Glycosphingolipids promote pro-atherogenic pathways in the pathogenesis of hyperglycemia-induced accelerated atherosclerosis.

INTRODUCTION: Three out of four people with diabetes will die of cardiovascular disease. However, the molecular mechanisms by which hyperglycemia promotes atherosclerosis, the major underlying cause of cardiovascular disease, are not clear. OBJECTIVES: Three distinct models of hyperglycemia-associated accelerated atherosclerosis were used to identify commonly altered metabolites and pathways associated with the disease. METHODS: Normoglycemic apolipoprotein-E-deficient mice served as atherosclerotic control. Hyperglycemia was induced by multiple low-dose streptozotocin injections, or by introducing a point-mutation in one copy of insulin-2 gene. Glucosamine-supplemented mice, which experience accelerated atherosclerosis to a similar extent as hyperglycemia-induced models without alterations in glucose or insulin levels, were also included in the analysis. Untargeted plasma metabolomics were used to investigate hyperglycemia-associated accelerated atherosclerosis in three disease models. The effect of specific significantly altered metabolites on pro-atherogenic processes was investigated in cultured human vascular cells. RESULTS: Hyperglycemic and glucosamine-supplemented mice showed distinct metabolomic profiles compared to controls. Meta-analysis of three disease models revealed 62 similarly altered metabolite features (FDR-adjusted p < 0.05). Identification of shared metabolites revealed alterations in glycerophospholipid and sphingolipid metabolism, and pro-atherogenic processes including inflammation and oxidative stress. Post-multivariate and pathway analyses indicated that the glycosphingolipid pathway is strongly associated with hyperglycemia-induced accelerated atherosclerosis in these atherogenic mouse models. Glycosphingolipids induced oxidative stress and inflammation in cultured human vascular cells. CONCLUSION: Glycosphingolipids are strongly associated with hyperglycemia-induced accelerated atherosclerosis in three distinct models. They also promote pro-atherogenic processes in cultured human cells. These results suggest glycosphingolipid pathway may be a potential therapeutic target to block or slow atherogenesis in diabetic patients.

Toll-like receptor 2 (TLR2) plays a role in controlling cutaneous leishmaniasis in vivo, but does not require activation by parasite lipophosphoglycan.

BACKGROUND: Leishmaniasis is a neglected tropical disease affecting millions of individuals worldwide. Despite several studies reporting involvement of the innate immune receptor Toll-like receptor 2 (TLR2) in the recognition of surface glycolipids from Leishmania parasites in vitro, the role of TLR2 and its co-receptors during cutaneous leishmaniasis infection in vivo is unknown. METHODS: To explore the role of TLR2 and its co-receptors in cutaneous leishmaniasis, mice deficient in either TLR2, 4, 1 or 6, or wild-type (WT) controls, were infected with either Leishmania major promastigotes, L. mexicana promastigotes, L. mexicana amastigotes, or LPG1 -/- L. mexicana promastigotes. For each infection, lesion sizes were monitored and parasite burden was assessed at various time points. To assess immune responses, draining lymph node (DLN) cells were re-stimulated with parasite antigens and the production of cytokines and parasite-specific antibody isotypes in blood was determined by ELISA. RESULTS: Mice deficient in TLR2 and TLR4 presented with larger lesions and higher parasite burdens than WT controls. Mice lacking TLR2 co-receptors TLR1 or TLR6 did not show exacerbated infection, suggesting that TLR2 does not require either co-receptor in the recognition of Leishmania infection. Furthermore, it appears that lipophosphoglycan (LPG) is not the major mediator of TLR2 activation during infection with L. mexicana, as parasites lacking LPG (axenic amastigotes and LPG1 -/- promastigotes) also resulted in exacerbated disease in TLR2-/- mice. Infected TLR2-/- mice show a skewed Th2 immune response to Leishmania parasites, as demonstrated by elevated IL-4, IL-13 and IL-10 production by DLN cells from L. mexicana infected mice in response to antigen. Furthermore, L. major infected TLR2-/- mice have elevated antigen-specific IgG1 antibodies. CONCLUSIONS: TLR2 deficiency leads to exacerbation of disease and parasite burden through promotion of Th2 immunity. TLR2 activation in vivo occurs independently of parasite LPG, suggesting other parasite ligands are involved in TLR2 recognition of Leishmania.

