Involvement of gangliosides and glycoprotein fibronectin receptors in cellular adhesion to fibronectin

Expression and function of ganglioside 9-O-acetyl GD3 in postmitotic granule cell development

We have shown previously that the Jones monoclonal antibody (Jones mAb) recognizes 9-O-acetyl GD3 expressed during periods of neuronal migration and neurite outgrowth in the developing rat nervous system. In the present study we investigated the expression of this ganglioside in the developing cerebellum and correlated this expression with granule cell migration. Electron microscopic immunocytochemistry revealed that around the peak of cerebellar neuronal migration (7-day-old rat), 9-O-acetyl GD3 was localized at the contact sites between migrating granule cells and radial glia in the external granular layer and prospective molecular layer. In addition, using microexplant and slice cultures of the postnatal rat cerebellum, we tested whether the ganglioside detected by our antibody contribute to the regulation of neuronal migration in the cerebellar cortex. We have shown that the Jones mAb blocks the migration of neurons in a dose-dependent manner. These findings suggest strongly that 9-O-acetyl GD3 is involved in granule cell migration in the developing cerebellum.

The mycotoxin fumonisin B1 inhibits integrin-mediated cell-matrix adhesion

Fumonisin B1 (FB1), a mycotoxin produced by the corn fungus Fusarium moniliforme, causes a variety of animal diseases and is a suspected human carcinogen. The FB1 molecule bears remarkable structural resemblance to the long-chain sphingoid base backbones of sphingolipids. The toxicity and carcinogenicity of FB1 has been ascribed to its ability to inhibit ceramide synthase, a key enzyme in the metabolism of complex sphingolipids. In this study we have investigated whether the exposure of B16-BL6 mouse melanoma cells to FB1 affects cell growth and integrin-mediated cell matrix adhesion. Cell treatment with the highest tested dose (75 microM) of FB1 for 72 h induced an about 20% inhibition of cell growth. FB1 strongly affected B16-BL6 cell adhesion to immobilized fibronectin, by causing a dose-dependent inhibition of cell attachment to this substrate. FB1 also inhibited in a dose-dependent manner the adhesion of B16-BL6 cells to the immobilized anti-fibronectin receptor antibody, whereas it affected only to a low extent cell attachment to concanavalin A. Our results demonstrate that FB1 treatment alters integrin adhesive activity, thus affecting all cellular integrin-dependent functions.

Tenascin-R interferes with integrin-dependent oligodendrocyte precursor cell adhesion by a ganglioside-mediated signalling mechanism

Oligodendrocyte (OL) lineage progression is characterized by the transient expression of the disialoganglioside GD3 by OL precursor (preOL) cells followed by the sequential expression of myelin-specific lipids and proteins. Whereas GD3+ preOLs are highly motile cells, the migratory capacity of OLs committed to terminal differentiation is strongly reduced, and we have recently shown that the extracellular matrix protein tenascin-R (TN-R) promotes the stable adhesion and differentiation of O4+ OLs by a sulphatide-mediated autocrine mechanism (O4 is a monoclonal antibody recognizing sulphatides/seminolipids expressed by OLs and in myelin). Using culture conditions that allow the isolation of mouse OLs at distinct lineage stages, here we demonstrate that TN-R is antiadhesive for GD3+ preOLs and inhibits their integrin-dependent adhesion to fibronectin (FN) by a disialoganglioside-mediated signalling mechanism affecting the tyrosine phosphorylation of the focal adhesion kinase. This responsive mechanism appears to be common to various cell types expressing disialogangliosides as: (i) disialogangliosides interfered with the inhibition of cell adhesion of different neural and non-neural cells on substrata containing TN-R and FN or RGD-containing FN fragments. TN-R interacted specifically with disialoganglioside-expressing cells or immobilized gangliosides, and ganglioside treatment of TN-R substrata resulted in a delayed preOL cell detachment as a function of time. We conclude that OL response to one and the same signal in the extracellular matrix critically depends on the molecular repertoire expressed by OLs at different lineage stages and could thus define their final positioning.

