proteoglycans in the large-sized population were able to aggregate. A chondroitin sulfate containing proteoglycan with identical properties was isolated from the cell layer. In addition, the cell layer contained a dermatan sulfate component which eluted later on Sepharose CL-2B (Kav = 0.78) than the dermatan sulfate proteoglycan present in the medium. Electron microscopy of the purified proteoglycans revealed a bottlebrush structure containing a central core averaging 140 nm in length with an average of 8 to 10 side projections. The length of the side projections varied but averaged between 70 and 75 nm. Similar bottlebrush structures were observed in the intercellular matrix of the smooth muscle cell cultures after staining with Safranin 0. This culture system provides a model to investigate parameters involved in the regulation of synthesis and degradation of arterial proteoglycans.  相似文献   

11.
A rat hepatoma cell line was shown to synthesize heparan sulfate and chondroitin sulfate proteoglycans. Unlike cultured hepatocytes, the hepatoma cells did not deposit these proteoglycans into an extracellular matrix, and most of the newly synthesized heparan sulfate proteoglycans were secreted into the culture medium. Heparan sulfate proteoglycans were also found associated with the cell surface. These proteoglycans could be solubilized by mild trypsin or detergent treatment of the cells but could not be displaced from the cells by incubation with heparin. The detergent-solubilized heparan sulfate proteoglycan had a hydrophobic segment that enabled it to bind to octyl- Sepharose. This segment could conceivably anchor the molecule in the lipid interior of the plasma membrane. The size of the hepatoma heparan sulfate proteoglycans was similar to that of proteoglycans isolated from rat liver microsomes or from primary cultures of rat hepatocytes. Ion-exchange chromatography on DEAE-Sephacel indicated that the hepatoma heparan sulfate proteoglycans had a lower average charge density than the rat liver heparan sulfate proteoglycans. The lower charge density of the hepatoma heparan sulfate can be largely attributed to a reduced number of N-sulfated glucosamine units in the polysaccharide chain compared with that of rat liver heparan sulfate. Hepatoma heparan sulfate proteoglycans purified from the culture medium had a considerably lower affinity for fibronectin-Sepharose compared with that of rat liver heparan sulfate proteoglycans. Furthermore, the hepatoma proteoglycan did not bind to the neoplastic cells, whereas heparan sulfate from normal rat liver bound to the hepatoma cells in a time-dependent reaction. The possible consequences of the reduced sulfation of the heparan sulfate proteoglycan produced by the hepatoma cells are discussed in terms of the postulated roles of heparan sulfate in the regulation of cell growth and extracellular matrix formation.  相似文献   

12.
Bovine epididymal and ejaculated spermatozoa were incubated for 22 and 9.5 h respectively, in a chemically defined medium. The percentages of sperm exhibiting an acrosome reaction were determined morphologically after fixing and staining specimens. Addition of bovine follicular proteoglycan or chondroitin sulfates ABC significantly increased the incidence of acrosome reaction. The stimulatory effects of the proteoglycan or chondroitin sulfates were negated by exposure to the enzyme chondroitinase ABC. Viability of spermatozoa was not affected by the various experimental treatments. Transmission electron microscopy of spermatozoa showed that vesiculation had occurred between the plasma and outer acrosomal membrane. These results suggest that proteoglycan present in follicular fluid at the time of ovulation may promote the acrosome reaction which precedes the ability of sperm to fertilize an ovum.  相似文献   