Differential Impact of LPG-and PG-Deficient Leishmania major Mutants on the Immune Response of Human Dendritic Cells.

BACKGROUND: Leishmania major infection induces robust interleukin-12 (IL12) production in human dendritic cells (hDC), ultimately resulting in Th1-mediated immunity and clinical resolution. The surface of Leishmania parasites is covered in a dense glycocalyx consisting of primarily lipophosphoglycan (LPG) and other phosphoglycan-containing molecules (PGs), making these glycoconjugates the likely pathogen-associated molecular patterns (PAMPS) responsible for IL12 induction. METHODOLOGY/PRINCIPAL FINDINGS: Here we explored the role of parasite glycoconjugates on the hDC IL12 response by generating L. major Friedlin V1 mutants defective in LPG alone, (FV1 lpg1-), or generally deficient for all PGs, (FV1 lpg2-). Infection with metacyclic, infective stage, L. major or purified LPG induced high levels of IL12B subunit gene transcripts in hDCs, which was abrogated with FV1 lpg1- infections. In contrast, hDC infections with FV1 lpg2- displayed increased IL12B expression, suggesting other PG-related/LPG2 dependent molecules may act to dampen the immune response. Global transcriptional profiling comparing WT, FV1 lpg1-, FV1 lpg2- infections revealed that FV1 lpg1- mutants entered hDCs in a silent fashion as indicated by repression of gene expression. Transcription factor binding site analysis suggests that LPG recognition by hDCs induces IL-12 in a signaling cascade resulting in Nuclear Factor κ B (NFκB) and Interferon Regulatory Factor (IRF) mediated transcription. CONCLUSIONS/SIGNIFICANCE: These data suggest that L. major LPG is a major PAMP recognized by hDC to induce IL12-mediated protective immunity and that there is a complex interplay between PG-baring Leishmania surface glycoconjugates that result in modulation of host cellular IL12.

Hepatic glycosphingolipid deficiency and liver function in mice.

UNLABELLED: Recent studies have reported that glycosphingolipids (GSLs) might be involved in obesity-induced insulin resistance. Those reports suggested that inhibition of GSL biosynthesis in animals ameliorated insulin resistance accompanied by improved glycemic control and decreased liver steatosis in obese mice. In addition, pharmacologic GSL depletion altered hepatic secretory function. In those studies, ubiquitously acting inhibitors for GSL biosynthesis have been used to inhibit the enzyme Ugcg (UDP-glucose:ceramide glucosyltransferase), catalyzing the first step of the glucosylceramide-based GSL-synthesis pathway. In the present study a genetic approach for selective GSL deletion in hepatocytes was chosen to achieve complete inhibition of GSL synthesis and to avoid possible adverse effects caused by Ugcg inhibitors. Using the Cre/loxP system under control of the albumin promoter, GSL biosynthesis in hepatocytes and their release into the plasma could be effectively blocked. Deletion of GSL in hepatocytes did not change the quantity of bile excretion through the biliary duct. Total bile salt content in bile, feces, and plasma from mutant mice showed no difference as compared to control animals. Cholesterol concentration in liver, bile, feces, and plasma samples remained unaffected. Lipoprotein concentrations in plasma samples in mutant animals reached similar levels as in their control littermates. No alteration in glucose tolerance after intraperitoneal application of glucose and insulin appeared in mutant animals. A preventive effect of GSL deficiency on development of liver steatosis after a high-fat diet was not observed. CONCLUSION: The data suggest that GSL in hepatocytes are not essential for sterol, glucose, or lipoprotein metabolism and do not prevent high-fat diet-induced liver steatosis, indicating that Ugcg inhibitors exert their effect on hepatocytes either independently of GSL or mediated by other (liver) cell types.