Tenascin-C inhibits beta1 integrin-dependent cell adhesion and neurite outgrowth on fibronectin by a disialoganglioside-mediated signaling mechanism

We have previously shown that the extracellular matrix molecule tenascin-C inhibits fibronectin-mediated cell adhesion and neurite outgrowth by an interaction with a cellular RGD-independent receptor which interferes with the adhesion and neurite outgrowth promoting activities of the fibronectin receptor(s). Here we demonstrate that the inhibitory effect of tenascin-C on beta1integrin-dependent cell adhesion and neurite outgrowth is mediated by the interaction of the protein with membrane-associated disialogangliosides, which interferes with protein kinase C-related signaling pathways. First, in substratum mixtures with fibronectin, an RGD sequence-containing fragment of the molecule or synthetic peptide, tenascin-C inhibited cell adhesion and spreading by a disialoganglioside-dependent, sialidase-sensitive mechanism leading to an inhibition of protein kinase C. Second, the interaction of intact or trypsinized, i.e., cell surface glycoprotein-free, cells with immobilized tenascin-C was strongly inhibited by gangliosides or antibodies to gangliosides and tenascin-C. Third, preincubation of immobilized tenascin-C with soluble disialogangliosides resulted in a delayed cell detachment as a function of time. Similar to tenascin-C, immobilized antibody to GD2 (3F8) or sphingosine, a protein kinase C inhibitor, strongly inhibited RGD-dependent cell spreading. Finally, the degree of tenascin-C-induced inhibition of cell adhesion was proportional to the degree of disialoganglioside levels of expression by different cells suggesting the relevance of such mechanism in modulating integrin-mediated cell-matrix interactions during pattern formation or tumor progression.

Neurite outgrowth is enhanced by anti-idiotypic monoclonal antibodies to the ganglioside GM1

Exogenously added gangliosides enhance sprouting, neurite outgrowth, and other neuronal activities; this effect may be initiated when a ganglioside binds to a membrane protein or when a ganglioside intercalates into the plasma membrane. To test whether binding to membrane proteins is sufficient for ganglioside-mediated activity, anti-idiotypic antibodies were generated that mimic the functional binding sites of the ganglioside GM1 as described by M. J. Riggott and W. D. Matthew (1996, Glycobiology, 6, 581-589). These anti-idiotypic antibodies are proteinaceous probes that model the biochemical and biological effects of gangliosides. Those anti-idiotypic ganglioside (AIG) monoclonal antibodies (mAb's) were selected based on their ability to bind a known GM1 binding protein, the beta-subunit of cholera toxin. These studies described neuronal cell surface proteins that were identified by immunocytochemistry and Western blotting using these AIG mAb's. Here we show that AIG mAb's mimic the functional properties of GM1 in that they facilitate neurite outgrowth from central and peripheral nervous system neurons in in vitro bioassays. In addition, AIG mAb binding modulates second messenger activity, suggesting that membrane protein binding alone is sufficient to invoke intracellular activation. The similarity in the pattern of protein tyrosine phosphorylation evoked by GM1 and the anti-idiotypic ganglioside antibodies suggests that the AIG mAb's modulate neurite outgrowth in a manner similar to that of GM1. Because antibodies cannot intercalate into the plasma membrane, these results suggest that the ganglioside GM1 can mediate neuronal cellular activity by binding to cell surface proteins.

Vascular and perivascular GD3 expression in human glioma

A major hallmark of gliomas is their intense neovascularisation. Ganglioside GD3, is one of the major gangliosides which has been implicated in tumour angiogenesis. Recently we reported that GD3 was a potent stimulator of vascular endothelial growth factor release in human glioma cell lines. In the present study we were able to detect GD3-immunoreactivity in 10 out of 10 cases of glioblastoma multiforme and 7 out of 10 cases of anaplastic astrocytoma while low grade tumours were negative. Interestingly, GD3 was intensively expressed in hypervascularised areas of high grade gliomas. These data support the involvement of this ganglioside in brain tumour angiogenesis.