13.
Cultured monolayers of NMuMG mouse mammary epithelial cells have augmented amounts of cell surface chondroitin sulfate glycosaminoglycan (GAG) when cultured in transforming growth factor-beta (TGF-beta), presumably because of increased synthesis on their cell surface proteoglycan (named syndecan), previously shown to contain chondroitin sulfate and heparan sulfate GAG. This increase occurs throughout the monolayer as shown using soluble thrombospondin as a binding probe. However, comparison of staining intensity of the GAG chains and syndecan core protein suggests variability among cells in the attachment of GAG chains to the core protein. Characterization of purified syndecan confirms the enhanced addition of chondroitin sulfate in TGF-beta: (a) radiosulfate incorporation into chondroitin sulfate is increased 6.2-fold in this proteoglycan fraction and heparan sulfate is increased 1.8-fold, despite no apparent increase in amount of core protein per cell, and (b) the size and density of the proteoglycan are increased, but reduced by removal of chondroitin sulfate. This is shown in part by treatment of the cells with 0.5 mM xyloside that blocks the chondroitin sulfate addition without affecting heparan sulfate. Higher xyloside concentrations block heparan sulfate as well and syndecan appears at the cell surface as core protein without GAG chains. The enhanced amount of GAG on syndecan is partly attributed to an increase in chain length. Whereas this accounts for the additional heparan sulfate synthesis, it is insufficient to explain the total increase in chondroitin sulfate; an approximately threefold increase in chondroitin sulfate chain addition occurs as well, confirmed by assessing chondroitin sulfate ABC lyase (ABCase)-generated chondroitin sulfate linkage stubs on the core protein. One of the effects of TGF-beta during embryonic tissue interactions is likely to be the enhanced synthesis of chondroitin sulfate chains on this cell surface proteoglycan.  相似文献   

14.
We used antibodies raised against both a heparan sulfate proteoglycan purified from a mouse sarcoma and a chondroitin sulfate proteoglycan purified from a rat yolk sac carcinoma to study the appearance and distribution of proteoglycans in cultured cells. Normal rat kidney cells displayed a fibrillar network of immunoreactive material at the cell surface when stained with antibodies to heparan sulfate proteoglycan, while virally transformed rat kidney cells lacked such a surface network. Antibodies to chondroitin sulfate proteoglycan revealed a punctate pattern on the surface of both cell types. The distribution of these two proteoglycans was compared to that of fibronectin by double-labeling immunofluorescent staining. The heparan sulfate proteoglycan was found to codistribute with fibronectin, and fibronectin and laminin gave coincidental stainings. The distribution of chondroitin sulfate proteoglycan was not coincidental with that of fibronectin. Distinct fibers containing fibronectin but lacking chondroitin sulfate proteoglycan were observed. When the transformed cells were cultured in the presence of sodium butyrate, their morphology changed, and fibronectin, laminin, and heparan sulfate proteoglycan appeared at the cell surface in a pattern resembling that of normal cells. These results suggest that fibronectin, laminin, and heparan sulfate proteoglycan may be complexed at the cell surface. The proteoglycan may play a central role in assembly of such complexes since heparan sulfate has been shown to interact with both fibronectin and laminin.  相似文献   

15.
The core protein of the proteoglycan at the cell surface of NMuMG mouse mammary epithelial cells bears both heparan and chondroitin sulfate chains and is recognized by the monoclonal antibody 281-2. Using this antibody and the peroxidase-antiperoxidase staining technique in adult mouse tissues, we found that the antibody recognizes the antigen in a highly restricted distribution, staining a variety of epithelial cells but no cells derived from embryonic mesoderm or neural crest. The antibody fails to stain any stromal (mesenchymal) or neuronal cells, with the exception of plasma cells and Leydig cells. Squamous and transitional epithelia stain intensely over their entire surfaces, whereas cuboidal and columnar epithelia stain moderately and only at the lateral surface of the basal cells. Within squamous and transitional epithelial tissues that undergo physiological regeneration (e.g., epidermis), the most superficial and differentiated cell types fail to stain. Within glandular and branched epithelia (e.g., pancreas), the secretory alveolar cells fail to stain. When evaluated by electron microscopy, granular deposits of stain are seen on the plasma membrane, especially on lateral surfaces, but none are noted within the cells or the basement membrane. These results indicate that in adult tissues the core protein of this heparan sulfate-rich proteoglycan is expressed almost exclusively at epithelial cell surfaces. Expression appears to be lost as the cells become either mature or highly differentiated.  相似文献   