Leishmania major phosphoglycans influence the host early immune response by modulating dendritic cell functions.

The precise role of Leishmania glycoconjugate molecules including phosphoglycans (PGs) and lipophosphoglycan (LPG) on host cellular responses is still poorly defined. Here, we investigated the interaction of Leishmania major LPG2 null mutant (lpg2(-)), which lacks both PGs and LPG, with dendritic cells (DCs) and the subsequent early immune response in infected mice. Surprisingly, the absence of phosphoglycans did not influence expression pattern of major histocompatibility complex class II (MHC II), CD40, CD80, and CD86 on DCs in vitro and in vivo. However, lpg2(-) L. major induced significantly higher production of interleukin-12p40 (IL-12p40) by infected bone marrow-derived DCs (BMDCs) than wild-type (WT) parasites in vitro. Furthermore, the production of IL-12p40 by draining lymph node cells from lpg2(-) mutant-infected mice was higher than those from WT L. major-infected mice. In model antigen presentation experiments, DCs from lpg2(-) mutant-infected mice induced more gamma interferon (IFN-gamma) and IL-2 production by Leishmania-specific T cells than those from WT-infected mice. Lymphocytes isolated from mice infected for 3 days with lpg2(-) parasites produce similar levels of IFN-gamma, but significantly less IL-4 and IL-10 than WT controls. Decreased IL-4 production was also seen in another general PG-deficient mutant lacking the Golgi UDP-galactose transporters (lpg5A(-) lpg5B(-)), but not with the lpg1(-) mutant lacking only LPG, thereby implicating PGs generally in the reduction of IL-4 production. Thus, Leishmania PGs influence host early immune response by modulating DC functions in a way that inhibits antigen presentation and promotes early IL-4 response, and their absence may impact the balance between Th1 and Th2 responses.

A novel role for Stat1 in phagosome acidification and natural host resistance to intracellular infection by Leishmania major.

Intracellular parasites of the genus Leishmania generate severe diseases in humans, which are associated with a failure of the infected host to induce a protective interferon gamma (IFNgamma)-mediated immune response. We tested the role of the JAK/STAT1 signaling pathway in Leishmania pathogenesis by utilizing knockout mice lacking the signal transducer and activator of transcription 1 (Stat1) and derived macrophages. Unexpectedly, infection of Stat1-deficient macrophages in vitro with promastigotes from Leishmania major and attenuated LPG1 knockout mutants (lpg(-)) specifically lacking lipophosphoglycan (LPG) resulted in a twofold increased intracellular growth, which was independent of IFNgamma and associated with a substantial increase in phagosomal pH. Phagosomes in Stat1-/- macrophages showed normal maturation as judged by the accumulation of the lysosomal marker protein rab7, and provided normal vATPase activity, but were defective in the anion conductive pathway required for full vesicular acidification. Our results suggest a role of acidic pH in the control of intracellular Leishmania growth early during infection and identify for the first time an unexpected role of Stat1 in natural anti-microbial resistance independent from its function as IFNgamma-induced signal transducer. This novel Stat1 function may have important implications to studies of other pathogens, as the acidic phagolysosomal pH plays an important role in antigen processing and the uncoating process of many viruses.

Glycosphingolipid deficiency increases the sterol regulatory element-mediated gene transcription.

A major feedback mechanism of cholesterol in transcription of cholesterol metabolism-related genes is mediated by sterol regulatory element-binding protein (SREBP). Involvement of glycosphingolipids (GSLs) in the SREBP pathway is unknown. In this study, we examined the effects of GSL depletion on SRE-mediated gene transcription using GSL-defective cells. We found that the content of mature SREBP, the transcriptional active form, is increased in the GSL-defective cells. Transcription of SREBP target genes and cholesterol synthesis are also induced in the GSL-defective cells. These results indicate that GSL deficiency up-regulates the SREBP pathway, pointing out the regulatory role of GSL in cholesterol homeostasis.