Gangliosides modulate proliferation, migration, and invasiveness of human brain tumor cells in vitro

Gliomas, the most common form of intrinsic brain tumor, are characterized by diffuse local invasion of the normal brain structures, irrespective of their histological grade of malignancy; a feature that is a major obstacle to successful therapy. They generally infiltrate the central nervous system (CNS) as individual tumor cells several centimeters beyond the macroscopic tumor margin and consequently often recur, after subtotal surgical resection. Factors involved in the control of both their proliferation and invasiveness are poorly documented. In this work, the role of gangliosides on proliferation of both human fetal human brain cells and five cell lines derived from human gliomas with different grades of malignancy was investigated. In addition, 8 microns-porosity polycarbonate filters were used to study cell motility. In addition, these filters were coated with the reconstituted extracellular matrix (ECM) composite, Matrigel, to assess invasiveness. The results presented show that gangliosides generally exert a proliferation inhibitory effect on fetal brain cells and glioma cell lines in vitro and play an important role in promoting glioma cell motility and invasiveness. The molecular mechanisms involved in the action of gangliosides may prove useful in identifying new targets for an anti-invasion therapy.

Adhesion of human glioma cell lines to fibronectin, laminin, vitronectin and collagen I is modulated by gangliosides in vitro

Adhesion of eight cell lines, derived from human gliomas of different histological types, to fibronectin, collagen I, vitronectin, and laminin was investigated in vitro. The glioma cell lines were found to attach to these substrates to different extents. Interestingly, all cell lines strongly attached to laminin. In addition, glioma cell adhesion was found to be dose dependent. Moreover, adhesion of three cell lines to fibronectin and collagen I was partially inhibited and to vitronectin completely prevented by GRGDTP peptide, indicating the involvement of integrin receptors in glioma cell adhesion. We have demonstrated, recently, that gangliosides play an important role in promoting glioma cell invasion of the reconstituted basement membrane, Matrigel, in vitro. In order to study the mechanism of action of gangliosides in this process, the role of six gangliosides (GM1, GM3, GD3, GD1a, GD1b, and GT1b) in cell adhesion to the four proteins was investigated in three cell lines. Although all gangliosides, with the exception of GM3, were found to enhance cell adhesion to these proteins to different extents, GD3 proved to be the most effective adhesion-promoting ganglioside in all three cell lines. GM3 was found to inhibit cell adhesion to the four proteins in one cell line but enhanced cell adhesion in two other cell lines. The three cell lines were found to express both GD3 and gangliosides recognised by the A2B5 antibody. Furthermore, adhesion of the three cell lines to fibronectin, vitronectin, laminin, and collagen I was inhibited by incubation with A2B5, demonstrating the involvement of intrinsic cell membrane gangliosides in adhesion of glioma cells to these proteins. Taken together with the observation that gangliosides modulate integrin receptor function, these data suggest that gangliosides may play a central role in the control of the adhesive and invasive properties of human glioma cells.

Expression and distribution of functional integrins in rat CNS glia

In previous studies, we have reported on the expression of beta 1 integrins in type 1 astrocytes and their function in cell-substratum attachment (Tawil et al., J Cell Biol 120:261-271, 1993). Here we extend those findings by providing evidence that type 1 astrocytes express integrins of the beta 3 and possibly beta 4 subclasses and that the former (alpha v beta 3) functions in attachment by recognizing the peptide, Arg-Gly-Asp, in vitronectin. In addition, we have examined immunocytochemically the expression of beta 1 integrins on type 2 astrocytes and oligodendrocytes. The pattern of expression of integrins on these two cell types is distinct from type 1 astrocytes; most notably type 1 astrocytes but not oligodendrocytes or type 2 astrocytes express alpha 1 beta 1 heterodimers. Since type 2 astrocytes and oligodendrocytes originate from a common precursor (O-2A), the alpha 1 beta 1 heterodimer may be a functional marker which distinguishes O-2A-derived cells from those of the type 1 astrocyte lineage.

