Gangliosides play important roles in the nervous system by regulating ion concentrations

Gangliosides are important components of the neuronal cell membrane and play a vital role in the development of neurons and the brain. They participate in neurotransmission and are considered as the structural basis of learning and memory. Gangliosides participate in several and important physiological processes, such as cell differentiation, cell signaling, neuroprotection, nerve regeneration and apoptosis. The stability of ion concentration in excitable cells is particularly important in the maintenance of a steady state of cells and in the regulation of physiological functions. Ion concentration has been found to be related to the ganglioside’s regulation in many neurological diseases, and several studies have found that they can stabilize intracellular ion concentration by regulating ion channels, which highlights their important regulatory role in neuronal excitability and synaptic transmission. Gangliosides can influence some forms of ion transport, by directly binding to ion transporters or through indirect binding and activation of transport proteins via appropriate signaling pathways. Therefore, the important and special role of gangliosides in the homeostasis of ion concentration is becoming a hot topic in the field and a theoretical basis in promoting help gangliosides use as key drugs for the treatment of nervous system diseases.

     

脑病相关神经节苷脂研究进展

神经节苷脂是一种糖链结构上包含有唾液酸的酸性鞘糖脂,是动物细胞膜的重要组成成分,并在细胞膜表面上参与各种重要的生物学进程.正常生理情况下,脑内的神经节苷脂在神经细胞的形态稳定和神经信号的传递等生物进程中发挥至关重要的作用,这些生物进程和大脑的生长发育与认知发展密切相关.在一些患者各脑区检测到的神经节苷脂含量与种类的明显改变,提示着不同脑部疾病的发生与发展,例如在一些脱髓鞘疾病患者脑内常常伴随有神经节苷脂减少的现象.此外,定位于胞膜上的神经节苷脂还能极大地影响阿尔茨海默病等神经退行性疾病和胶质瘤等脑部肿瘤的发生和发展.以上所述的种种病症看似发病机制相去甚远,但这些脑病之间却因为神经节苷脂的联系而具有一定的共性和发病模式,例如在数年前流行于南美的寨卡病毒与常见的神经脱髓鞘疾病格林-巴利综合症均是由于自身B细胞产生的抗GQ1b神经节苷脂抗体与脑内神经细胞膜表面GQ1b的结合所引起的.本文就脑内数种疾病涉及神经节苷脂的发病机制进行总结并概括了几种可能的共同发病模式,以期未来在脑内疾病的诊断和治疗中提供一个新的思路.     

Gangliosides as apoptotic signals in ER stress response

Renewed attention has been given lately to gangliosides and to their function as intracellular messengers of the adaptive responses to stress. Gangliosides are vital components of cell membranes; therefore, deleterious consequences can result from changes in their chemical composition and concentration, that is, membrane dynamics and structure can be altered as can the behavior of other membrane proteins. The importance of gangliosides in human health is evident in neurodegenerative diseases associated with defects in their degradation. As key modulators of intracellular calcium flux, gangliosides are involved in cellular processes downstream of calcium signaling. In this review, we focus on the effect of ganglioside accumulation on the endoplasmic reticulum calcium homeostasis and on the integrity of the mitochondrial membranes. We discuss how these events elicit an apoptotic program that ultimately leads to cell death. Owing to interorganelle crosstalk, these events are not necessarily self-contained, and gangliosides may serve as the common factor.     

Brain gangliosides: functional ligands for myelin stability and the control of nerve regeneration