The cell surface glycosphingolipids SSEA-3 and SSEA-4 are not essential for human ESC pluripotency.

Pluripotent cells can be isolated from the human blastocyst and maintained in culture as self-renewing, undifferentiated, human ESCs (hESCs). These cells are a valuable model of human development in vitro and are the focus of substantial research aimed at generating differentiated populations for cellular therapies. The extracellular markers that have been used to characterize hESCs are primarily carbohydrate epitopes on proteoglycans or sphingolipids, such as stage-specific embryonic antigen (SSEA)-3 and -4. The expression of SSEA-3 and -4 is tightly regulated during preimplantation development and on hESCs. Although this might imply a molecular function in undifferentiated cells, it has not yet been tested experimentally. We used inhibitors of sphingolipid and glycosphingolipid (GSL) biosynthesis to block the generation of SSEA-3 and -4 in hESCs. Depletion of these antigens and their precursors was confirmed using immunostaining, flow cytometry, and tandem mass spectroscopy. Transcriptional analysis, immunostaining, and differentiation in vitro and in teratomas indicated that other properties of pluripotency were not noticeably affected by GSL depletion. These experiments demonstrated that the GSLs recognized as SSEA-3 and -4 do not play critical functional roles in maintaining the pluripotency of hESCs, but instead suggested roles for this class of molecules during cellular differentiation.

Immunization with persistent attenuated Delta lpg2 Leishmania major parasites requires adjuvant to provide protective immunity in C57BL/6 mice.

Leishmania major parasites lacking the GDP-mannose transporter, termed Deltalpg2 parasites, fail to induce disease in mice but persist long-term. We previously found that Deltalpg2 organisms protect BALB/c mice from virulent L. major challenge. In contrast, we report here that Deltalpg2 parasites induce protective immunity in C57BL/6 mice only when administered with CpG-containing oligodeoxynucleotides, indicating that parasite persistence alone is not sufficient to maintain protective immunity to L. major.

Vaccination with phosphoglycan-deficient Leishmania major protects highly susceptible mice from virulent challenge without inducing a strong Th1 response.

Long-term immunity to Leishmania may require the continued presence of parasites, but previous attempts to create attenuated parasites that persist without causing disease have had limited success. Since Leishmania major mutants that lack lipophosphoglycan and other secreted phosphoglycans, termed lpg2-, persist indefinitely in infected mice without inducing any disease, we tested their ability to provide protection to virulent L. major challenge. In response to leishmanial Ag stimulation, cells from lpg2--infected mice produced minimal levels of IL-4 and IL-10, as well as very low levels of IFN-gamma. Nevertheless, when BALB/c mice infected with lpg2- parasites were challenged with virulent L. major they were protected from disease. Thus, these findings report on attenuated parasites that may be used to induce long-term protection against leishmaniasis and indicate that the immunity induced can be maintained in the absence of a strong Th1 response.

Functional expression of CD4, CXCR4, and CCR5 in glycosphingolipid-deficient mouse melanoma GM95 cells and susceptibility to HIV-1 envelope glycoprotein-triggered membrane fusion.

We had previously reported that glycosphingolipids (GSL) support human immunodeficiency virus type 1 (HIV-1) entry. In this study, we further examined this issue by expressing HIV-1 receptors in GSL-deficient GM95 cells. GM95 cells expressing low levels of CD4 and CXCR4 or CCR5 did not support HIV-1 Env-mediated fusion. However, higher expression of these receptors rendered GM95 cells highly susceptible to fusion with cells expressing appropriate HIV-1 envelope glycoproteins (HIV-1 Envs). The GM95 cells exhibited a different fusion phenotype when compared with GSL(+) NIH3T3 cells bearing similar receptor levels. Fusion of GM95 targets expressing higher levels of CD4 and coreceptors occurred at 25 degrees C and was sensitive to cholesterol depletion or disruption of the cytoskeleton. In contrast, the fusion threshold of NIH3T3CD4X4/R5 targets was at >/=28 degrees C as previously reported and was insensitive to cholesterol depletion or cytoskeletal network disruption. On the basis of these observations, we propose that target membrane GSLs support HIV-1 Env-mediated fusion at low density of receptors by stabilizing receptor pools in natural targets.