Cell surface gangliosides are involved in the control of human glioma cell invasion in vitro

The involvement of cell surface gangliosides in glioma cell invasion in vitro was examined using the ganglioside-specific antibody A2B5 and Matrigel-coated 8-microns porosity polycarbonate filters. Invasion of six cell lines derived from glial tumours of different histological grades was found to be markedly inhibited by A2B5 (50-96% inhibition) in a dose-dependent manner. Furthermore, exogenous gangliosides were found to prevent cell invasion when they were incubated with cells during the invasion assay. These results suggest that cell surface gangliosides are involved in glioma cell invasion in vitro, probably because of their adhesion-promoting action to basement membrane components.

A protective action of chondroitin sulfate proteoglycans against neuronal cell death induced by glutamate

The role of chondroitin sulfate proteoglycans (CSPGs) on excitotoxic cell death and long-term survival of neurons were investigated in primary cultured neurons of the rat cortex. Soluble CSPGs were prepared from 10-day-old and adult rat brains by the ion-exchange chromatography on DEAE-Sephacel. CSPGs were added to the culture medium on culture day 4, and glutamate neurotoxicity was examined on culture day 7 by both microscopic cell count and measurement of lactate dehydrogenase activity in culture media. The effect on long-term survival was evaluated by counting viable neurons until culture day 28. CSPGs and core proteins, but not glycosaminoglycan chains (GAGs), protected cultured neurons from excitotoxic cell death induced by 24 h exposure to 1 mM glutamate, but CSPGs did not promote the long-term survival of neurons. The neuroprotective effect of CSPGs and core proteins was dose-dependent with ED50 about 10 microM hexuronate and 2 micrograms/ml protein respectively. This effect was not considered to be due to adsorption of glutamate by CSPGs because [3H]glutamate was not adsorbed by CSPGs added to the culture medium. Based on these findings, we suggested that CSPGs may exert their neuroprotective action through molecular interactions with the binding sites on neuronal membrane, neurotrophic factors, or other extracellular matrix molecules and may be involved in the pathogenesis of neuronal cell death in acute pathological conditions and chronic degenerative diseases of the brain.

A cell-type specific ganglioside of glomerular podocytes in rat kidney: an O-acetylated GD3

We recently described a monoclonal antibody (clone 27A) that detected a membrane antigen specific for glomerular podocytes in adult rat kidney. After binding in vivo, the antibodies induced rapid changes in the foot processes. Here we show that in other rat tissues the antigen is detectable only in cells of adrenal medulla, in some cells of neural or neural crest origin, and in 1 to 5% of the cells of a rat pheochromocytoma cell line PC-12. Attempts to isolate the antigen revealed that it is an acidic, sialic acid containing lipid, as shown by thin layer chromatography and immuno-overlay techniques. Further characterization of the gangliosides extracted from rat glomeruli, bovine kidney, rat adrenal glands, or from PC-12 cells by ion exchange, thin layer, and gas liquid chromatography identified the antigenic lipid as a modified disialosyllactosylceramide (GD3). The results of mild alkaline treatment or periodate oxidation of the antigenic ganglioside, as well as chemical O-acetylation studies of standard gangliosides, showed that the modified ganglioside is O-acetylated, most probably at the 9-carbon of its terminal sialic acid residue. To our knowledge this is the first report of cell-type specific expression of gangliosides in the kidney.

Expression of multiple integrins and extracellular matrix components by C6 glioma cells

We have investigated the expression of integrins in C6 glioma, a chemically-induced glial tumor cell line from rat brain. Immunochemical analysis revealed that C6 cells express sets of integrin receptor complexes which immunologically and electrophoretically are indistinguishable from those expressed by normal rat skin fibroblasts. These include the well-characterized fibronectin (alpha 5 beta 1) and the multi-specific laminin, collagen and fibronectin (alpha 3 beta 1) receptors. Assay of cell adhesion indicated that C6 cells adhere to fibronectin-coated surfaces or matrix deposited by the C6 glioma cells (CGM) in an RGD- and divalent cation-dependent fashion. However, anti-fibronectin antibodies, which are able to inhibit fibroblast adhesion to fibronectin, did not inhibit adhesion of the C6 cells to fibronectin or CGM. This may reflect differences in functional properties and/or distribution patterns of integrins in C6 cells and normal fibroblasts.