16.
《The Journal of cell biology》1987,105(6):3087-3096
The cell surface proteoglycan on normal murine mammary gland (NMuMG) epithelial cells consists of a lipophilic domain, presumably intercalated into the plasma membrane, and an ectodomain that binds via its glycosaminoglycan chains to matrix components, is released intact by proteases and is detected by monoclonal antibody 281-2. The antibody 281-2 also detects a proteoglycan in the culture medium conditioned by NMuMG cells. This immunoactive proteoglycan was purified to homogeneity using DEAE-cellulose chromatography, isopycnic centrifugation, and 281- 2 affinity chromatography. Comparison of the immunoreactive medium proteoglycan with the trypsin-released ectodomain revealed that these proteoglycans are indistinguishable by several criteria as both: (a) contain heparan sulfate and chondroitin sulfate chains; and (b) are similar in hydrodynamic size and buoyant density; (c) have the same size core protein (Mr approximately 53 kD); (d) are nonlipophilic as studied by liposomal intercalation and transfer to silicone-treated paper. Kinetic studies of the release of proteoglycan from the surface of suspended NMuMG cells are interpreted to indicate that the immunoreactive medium proteoglycan is derived directly from the cell surface proteoglycan. Suspension of the cells both augments the release and inhibits the replacement of cell surface proteoglycan. These results indicate that the cell surface proteoglycan of NMuMG cells can be shed by cleavage of its matrix-binding ectodomain from its membrane- associated domain, providing a mechanism by which the epithelial cells can loosen their proteoglycan-mediated attachment to the matrix.  相似文献   

17.
Cultured mouse mammary (NMuMG) cells produce heparan sulfate-rich proteoglycans that are found at the cell surface, in the culture medium, and beneath the monolayer. The cell surface proteoglycan consists of a lipophilic membrane-associated domain and an extracellular domain, or ectodomain, that contains both heparan and chondroitin sulfate chains. During culture, the cells release into the medium a soluble proteoglycan that is indistinguishable from the ectodomain released from the cells by trypsin treatment. This medium ectodomain was isolated, purified, and used as an antigen to prepare an affinity-purified serum antibody from rabbits. The antibody recognizes polypeptide determinants on the core protein of the ectodomain of the cell surface proteoglycan. The reactivity of this antibody was compared with that of a serum antibody (BM-1) directed against the low density basement membrane proteoglycan of the Englebarth-Holm-Swarm tumor (Hassell, J. R., W. C. Leyshon, S. R. Ledbetter, B. Tyree, S. Suzuki, M. Kato, K. Kimata, and H. Kleinman. 1985. J. Biol. Chem. 250:8098-8105). The BM-1 antibody recognized a large, low density heparan sulfate-rich proteoglycan in the cells and in the basal extracellular materials beneath the monolayer where it accumulated in patchy deposits. The affinity-purified anti-ectodomain antibody recognized the cell surface proteoglycan on the cells, where it is seen on apical cell surfaces in subconfluent cultures and in fine filamentous arrays at the basal cell surface in confluent cultures, but detected no proteoglycan in the basal extracellular materials beneath the monolayer. The amino acid composition of the purified medium ectodomain was substantially different from that reported for the basement membrane proteoglycan. Thus, NMuMG cells produce at least two heparan sulfate-rich proteoglycans that contain distinct core proteins, a cell surface proteoglycan, and a basement membrane proteoglycan. In newborn mouse skin, these proteoglycans localize to distinct sites; the basement membrane proteoglycan is seen solely at the dermal-epidermal boundary and the cell surface proteoglycan is seen solely at the surfaces of keratinocytes in the basal, spinous, and granular cell layers. These results suggest that although heparan sulfate-rich proteoglycans may have similar glycosaminoglycan chains, they are sorted by the epithelial cells to different sites on the basis of differences in their core proteins.  相似文献   