Ether phospholipids and glycosylinositolphospholipids are not required for amastigote virulence or for inhibition of macrophage activation by Leishmania major.

Ether phospholipids are major components of the membranes of humans and Leishmania. In protozoan parasites they occur separately or as part of the glycosylphosphatidylinositol (GPI) anchor of molecules implicated in virulence, such as lipophosphoglycan (LPG), smaller glycosylinositolphospholipids (GIPLs), and GPI-anchored proteins. We generated null mutants of the Leishmania major alkyldihydroxyacetonephosphate synthase (ADS), the first committed step of ether lipid synthesis. Enzymatic analysis and comprehensive mass spectrometric analysis showed that ads1- knock-outs lacked all ether phospholipids, including plasmalogens, LPG, and GIPLs. Leishmania ads1- thus represents the first ether lipid-synthesizing eukaryote for which a completely null mutant could be obtained. Remarkably ads1- grew well and maintained lipid rafts (detergent-resistant membranes). In virulence tests it closely resembled LPG-deficient L. major, including sensitivity to complement and an inability to survive the initial phase of macrophage infection. Likewise it retained the ability to inhibit host cell signaling and to form infectious amastigotes from the few parasites surviving the establishment defect. These findings counter current proposals that GIPLs are required for amastigote survival in the mammalian host or that parasite lyso-alkyl or alkylacyl-GPI anchors are solely responsible for inhibition of macrophage activation.

Deficiency of epidermal protein-bound omega-hydroxyceramides in atopic dermatitis.

Atopic dermatitis is a common skin disease of unknown etiology with an impaired permeability barrier function. To learn more about the molecular pathology in lesional skin, we analyzed levels of free extractable as well as protein-bound barrier lipids in the epidermis of atopic dermatitis subjects. The amount of protein-bound omega-hydroxyceramides in healthy epidermis comprised 46-53 wt% of total protein-bound lipids, whereas this percentage was decreased to 23-28 wt% in nonlesional areas and even down to 10-25 wt% in affected atopic skin areas of the subjects. Furthermore, the partial amount of free extractable very long chain fatty acids with more than 24 carbon atoms was reduced in affected regions down to 25 wt% and in nonlesional regions of the atopic dermatitis subjects down to 40 wt% compared to healthy controls. This "hydrocarbon chain length deficiency" regarding the barrier lipids in atopic skin was supported by metabolic labeling studies with [14C]-serine in cultured epidermis. The biosynthesis of free glucosylceramides and free ceramides was remarkably decreased in affected skin areas of the atopic subjects compared to healthy control subjects. Especially affected were the de novo syntheses of ceramide 4 (i.e., ceramide EOH, consisting of a very long chain N-acyl omega-hydroxy fatty acid esterified with linoleic acid and 6-hydroxysphingosine as sphingoid base) and ceramide 3 (ceramide NP, consisting of a nonhydroxy N-acyl fatty acid and phytosphingosine). In conclusion, this study revealed that the lesional epidermis in atopic dermatitis has considerable deficiencies within main barrier lipid components, which may contribute to the severely damaged permeability barrier.

Glicoesfingolípidos de membrana y test de viabilidad espermática / Glicosfingolipides ABH and sperm viability test