Structure, function and biological properties of integrin alpha v beta 3 on human melanoma cells

Human melanoma represents one of the most metastatic cancers in man. The capacity of melanoma cells to invade a variety of tissues and extracellular matrices is, in part, due to their repertoire of adhesion receptors. To this end, human melanoma cells express multiple integrin cell adhesion receptors among these is the vitronectin receptor, alpha v beta 3. This adhesion receptor enables melanoma cells to attach to a wide variety of extracellular matrix components containing the sequence Arg-Gly-Asp. This review will focus on the biosynthetic, biochemical and biological properties of this receptor expressed on the surface of human melanoma cells.

Gangliosides: the relevance of current research to neurosurgery

Gangliosides are complex glycolipids found on the outer surface of most cell membranes: they are particularly concentrated in tissues of the nervous system. Gangliosides form part of the immunological identity of mammalian cells and are involved in a variety of cell-surface phenomena such as cell-substrate binding and receptor functions. In tumorous tissue, the ganglioside composition is altered, sometimes in direct proportion to the degree of malignancy. The literature on the glycosphingolipid composition and immunology of intracranial tumors is reviewed. Some gangliosides induce neuritogenesis and exhibit a trophic effect on nerve cells grown in vitro. In vivo, a particular ganglioside, GM1, reduces cerebral edema and accelerates recovery from injury (traumatic and ischemic) to the peripheral and central nervous systems of laboratory animals. Preliminary clinical studies have shown that treatment with gangliosides may have corresponding effects on lesions of the human peripheral nervous system. Gangliosides have not been tested in human subjects with brain injury.

Induction of NILE/L1 glycoprotein during neuronal differentiation of the embryonal carcinoma cell line EC1003

A new clone of the mouse embryonal carcinoma cell line 1003 (EC 1003.16) can be maintained in an undifferentiated state in serum-containing medium. Shifting these cells to serum-free, hormonally defined medium causes them to differentiate morphologically and acquire a number of molecular properties characteristic of neurons. Whereas undifferentiated cells lack the NILE/L1 glycoprotein, expression of this neuronal cell adhesion molecule is induced in the differentiating cells. Message for NILE/L1 becomes detectable after 5 days in serum-free medium, and cell-surface NILE/L1 can first be seen at this same time. Changes in two other cell adhesion molecules occur in parallel with the induction of NILE/L1. Fibronectin receptor is present on undifferentiated cells, but is down-regulated by the differentiating neurons. The neural cell adhesion molecule (N-CAM) undergoes a shift from the very adhesive adult form to the less adhesive, highly sialylated embryonic form. These changes would appear to emphasize the role of NILE/L1 in adhesive interactions involving differentiating neurons. Some changes in ganglioside expression also occur during EC 1003.16 differentiation. Undifferentiated cells express the D 1.1 ganglioside but lack gangliosides that are reactive with the monoclonal antibody A2B5. Differentiating cells lose D 1.1 and become A2B5-positive. Since D 1.1 is characteristic of undifferentiated neuroepithelial cells and A2B5 reactivity is a marker for several types of differentiated neurons, these changes in vitro appear to mimic events that occur in vivo.

The B30 ganglioside is a cell surface marker for neural crest-derived neurons in the developing mouse