Gangliosides, sialylated glycosphingolipids which are the predominant glycans on vertebrate nerve cell surfaces, are emerging as components of membrane rafts, where they can mediate important physiological functions. Myelin associated glycoprotein (MAG), a minor constituent of myelin, is a sialic acid binding lectin with two established physiological functions: it is involved in myelin-axon stability and cytoarchitecture, and controls nerve regeneration. MAG is found selectively on the myelin membranes directly apposed to the axon surface, where it has been proposed to mediate myelin-axon interactions. Although the nerve cell surface ligands for MAG remain to be established, evidence supports a functional role for sialylated glycoconjugates. Here we review recent studies that reflect on the role of gangliosides, sialylated glycosphingolipids, as functional MAG ligands. MAG binds to gangliosides with the terminal sequence 'NeuAc alpha 3Gal beta 3GalNAc' which is found on the major nerve gangliosides GD1a and GT1b. Gangliosides lacking that terminus (e.g., GM1 or GD1b), or having any biochemical modification of the terminal NeuAc residue fail to support MAG binding. Genetically engineered mice lacking the GalNAc transferase required for biosynthesis of the 'NeuAc alpha 3Gal beta 3GalNAc' terminus have grossly impaired myelination and progressive neurodegeneration. Notably the MAG level in these animals is dysregulated. Furthermore, removal of NeuAc residues from nerve cells reverses MAG-mediated inhibition of neuritogenesis, and neurons from mice lacking the 'NeuAc alpha 3 Gal beta 3GalNAc' terminus have an attenuated response to MAG. Cross-linking nerve cell surface gangliosides can mimic MAG-mediated inhibition of nerve regeneration. Taken together these observations implicate gangliosides as functional MAG ligands.     

Gangliosides suppress the proliferation of autoreactive cells in experimental allergic encephalomyelitis: ganglioside effects on IL-2 activity

Gangliosides have been shown to suppress human and murine lymphocyte proliferative responses in vitro. We tested the suppressive effects of gangliosides on the proliferation of autoreactive lymphoid cells obtained from Lewis rats with experimental allergic encephalomyelitis (EAE). Exogenous rat brain gangliosides inhibited both antigen- and mitogen-induced proliferation by as much as 79 and 93%, respectively. Gangliosides similarly inhibited the antigen-induced proliferation of a myelin basic protein (MBP)-reactive T-cell line which is able to passively induce EAE. Suppression was greatest when gangliosides were added at the initiation of culture, and was not abrogated by supraoptimal antigen concentration. Interleukin 2 (IL-2) activity in culture supernatants was not diminished by the addition of gangliosides. Gangliosides did not inhibit the IL-2-induced proliferation of a murine IL-2-dependent cell line, CTLL-20, unless the IL-2 was first preincubated with gangliosides before the addition of CTLL-20. Preincubation of CTLL-20 with gangliosides resulted in no inhibition of the subsequent responses to IL-2. Exogenous gangliosides did not decrease the binding of a monoclonal antibody directed against the rat cell surface IL-2 receptor. Addition of exogenous IL-2 to ganglioside-suppressed cultures had no effect or only partially restored the proliferative responses. Therefore, gangliosides were shown to inhibit the proliferation of autoreactive lymphoid cells without affecting IL-2 production or IL-2 receptor expression.     

Exogenous administration of gangliosides inhibits Fc epsilon RI-mediated mast cell degranulation by decreasing the activity of phospholipase C gamma

Gangliosides released from tumor cells, as well as administered exogenously, suppress the immune responses by largely unknown mechanisms. We show here that a pretreatment of rat basophilic leukemia cells with isolated brain gangliosides inhibited the release of preformed secretory mediators from cells activated via FcepsilonRI but not Thy-1 glycoprotein. Exogenously administered gangliosides also affected the cell-substrate adhesion and the levels of polymeric filamentous actin in Ag-activated cells. Although the production of phosphoinositides was also decreased, enzymatic activity of phosphatidylinositol 3-kinase was not inhibited. Gangliosides had no or only marginal effect on the association of aggregated FcepsilonRI with glycosphingolipid-enriched membranes and on tyrosine phosphorylation of FcepsilonRI and the linker for activation of T cells. Though pretreatment with gangliosides did not inhibit the association of linker for activation of T cells with phospholipase C (PLC)gamma1 and PLCgamma2, tyrosine phosphorylation of these enzymes, as well as their enzymatic activities and association with detergent-insoluble signaling assemblies were reduced. This resulted in a decreased production of inositol 1,4,5-trisphosphate and an inhibition of Ca(2+) mobilization. The combined data support the concept that exogenously administered gangliosides interfere with those properties of glycosphingolipid-enriched membranes that are important for the formation of plasma membrane-associated signaling assemblies containing PLCgamma but not for initial tyrosine phosphorylation of FcepsilonRI subunits.     