Los espermatozoides presentan estructuras glicoesfingolipídicas asociadas a la membrana que son propias de los antígenos ABH. Los glúcidos que conforman estas moléculas participan en la adhesión, reconocimiento e inhibición del contacto celular. Por esta razón los antígenos de grupo sanguíneo podrían tener relevancia en los mecanismos moleculares del proceso reproductivo. El objetivo de este trabajo fue evaluar si exite asociación entre los tests de integridad de la membrana espermática y la alteración en la expresión de los glicoesfingolípidos ABH. Se seleccionaron 50 pacientes infértiles cuyas muestras de semen fueron procesadas según normas OMS. La expresión ABH en los espermatozoides se estudió por técnicas inmunohematológicas y se clasificó según estuviera disminuida o ausente (grupo 1), o normal (grupo 2). La integridad de la membrana se evaluó con Test de Burgos y De Paola y Test Hiposmótico. Se efectuó la comparación de los dos grupos respecto de ambos test de viabilidad espermática. El análisis estadistico demostró que: 1) Existe diferencia significativa en la variable porcentaje de muertos (Burgos De Paola) para los dos grupos (p<0.001). 2) No existe diferencia significativa en la variable porcentaje de hinchados (Test Hiposmótico) para los dos grupos. Sobre la base de los resultados obtenidos podemos concluir que existe asociación entre expresión ABH disminuida e integridad de la menbrana del espermatozoide, principalmente a nivel de la cabeza. Lo que nos lleva a pensar que los glicoesfingolípidos ABH, se localizan preferentemente en esta zona del espermatozoide, involucrada fundamentalmente en la interacción con el ovocito. Nos proponemos ampliar la población en estudio e investigar el gen responsable de la estructura final de los antígenos del ABO tratando de profundizar en las alteraciones del plasmalema a nivel molecular (AU)

Glicoesfingolípidos de membrana y test de viabilidad espermática / Glicosfingolipides ABH and sperm viability test

Los espermatozoides presentan estructuras glicoesfingolipídicas asociadas a la membrana que son propias de los antígenos ABH. Los glúcidos que conforman estas moléculas participan en la adhesión, reconocimiento e inhibición del contacto celular. Por esta razón los antígenos de grupo sanguíneo podrían tener relevancia en los mecanismos moleculares del proceso reproductivo. El objetivo de este trabajo fue evaluar si exite asociación entre los tests de integridad de la membrana espermática y la alteración en la expresión de los glicoesfingolípidos ABH. Se seleccionaron 50 pacientes infértiles cuyas muestras de semen fueron procesadas según normas OMS. La expresión ABH en los espermatozoides se estudió por técnicas inmunohematológicas y se clasificó según estuviera disminuida o ausente (grupo 1), o normal (grupo 2). La integridad de la membrana se evaluó con Test de Burgos y De Paola y Test Hiposmótico. Se efectuó la comparación de los dos grupos respecto de ambos test de viabilidad espermática. El análisis estadistico demostró que: 1) Existe diferencia significativa en la variable porcentaje de muertos (Burgos De Paola) para los dos grupos (p<0.001). 2) No existe diferencia significativa en la variable porcentaje de hinchados (Test Hiposmótico) para los dos grupos. Sobre la base de los resultados obtenidos podemos concluir que existe asociación entre expresión ABH disminuida e integridad de la menbrana del espermatozoide, principalmente a nivel de la cabeza. Lo que nos lleva a pensar que los glicoesfingolípidos ABH, se localizan preferentemente en esta zona del espermatozoide, involucrada fundamentalmente en la interacción con el ovocito. Nos proponemos ampliar la población en estudio e investigar el gen responsable de la estructura final de los antígenos del ABO tratando de profundizar en las alteraciones del plasmalema a nivel molecular

The role of phosphoglycans in Leishmania-sand fly interactions.

Leishmania promastigotes synthesize an abundance of phosphoglycans, either attached to the cell surface through phosphatidylinositol anchors (lipophosphoglycan, LPG) or secreted as protein-containing glycoconjugates. These phosphoglycans are thought to promote the survival of the parasite within both its vertebrate and invertebrate hosts. The relative contributions of different phosphoglycan-containing molecules in Leishmania-sand fly interactions were tested by using mutants specifically deficient in either total phosphoglycans or LPG alone. Leishmania donovani promastigotes deficient in both LPG and protein-linked phosphoglycans because of loss of LPG2 (encoding the Golgi GDP-Man transporter) failed to survive the hydrolytic environment within the early blood-fed midgut. In contrast, L. donovani and Leishmania major mutants deficient solely in LPG expression because of loss of LPG1 (involved in biosynthesis of the core oligosaccharide LPG domain) had only a slight reduction in the survival and growth of promastigotes within the early blood-fed midgut. The ability of the LPG1-deficient promastigotes to persist in the midgut after blood meal excretion was completely lost, and this defect was correlated with their inability to bind to midgut epithelial cells in vitro. For both mutants, when phosphoglycan expression was restored to wild-type levels by reintroduction of LPG1 or LPG2 (as appropriate), then the wild-type phenotype was also restored. We conclude, first, that LPG is not essential for survival in the early blood-fed midgut but, along with other secreted phosphoglycan-containing glycoconjugates, can protect promastigotes from the digestive enzymes in the gut and, second, that LPG is required to mediate midgut attachment and to maintain infection in the fly during excretion of the digested blood meal.