We have previously reported the isolation of a monoclonal antibody, mAb B30, that recognizes two minor gangliosides specifically expressed in a small subset of neurons in the developing mouse central nervous system (Stainier and Gilbert, 1989). B30 labels mesencephalic trigeminal neurons shortly after differentiation until about 2 weeks after birth. Postnatally, it also labels two specific monolayers of cerebellar neurons. In this study, we have characterized the B30 immunoreactivity in the developing peripheral nervous system of the mouse. We report that B30 is a marker for neural crest-derived neurons and have used it to follow the neuronal differentiation of neural crest cells in a serum-free chemically defined culture system. Within hours after plating, neural crest cells migrate away from the neural tube explant on a fibronectin or laminin substrate and by 24 hr, up to 15% of them have differentiated into morphologically identifable neurons. In vitro as in vivo, undifferentiated mouse neural crest cells express the GD3 ganglioside which is recognized by mAb B33, and neural crest-derived neurons can be labeled by mAbs B33, B30, and also E1.9, a specific neuronal cytoskeletal marker. We also show the unique biochemical specificity of mAb B30 and provide experimental evidence for the role of the B30 ganglioside in the cellular adhesion process.

Nerve growth factor mediates monosialoganglioside-induced release of fibronectin and J1/tenascin from C6 glioma cells

C6 rat glioma cells incubated in serum-free medium with D-[14C]glucosamine secrete, on stimulation with nerve growth factor (NGF) or monosialogangliosides (MSGs), several glycoproteins (Gps), the most prominent of which are a 270-, 220-, and 69-kDa Gp. Several growth factors, hormones, phorbol ester, and disialo- and trisialogangliosides did not stimulate secretion. Western blot analysis of the conditioned medium from C6 cells stimulated with NGF or MSG identified one distinct band of approximately 220 kDa for fibronectin and J1/tenascin, which comigrated. Antiserum to NGF prevented NGF-stimulated release and also blocked MSG-evoked release. The 220-kDa band was labeled after pulse labeling with [35S]methionine in the presence of NGF, and by a 15-min chase period radioactively labeled J1/tenascin could be immunoprecipitated. Tunicamycin drastically inhibited almost completely release of the 220-kDa Gp labeled by D-[14C]glucosamine or [35S]methionine. These results extend the range of neurotrophic properties attributed to NGF to cells of glial origin and suggest that NGF regulates secretion of extracellular matrix proteins. MSG stimulation of fibronectin and J1/tenascin secretion may be mediated by NGF or an NGF-like molecule also secreted by the C6 glioma cells.

Synergism between gangliosides and basic fibroblastic growth factor in favouring survival, growth, and motility of capillary endothelium

The experiments reported were motivated by the observation that in vivo gangliosides promoted angiogenesis when the dose of the angiogenic factor was too low to be effective (Ziche et al.: Laboratory Investigation 61:629-634, 1989). As an approach to understanding the mechanism of this modulatory effect, we analysed the influence that gangliosides have on survival, growth, and migration of capillary endothelium when an angiogenesis factor like basic fibroblast growth factor (bFGF) was present in the culture medium. Clones of bovine capillary endothelium were cultivated in media unable to sustain survival over a 72 h period. With this experimental approach, cell survival was evaluated after addition of either bFGF or gangliosides or both to the medium. The Boyden chamber procedure was utilized to measure the influence of bFGF or gangliosides on cell mobilization across a micropore filter. Low doses of both molecules, ineffective when added singly to the culture media, improved all three parameters when added in combination. A synergic effect between bFGF and the gangliosides (GM1, GD1b, GT1b) was observed for the improvement of survival or growth and for the acceleration of endothelial cell migration. The removal of sialic acid from the ganglioside molecule prevented any effect on all three parameters. The addition of sialic acid alone to cultures was also totally ineffective. In the adult organism most angiogenic events occur under conditions of tissue damage. The synergism between gangliosides and bFGF can be interpreted as the initial phase of a process for which endothelial cell survival is the indispensable first step in the formation of a new vascular network.