The suppressive effect of gangliosides upon IL 2-dependent proliferation as a function of inhibition of IL 2-receptor association

Gangliosides inhibited the proliferation of mitogen-activated human peripheral blood lymphocytes and the IL 2-dependent growth of murine T cell lines and 5-day-old human PHA lymphoblasts. In the case of the murine cell lines and PHA lymphoblasts, most of the effect of gangliosides could be reversed by the addition of high levels of IL 2. In the case of freshly-stimulated mitogen blasts, however, the ganglioside-induced inhibition could not be reversed by increasing exogenous IL 2 levels. These results indicate that inhibition of proliferation by gangliosides can be divided into IL 2-reversible and IL 2-irreversible mechanisms, the latter of which were predominant during the initial stage of cellular activation. Inclusion of gangliosides in receptor binding assays for radiolabeled IL 2 indicated that the IL 2-reversible mechanism likely involved competition between gangliosides and the cellular receptor for the binding of IL 2. Gangliosides blocked binding of radiolabeled IL 2 to both the high and low affinity forms of the IL 2 receptor, and this effect was most noticeable when the gangliosides and IL 2 were preincubated before addition of the target cells. In contrast, treatment of cells with gangliosides had no effect on the affinity of the cellular IL 2 receptor if the free gangliosides were removed immediately before the binding assay. Gangliosides also blocked the binding of radiolabeled IL 2 to anti-IL 2 antibodies, supporting the notion that their inhibitory effect is mediated via a direct interaction with IL 2. Thus, one major mechanism by which gangliosides block the IL 2-dependent proliferation of activated cells is by the sequestering or inactivation of the IL 2 molecule. This effect is reversible with the addition of excess IL 2, which distinguishes it from other mechanisms of ganglioside-dependent inhibition operating during the cellular activation process.     

Immobilized glycolipids from human diploid fibroblasts inhibit DNA synthesis of cultured human fibroblasts

Several previous studies have shown that glycolipids isolated from plasma membranes of cultured cells and added to cells in culture inhibit the growth rate in a concentration-dependent fashion. In order to investigate the possible involvement of glycolipids in the growth regulation of normal cells by cell-cell contacts, we tested the effect of immobilized glycolipids, isolated from human fibroblasts, on the DNA synthesis of freshly seeded fibroblasts. Gangliosides inhibited DNA synthesis to a great extent, whereas neutral glycolipids had only a minor effect. The degree of inhibition of DNA synthesis by immobilized gangliosides depended both on the cell density of the cultures from which the gangliosides were isolated and on the pretreatment of the immobilized gangliosides: Preincubation with DMEM without FCS of immobilized gangliosides, isolated from confluent cultures, resulted in a 75% inhibition of growth rate of embryonal human lung fibroblasts (FH109) cultured on immobilized gangliosides. Under the same conditions, gangliosides from sparse cultures reduced the growth rate by about 30%. On the other hand, the degree of inhibition exerted by immobilized gangliosides isolated from confluent cultures was found to be greatly reduced by preincubation with DMEM with FCS, whereas the slight inhibition of growth rate, exerted by gangliosides from sparse cultures, was found to be reversed into a slight stimulation of growth rate after preincubation with complete medium. Concomitantly with the reduction of the inhibition of DNA synthesis, it was found that the complete medium, used for preincubation of the gangliosides, was no longer able to support DNA synthesis to the same extent as untreated complete medium. The data suggest that gangliosides bind growth-supporting factors of the serum, gangliosides isolated from sparse cultures being more potent in the binding of these molecules than gangliosides isolated from dense cultures.     