18.
Double-label immunofluorescence microscopy and immunoelectron microscopy were performed on stationary cultures of Nil 8 fibroblasts to determine if fibronectin and basement membrane heparan sulfate proteoglycans play coordinated roles in cell-to-substrate adhesion. Relationships between subcellular matrix fibers containing fibronectin plus proteoglycan, and focal contacts associated with microfilament bundles, were studied simultaneously using interference reflection microscopy, differential interference contrast microscopy, and immunofluorescence microscopy. Cells maintained in 0.3% FBS were doubly stained with monospecific anti-fibronectin IgG and antibodies against a basement membrane proteoglycan purified from the EHS (Engelbreth-Holm-Swarm) tumor. Coincident patterns of fibronectin and proteoglycan-containing fibers were found to codistribute with focal contacts and microfilament bundles in both early (6-h) and late (24-h) cultures. The early cells showed doubly-stained fibers colinear with substrate adhesion sites in 43% of the sample, while 100% of the later cells exhibited these coaligned matrix-cytoskeletal attachment complexes. Immunoelectron microscopy showed that both of these antigens were situated in the same type of extracellular matrix fiber that appeared to be loosely associated with the cell surface membrane. We hypothesize that the appearance of proteoglycan in subcellular matrix fibers of these fibroblasts might stabilize fibronectin-containing cell-to-substrate contacts.  相似文献   

19.
A cell surface chondroitin sulfate proteoglycan associated with human melanomas and defined by mAb's F24.47 and 48.7 has been characterized biochemically and localized by indirect immunogold electron microscopy. These antibodies recognize distinct epitopes on the intact proteoglycan. In addition, mAb 48.7 also recognizes an epitope on a 250,000-D glycoprotein and is therefore similar to antibody 9.2.27 (described by Bumol, T.F., and R.A. Reisfeld, 1982, Proc. Natl. Acad. Sci. USA., 79:1245-1249). Furthermore, it was shown that the glycosaminoglycan chains released by alkaline borohydride treatment of the proteoglycan recognized by mAb 48.7 had a size of approximately 60,000 D. Since the intact proteoglycan was estimated to be 420,000 D, there are probably three chondroitin sulfate chains attached to the 250,000-D core glycoprotein. Furthermore, an oligosaccharide fraction containing 42% of the 3H activity (glucosamine as precursor) was isolated. Immunolocalization studies using whole-mount electron microscopy revealed that the chondroitin sulfate proteoglycan was present almost exclusively on microspikes, a microdomain of the melanoma cell surface. These processes were present as 1-2-micron structures on the upper cell surface and as longer (up to 20 micron) structures at the cell periphery. Peripheral microspikes were involved in the initial interactions between adjacent cells and formed complex footpads that made contact with the substratum. Immunogold-labeled cells were also thin sectioned and the specific localization of the chondroitin sulfate proteoglycan antigen was quantitated. The data confirmed the results of whole-mount microscopy and demonstrated a statistically significant association of the antigen with the microspike processes as compared with other areas of the cell surface. By using two different mAb's (48.7 and F24.47) that recognize epitopes on either the core glycoprotein or the intact proteoglycan, respectively, we have demonstrated that both molecules have the same restricted distribution at the cell surface. The specific localization of the antigen to microspikes at the cell surface suggests it may play a role in cell-cell contact and cell-substratum adhesion, which could be important in the metastatic process.  相似文献   

20.
Monospecific antibodies were prepared to a previously characterized chondroitin sulfate proteoglycan of brain and used in conjunction with the peroxidase-antiperoxidase technique to localize the proteoglycan by immunoelectron microscopy. The proteoglycan was found to be exclusively intracellular in adult cerebellum, cerebrum, brain stem, and spinal cord. Some neurons and astrocytes (including Golgi epithelial cells and Bergmann fibers) showed strong cytoplasmic staining. Although in the central nervous system there was heavy axoplasmic staining of many myelinated and unmyelinated fibers, not all axons stained. Staining was also seen in retinal neurons and glia (ganglion cells, horizontal cells, and Muller cells), but several central nervous tissue elements were consistently unstained, including Purkinje cells, oligodendrocytes, myelin, optic nerve axons, nerve endings, and synaptic vesicles. In sympathetic ganglion and peripheral nerve there was no staining of neuronal cell bodies, axons, myelin, or Schwann cells, but in sciatic nerve the Schwann cell basal lamina was stained, as was the extracellular matrix surrounding collagen fibrils. Staining was also observed in connective tissue surrounding the trachea and in the lacunae of tracheal hyaline cartilage. These findings are consistent with immunochemical studies demonstrating that antibodies to the chondroitin sulfate proteoglycan of brain also cross-react to various degrees with certain connective tissue proteoglycans.  相似文献   

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