Clonal segregation of multiple and overlapping matrix adhesive responses in dorsal root neuronal derivative cells

Clones of F11 hybrid (neuroblastoma X dorsal root neuron) cells have been tested for adherence and neurite outgrowth on three different substrata on which the parental cells display some competence--plasma fibronectin (pFN) with its multiple receptors, cholera toxin subunit B(CTB) as a model ganglioside GM1-binding substratum, and platelet factor-4 (PF4) as a model proteoglycan-binding substratum. This paradigm tests for independently segregating and overlapping mechanisms of neuritogenesis via transmembrane processes in pluripotent hybrid cells based on random loss of chromosomes contributed by the parent neural cells. For the nine clones tested, attachment was significantly lower on CTB but much higher on PF4 for all clones when compared to their attachment on pFN. Supplementation of cells with GM1 stimulated attachment of only two clones (on all three substrata). Neurite outgrowth was observed in a substratum-specific pattern and varied from 0 to greater than 60% on pFN; on CTB and PF4 substrata, the patterns were similar to each other but differed markedly from the pattern on pFN. In contrast, PF4- and CTB-directed neurites differed morphologically from each other while sharing some characteristics with neurites on pFN. Supplementation with GM1 or GT1b, but not GD1a, was inhibitory for neurite outgrowth in certain clones. Cycloheximide pretreatment distinguished several classes of clones based on inhibition of neuritogenesis. While most clones on pFN were unaffected, all clones on CTB and PF4 displayed significant and comparable degrees of inhibition, suggesting the sharing of some protein intermediate(s) on these substrata. Exposure to cycloheximide only during the active period of neuritogenesis generated higher percentages and longer neurites for all clones, indicating a widely-used negative regulation mechanism. Based on substratum type and cycloheximide protocols, these data have resolved six or more different transmembrane signalling processes for generating different classes of neurites. Some mechanisms have been segregated into individual clones while others overlap in other clones, providing cell systems for biochemical and molecular biological dissection of these processes.

Protease resistance of the beta subunit of the hamster fibronectin receptor. Evidence for differential cleavage of membrane-bound and soluble receptor

The structural stability of the hamster fibronectin receptor has been studied using limited proteolytic digestion and anti-(fibronectin receptor) monoclonal antibodies of known specificity. Treatment of the solubilized intact receptor or of the dissociated alpha and beta chains with any one of several proteases generated large protease-resistant fragments (92-110 kDa). Western blot analysis of tryptic digests using subunit-specific monoclonal antibodies revealed the large trypsin-generated fragment to be of beta-subunit origin. No products from the alpha subunit were detected. The protease-resistant fragment is lost upon exposure to reducing conditions; thus, the highly disulfide-bonded region of the beta subunit is important in the maintenance of the tertiary structure of the entire subunit. In contrast to solubilized fibronectin receptor, membrane-bound receptor is much more stable to proteolysis, and tryptic cleavage results in two large immunoreactive fragments of approximately 100 kDa and 95 kDa. This suggests a difference in the conformation and/or oligomeric organization of the membrane-bound receptor as compared with the solubilized heterodimeric receptor.

Granule cell induction of 9-O-acetyl gangliosides on cerebellar glia in microcultures

In previous studies we have shown that the expression of acetylated gangliosides recognized by the JONES monoclonal antibody is correlated with regions of cell migration in the developing rat nervous system. In this study we have investigated the expression of these gangliosides in two different types of cultures prepared from dissociated postnatal rat cerebella. In the first type, cells are plated after dissociation under conditions where most of the glial cells develop a stellate morphology that anchors neurons but does not support their migration. In the second type of culture, cells are plated in a ratio of four neurons to one glial cell and under these conditions the predominant form of astroglia is an elongate form that supports the migration of granule neurons. Granule neurons express JONES antigens in dissociated cell suspensions and in cultures in which cells are plated either after dissociation or in a 4:1 neuron:glia ratio. On the other hand, glial cells grown in the absence of neurons are JONES negative. In addition, the expression of JONES gangliosides by glial cells is different in the two types of culture. In cultures where the astroglial cells display the stellate morphology only a small proportion show JONES staining. Cultures in which the glial cells assume the elongate morphology have a significantly higher number of JONES-positive astroglia.