Gangliosides of rat eye lens: a severe reduction in the content of C-series gangliosides following streptozotocin treatment

Gangliosides of eye lenses from normal and experimentally induced diabetic rats were investigated by methods including glycolipid-overlay techniques. Adult rat eye lens showed a complex ganglioside pattern that consisted of six major ganglioside components. These gangliosides were identified as GM3, GD3, GD1a, GD1b, GT1b, and GQ1b based upon their reactivity to anti-GM1 antibody after in situ sialidase treatment and mobility on thin-layer chromatography (TLC). Gangliosides in eye lens were further characterized by TLC-immunostaining with A2B5, a specific monoclonal antibody directed toward c-series gangliosides. Eye lens contained GT3 as the main c-series ganglioside component. Unexpectedly, the relative concentration of GT3 in total gangliosides of eye lens was highest among neural and extra-neural tissues examined. Administration of streptozotocin to rats caused a severe reduction in the GT3 content in eye lenses as early as day 3 without apparent changes in the composition of major gangliosides. Alloxan failed to produce such an effect despite producing similar hyperglycemic conditions. These results suggest that rat eye lens probably contains a streptozotocin-susceptible cell type(s), which is highly enriched with c-series gangliosides.     

Regulation of lymphocyte responses by human gangliosides. I. Characteristics of inhibitory effects and the induction of impaired activation

Gangliosides obtained from normal human brain were found to inhibit the in vitro activation of human lymphocytes by nonspecific mitogens and allogeneic cells at concentrations between 3 to 50 microgram/1.5 to 1.7 X 10(5) lymphocytes/0.2 ml culture. Ganglioside inhibition did not represent cytotoxic effects or altered lectin binding and was independent of the mitogen concentration. In addition to concentration, the degree of inhibition was dependent on the mode of presentation to lymphocytes, since gangliosides incorporated within liposomal membranes displayed a synergistic inhibitory effect greater than predicted from the cultures receiving either gangliosides or liposomes alone. In binding experiments, radiolabeled ganglioside GM1 became associated with human lymphocytes within 10 min. However, approximately 72 hr pre-exposure of human lymphocytes to gangliosides was required to induce impaired lymphocyte responses to mitogens and allogeneic cells. Thus, concentrations of human gangliosides equivalent to the levels occurring in the sera of patients with certain malignancies are capable of actively inhibiting lymphocyte stimulation in addition to inducing impaired lymphocyte responses.     

Regulation of B cell tolerance by murine gangliosides

The potential role of gangliosides as modulators of the triggering of neonatal primary B lymphocytes at the single precursor cell level was evaluated. Tolerance was induced in splenic fragment cultures containing an excess of carrier-primed T cells. Gangliosides at low concentrations (20 ng/culture) abrogated the tolerogenic effect of haptens presented on carriers not recognized by environmental T cells. The permanent arrest of immature B-cell responsiveness resulting from tolerogen treatment was eliminated by the presence of gangliosides during tolerogen treatment. The active moiety in the glycolipid preparation which protected B cells during tolerogen treatment was separated by ion-exchange chromatography and demonstrated to be in the disialoganglioside fraction.     

Exogenous Gangliosides Stimulate Breakdown of Neuro-2A Phosphoinositides in a Manner Unrelated to Neurite Outgrowth

Gangliosides administered exogenously are well-known effectors of differentiation in many neuroblastoma lines and primary neuronal cultures. Previous studies suggested the phosphoinositide signaling mechanism could be a contributing factor. We have found that treatment of Neuro-2A cells with bovine brain ganglioside mixture (BBG) causes breakdown of phosphoinositides, as measured by increased levels of inositol phosphates. The effect was optimal at 60 min and required a minimal BBG concentration of 25 microM. However, addition of neomycin, which blocked phosphoinositide breakdown, had no observable effect on ganglioside-stimulated neurite outgrowth. A similar result was obtained with psi-tectorigenin, which also inhibited phosphoinositide hydrolysis. When cells were treated with maitotoxin, an agent that promotes phosphoinositide breakdown, there was no enhancement of neurite outgrowth. These findings indicate that although exogenous gangliosides elevate inositol phosphate formation over a prolonged period in neuro-2A cells, this reaction is not integral to the differentiation of these cells. The possibility of secondary effects influencing neurite type and structure cannot be excluded.     