Glycosphingolipid deficiency affects functional microdomain formation in Lewis lung carcinoma cells.

In view of the increasing evidence that gangliosides in membrane microdomains or rafts are closely associated with various signal transducing molecules including Src family kinases, we compared rafts in two subclones of 3LL mouse lung carcinoma cell line, J18 and J5, characterized by high and very low GM3 ganglioside contents, respectively. Rafts were isolated from cell lysates as low density detergent-insoluble microdomains (DIM) by sucrose density gradient centrifugation. J5 and J18 cells expressed comparable amounts of Src family kinases and the majority of Src kinases in both clones were concentrated in their DIMs, suggesting that GM3 is not necessary for DIM localization of Src kinases and there is no direct interaction between Src and GM3. However, the Src kinases were eliminated from DIMs after depletion of the major neutral GSLs of J5 cells, glucosylceramide and lactosylceramide, by an inhibitor of glucosylceramide synthase (D-PDMP), indicating that GSLs in general are required for Src kinase association to DIM. J5 and the D-PDMP-treated J5 cells had very similar DIM protein profiles and moreover cholesterol and sphingomyelin in the GSL-depleted cells were enriched in DIM similar to the untreated control cells. Interestingly, the levels of tyrosine-phosphorylated DIM proteins and cell proliferation of J5 cells were much lower than those of J18 cells, suggesting that GM3 might be involved in tyrosine phosphorylation of DIM proteins required for cell growth. Thus, our data suggest that GSLs are essential for functional raft formation.

Complete removal of sphingolipids from the plasma membrane disrupts cell to substratum adhesion of mouse melanoma cells.

GM-95, a mutant cell line derived from mouse melanoma MEB-4 cells, is deficient in glycosphingolipids (GSLs) due to the lack of ceramide glucosyltransferase-1 activity (Ichikawa, S., Nakajo, N., Sakiyama, H., and Hirabayashi, Y. (1994) Proc. Natl. Acad. Sci. U. S. A. 91, 2703-2707). In this study, we examined the involvement of the complex sphingolipids in cell to substratum adhesion. Immunofluorescent and chemical analyses revealed that the complex sphingolipids were significantly concentrated in the detergent-insoluble substrate attachment matrix of both GM-95 and MEB-4 cells. In spite of the absence of GSLs, GM-95 cells retained the ability to adhere to extracellular matrix (ECM) proteins such as fibronectin, collagen, and laminin. When both GM-95 and MEB-4 cells were treated with neutral sphingomyelinase, GM-95 cells were rounded up and detached from all ECM proteins examined. In contrast, neither the morphology nor the adherence of MEB-4 cells was altered. Under this treatment, sphingomyelin (SM) became undetectable in both cells. A similar inhibition was observed upon pretreatment of cells with fumonisin B1 or ISP-1, both of which block the synthesis of ceramide, a common precursor of both GSLs and SM. Stable transfectants expressing GSLs, which were established by transfection of glucosyltransferase-1 cDNA into GM-95 cells, became resistant to neutral sphingomyelinase-mediated rounding up and detachment from ECM proteins. In conclusion, the complex sphingolipids play critical roles in cell to substratum adhesion, and the presence of either GSLs or SM is sufficient for the adhesion.