Exogenously administered gangliosides fail to increase in vivo metastatic frequency or in vitro growth of murine neoplastic cells

The influence of gangliosides on tumor growth and frequency of metastasis in vivo, as well as growth of neoplastic cells in vitro, was tested utilizing the mouse fibrosarcoma cell line MN4. In mice receiving intramuscular tumor transplants, injections of a ganglioside mixture twice daily did not influence the tumor volume or the number of spontaneous metastases per animal. Furthermore, in mice receiving the cells by tail vein injection, injections of a ganglioside mixture once or twice daily did not affect the number of metastatic foci in the lungs. Preincubation of neoplastic cells with the ganglioside mixture decreased the number of metastatic foci in the lungs of mice receiving the cells by tail i.v. injection. The addition of ganglioside mixture to the culture medium for up to a 48-h incubation period had no effect, independently of the cell density utilized, on either the rate of DNA synthesis or the relative numbers of neoplastic cells as compared to controls; at higher ganglioside concentrations, growth was actually reduced. These results are interpreted to indicate that gangliosides, under the present conditions, do not influence tumor growth and metastatic neoplastic capacity in vivo, and growth in vitro.

A neuroectoderm-associated ganglioside participates in fibronectin receptor-mediated adhesion of germinal cells to fibronectin

Previous studies with a rat neural cell line have shown that the D1.1 ganglioside, an O-acetylated derivative of GD3, is involved in cellular adhesion to fibronectin. In vivo, D1.1 is present on germinal cells of the developing rat central nervous system, but not on postmitotic cells that migrate away from the germinal zones. These observations suggest that D1.1 could participate in adhesive interactions with germinal zones and that the loss of D1.1 could be involved in the decision to being migration. In support of this hypothesis, immunofluorescence histochemistry shows that both fibronectin and fibronectin receptor are colocalized with D1.1 in the ventricular zones of the embryonic rat brain and in the external granule cell layer of the postnatal cerebellum. Dishes coated with monoclonal antibody against D1.1 were used to isolate D1.1-positive germinal cells from Embryonic Day 14 cerebrum and from Postnatal Day 6 cerebellum. These cells are able to adhere to fibronectin-coated dishes by a mechanism that is inhibitable by a synthetic hexapeptide containing the arg-gly-asp cell recognition sequence of fibronectin. Adhesion is also partially inhibited by antibody against fibronectin receptor and is slowed by anti-D1.1 antibody, implicating both the receptor and the ganglioside in the adhesion process. During 3 days in culture these D1.1-positive, fibronectin receptor-positive cells exhibit a neuronal phenotype, as judged by morphology and staining with tetanus toxin. This further confirms the neuroepithelial origin of the cells. The cells do not synthesize detectable amounts of fibronectin, thus leaving unidentified the source of the fibronectin seen in the germinal zones in tissue sections. Immunoprecipitation experiments show that the fibronectin receptors present on these cells are heterodimers. Under nonreducing conditions, the immunoprecipitates contain an alpha-subunit of 150-160 kDa and a beta-subunit of 115-125 kDa.

Altered expression of the D1.1 ganglioside in the cerebellum of the Weaver mouse

Expression of the D1.1 ganglioside was studied immunohistochemically in developing cerebella from normal and weaver mutant mice. In the normal cerebellum at postnatal day 7 (P7), D1.1 expression was restricted to the external granule-cell layer (EGL). At later ages, D1.1 disappeared as the developing granule neurons ceased mitosis and began migrating toward the internal granule-cell layer. In the weaver cerebellum, D1.1 was expressed in the EGL in apparently normal fashion at P7, but failed to disappear at later ages. As late as P35, D1.1 immunoreactivity was observed throughout the weaver cerebellar cortex. The relative amounts of D1.1 ganglioside in weaver and normal cerebella were compared by thin layer chromatography of total gangliosides, followed by overlay of the chromatogram with anti-D1.1 and 125I-labelled second antibody. Autoradiograms showed that at P12 and P35 the weaver tissue contains six- to tenfold more D1.1 than normal tissue. These findings suggest that one result of the weaver mutation is prolonged expression of D1.1. We speculate that the D1.1 ganglioside might be involved in adhesive interactions that regulate the timing of granule-cell migration from the EGL. The prolonged expression of D1.1 could be responsible, in part, for the failure of granule-cell migration in the weaver cerebellum.