Ganglioside composition of growth cone-deficient nerve cell cultures

The ganglioside concentration and composition in growth cone-deficient nerve cells, induced by inclusion of cytochalasin B (CB) are compared with those of 2-day-old control cells from primary cultures of embryonic rat cerebral cortex. Ganglioside GM1 and GD1a are the major gangliosides in the growth cone. Ganglioside GM1 may be one of the membrane components of growth cones that function in neural recognition during development.     

Retrograde Axonal Transport of Gangliosides and Glycoproteins in the Motoneurons of Rat Sciatic Nerve

Axonal transport of glycoconjugates was studied in the motoneurons of rat sciatic nerve following injection of [3H]glucosamine into the lumbosacral spinal cord. After varying time intervals, the sciatic nerve was exposed, and two ligatures were tied for collection of materials undergoing anterograde and retrograde transport. Gangliosides and glycoproteins were found to undergo fast anterograde transport, estimated at 284-446 mm/day. Both classes underwent retrograde transport as well, with labeled glycoproteins returning slightly ahead of labeled gangliosides. Only minor quantities of labeled proteoglycans were detected. Purified gangliosides extracted from nerve segments were fractionated according to sialic acid number on diethylaminoethyl-Sephadex; the distributional pattern tended to resemble that of brain gangliosides. The similarity between anterograde and retrograde patterns suggested absence of metabolic changes in gangliosides entering and leaving the axon-nerve terminal structures.     

Gangliosides enhance migration of mouse B16-melanoma cells through artificial basement membrane alone or in presence of laminin or fibronectin

The migration of B16LuF1 cells, B16-melanoma cells of lower metastatic potential to lung was enhanced through artificial basement membrane in presence of gangliosides of B16LuF1 cells as well as gangliosides of B16-melanoma cells of higher metastatic potential to lung, namely, B16LuF5 and B16LuF10 cells. The same concentration (50 microM) of gangliosides of B16LuF1, B16LuF5 and B16LuF10 cells gradually increased the migration of B16LuF1 cells through basement membrane. Moreover, B16LuF10 cell gangliosides modified the migratory effect of laminin and fibronectin on B16LuF1 cells. Laminin alone increased migration of B16LuF1 cells whereas fibronectin alone decreased migration of the same cells. When B16LuF10 cell gangliosides were used in combination with fibronectin, gangliosides removed the migration inhibitory effect of fibronectin resulting in net enhancing effect. Gangliosides in association with laminin also increased the enhancing effect of laminin on migration of B16LuF1 cells. Thus, gangliosides showed additive enhancing effect when used in combination with laminin. However, effect of individual gangliosides were different. Out of six gangliosides isolated from B16LuF10 cells only two gangliosides corresponding to standard gangliosides GM2 and GM3 enhanced migration of B16LuF1 cells. The migration of B16LuF1 cells in presence of each of the remaining four gangliosides corresponding to GT1b, GD1b, GD1a and GM1 was not altered and was comparable to that of untreated control. Thus, gangliosides of B16 melanoma cells alone or in combination with laminin or fibronectin enhanced migration of B16 melanoma cells through artificial basement membrane, suggesting possible role of tumor gangliosides during invasion of metastatic tumor cells through basement membrane of the surrounding tissues in vivo.     

Role of gangliosides in the differentiation of human mesenchymal-derived stem cells into osteoblasts and neuronal cells

Gangliosides are complex glycosphingolipids that are the major component of cytoplasmic cell membranes, and play a role in the control of biological processes. Human mesenchymal stem cells (hMSCs) have received considerable attention as alternative sources of adult stem cells because of their potential to differentiate into multiple cell lineages. In this study, we focus on various functional roles of gangliosides in the differentiation of hMSCs into osteoblasts or neuronal cells. A relationship between gangliosides and epidermal growth factor receptor (EGFR) activation during osteoblastic differentiation of hMSCs was observed, and the gangliosides may play a major role in the regulation of the differentiation. The roles of gangliosides in osteoblast differentiation are dependent on the origin of hMSCs. The reduction of ganglioside biosynthesis inhibited the neuronal differentiation of hMSCs during an early stage of the differentiation process, and the ganglioside expression can be used as a marker for the identification of neuronal differentiation from hMSCs. [BMB Reports 2013; 46(11): 527-532]     

Interaction of gangliosides with low-density proteins from human blood

Gangliosides have been shown to modulate the receptor-mediated endocytosis of low density lipoproteins (LDL). The direct interaction of LDL with various gangliosides has been studied. Binding of gangliosides to LDL immobilized on CNBr-Sepharose (LDL-Sepharose) and the influence of gangliosides on the fluorescence of LDL containing anthrylvinyl-labeled sphingomyelin were investigated. The binding of 3H-gangliosides to LDL-Sepharose, as well as fluorescence polarization of LDL were found to depend on the structure and concentration of the gangliosides in a specific saturable manner. The data obtained indicate that gangliosides interact with apolipoprotein B via specific binding sites.     

Gangliosides inhibit flagellin signaling in the absence of an effect on flagellin binding to toll-like receptor 5

A recent study (Ogushi, K., Wada, A., Niidome, T., Okuda, T., Llanes, R., Nakayama, M., Nishi, Y., Kurazono, H., Smith, K. D., Aderem, A., Moss, J., and Hirayama, T. (2004) J. Biol. Chem. 279, 12213-12219) concluded that gangliosides serve as co-receptors for flagellin signaling via toll-like receptor 5 (TLR5). In view of several findings in this study that were inconsistent with a role for gangliosides as co-receptors, we re-examined this important issue. Using TLR5-negative RAW 264.7 cells and a TLR5-enhanced yellow fluorescent protein chimera, we established an assay for specific binding of flagellin to cells. Inhibition of clatherin-mediated internalization of flagellin.TLR5-enhanced yellow fluorescent protein complexes did not impair flagellin activation of IRAK-1. Thus flagellin signal occurs at the cell surface and not intracellularly. Exogenous addition of mixed gangliosides (GM1, GD1a, and GT1b) as well as GD1a itself inhibited flagellin-induced interleukin-1 receptor-associated kinase activation as well as tumor necrosis factor alpha production in HeNC2, THP-1, and RAW 264.7 cells. Gangliosides inhibited flagellin signaling in the absence of an effect on flagellin binding to TLR5. Depletion of gangliosides in RAW 264.7 cells did not alter the concentration dependence or magnitude of flagellin signaling as measured by interleukin-1 receptor-associated kinase activation or tumor necrosis factor alpha production. Our findings are consistent with the conclusions that gangliosides are not essential co-receptors for flagellin and that the inhibitory effect of gangliosides is mediated by at least one mechanism that is distinct from any effect on the binding of flagellin to TLR5.     

Lipid composition of human neural tumors.

Gangliosides, cholesterol, and phospholipids were quantitated in the tissues of 11 human neural tumors and the cells of two gliomas cultured in vitro. All tumor tissues contained higher water concentrations but lower total lipid concentrations than either human grey or white matter. In general they contained less cholesterol, sphingomyelin, and serine glycerophospholipid but more choline glycerophospholipid than white matter. Concentrations of total ganglioside sialic acid were intermediate between grey and white matter. Compared with normal brain, all tumors had greater proportions of the structurally less complex gangliosides and smaller proportions of the more complex gangliosides. This was most marked in the rapidly growing tumors while the better differentiated astrocytomas contained the greatest proportions of complex gangliosides. The cells of the cultured tumors contained amounts of total lipid and total phospholipid similar to their parent tissues. However, the cultures had less cholesterol, sphingomyelin, and total ganglioside than their parent tissues. There were significant amounts of choline and ethanolamine plasmalogens in both cultures and parent tissues. The ganglioside patterns of both cultures were complex but they contained a greater proportion of structurally simpler gangliosides than their parent tissues.-Yates, A. J., D. K. Thompson, C. P. Boesel, C. Albrightson, and R. W. Hart. Lipid composition of human neural tumors.