Expression of GM3 microdomains on the surfaces of murine fibroblasts correlates with inhibition of cell proliferation.

The expression and surface distribution of monosialoganglioside GM3 on the plasma membranes of NIH3T3 fibroblasts cultured at semiconfluence were analyzed by immunofluorescence as well as by immunogold electron microscopy on thin sections and surface replicas. The GM3 expression was highly variable from cell to cell and the distribution of the ganglioside on the positive cells appeared punctate. Quantitative immunogold electron microscopy showed the existence of well-defined GM3 clusters of different sizes scattered all over the cell surfaces. Double immunofluorescence analysis of 5-bromo-2'-deoxyuridine incorporation to identify proliferating cells and of GM3 expression indicated that most of the GM3-positive cells appear unable to synthesize DNA and demonstrated a growth-dependent expression of GM3.

Antioxidant pattern in uveal melanocytes and melanoma cell cultures.

PURPOSE: To investigate the antioxidant status of cultured uveal melanocytes from patients with uveal melanoma and uveal melanoma cells to characterize some of the biochemical properties of these cells in respect to the normal cutaneous melanocytes. METHODS: The fatty acid pattern of membrane phospholipids, intracellular vitamin E level, and superoxide dismutase (SOD) and catalase activities were studied in uveal melanocytes (n = 10) and uveal melanoma cell (n = 10) cultures, by gas chromatography mass spectrometry or by spectrophotometer. RESULTS: Among the uveal melanocyte cultures, two groups were differentiated, according to catalase activity: group A with catalase values comparable to those of cutaneous ones and higher SOD activity and group B with catalase values 2 SD lower (P<0.001) and lower SOD activity. Vitamin E concentration was not significantly different between melanoma cells and melanocytes, whereas a significantly higher percentage of polyunsaturated fatty acids was found in melanoma cells and the B group of melanocytes (P = 0.022). In uveal melanoma cells SOD activity was significantly lower than that detected in uveal melanocytes (P< 0.005). CONCLUSIONS: These results show a different pattern of antioxidants in uveal melanocytes with respect to cutaneous ones, possibly related to the anatomic distribution. However, as in cutaneous melanocytes, two subgroups were identified on the basis of the antioxidant pattern that could be the expression of a constitutional increased susceptibility to oxidative stress in some subjects. Moreover, an imbalance of the antioxidants was observed in melanoma cells, possibly related to the disease status and progression.

Glycosphingolipid domains on cell plasma membrane.

In this study we analyzed by immunofluorescence, laser confocal microscopy, immunoelectron microscopy and label fracture technique the ganglioside distribution on the plasma membrane of several different cell types: human peripheral blood lymphocytes (PBL), Molt-4 lymphoid cells, and NIH 3T3 fibroblasts, which mainly express monosialoganglioside GM3, and murine NS20Y neuroblastoma cells, which have been shown to express a high amount of monosialoganglioside GM2. Our observations showed an uneven distribution of both GM3 and GM2 on the plasma membrane of all cells, confirming the existence of ganglioside-enriched microdomains on the cell surface. Interestingly, in lymphoid cells the clustered immunolabeling appeared localized over both the microvillous and the nonvillous portions of the membrane. Similarly, in cells growing in monolayer, the clusters were distributed on both central and peripheral regions of the cell surface. Therefore, glycosphingolipid clusters do not appear confined to specific areas of the plasma membrane, implying general functions of these domains, which, as structural components of a cell membrane multimolecular signaling complex, may be involved in cell activation and adhesion, signal transduction and, when associated to caveolae, in endocytosis of specific molecules.

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leucoencephalopathy (CADASIL). Neuropathological and in vitro studies of abnormal elastogenesis.

This study was performed on a family of CADASIL (cerebral autosomal dominant arteriopathy with subcortical infarcts and leucoencephalopathy) subjects. Neuropathological alterations of small arteries consisting in thickening, reduplication and fragmentation of the internal elastic lamella, and granular periodic acid-Schiff-positive material deposited in the arterial media were demonstrated in 1 autopsy case by histochemistry and electron microscopy. This material reacted with a monoclonal antibody anti-elastin (aE), as demonstrated by immunohistochemistry and immunoelectron microscopy. Significant increases of aE-immunoreactivity and elastin mRNA expression were found in cultured skin fibroblasts from 5 family members genetically affected by CADASIL, but not genetically and clinically healthy members. These results suggest that alterations of the elastic apparatus are associated with CADASIL genotype and related to the clinical expression of the disease.

Receptor-mediated endocytosis of keratinocyte growth factor.

Keratinocyte growth factor (KGF) is a fibroblast growth factor which acts specifically on epithelial cells, regulating their proliferation and differentiation. KGF elicits its activity through binding to and activation of KGF receptor, a splicing transcript variant of fibroblast growth factor receptor 2 (FGFR2). Here we analyzed the pathway of internalization of KGF and its receptor using several approaches, including the utilization in immunofluorescence and in immunoelectron microscopy of a functional KGF-HFc chimeric protein as a specific tool to follow the endocytosis of the growth factor and of its receptor. Western blot analysis with anti-FGFR2 and anti-phosphotyrosine antibodies, as well as parallel double immunofluorescence and confocal analysis of NIH3T3 KGFR transfectants treated with KGF at 4 degrees C, followed by incubations at 37 degrees C for different time points, showed that KGF induced endocytosis of tyrosine activated KGFRs. The use of KGF-HFc in immunofluorescence and in immunogold electron microscopy on KGFR transfectants, A253 epithelial tumor cells and human cultured keratinocytes allowed us to follow the early steps of KGF internalization and revealed that this process occurred through clathrin-coated pits. A quantitative ELISA assay confirmed that KGF-HFc binding on the cell surface rapidly decreased because of internalization. Our results demonstrate that KGF is internalized by receptor-mediated endocytosis and illustrate the involvement of clathrin-coated pits in this process.

Evidence for the existence of ganglioside-enriched plasma membrane domains in human peripheral lymphocytes.

In human peripheral blood lymphocytes (PBL) monosialoganglioside GM3 appears to be the major ganglioside on the cell plasma membrane. We have analyzed the expression and distribution pattern of GM3 molecules on the lymphocyte plasma membrane by flow cytometry, immunofluorescence, and immunoelectron microscopy, using an anti-GM3 monoclonal antibody. Both CD4+ and CD8+ T lymphocyte subpopulations showed substantial GM3 expression, as determined by thin-layer chromatography and flow cytometric analysis. A clustered distribution of GM3 molecules on the cell surface, revealed by immunofluorescence and immunogold electron microscopy, clearly indicated the presence of GM3 molecule-enriched plasma membrane domains. To better define these domains, we analyzed the ganglioside and protein composition of buoyant low-density Triton-insoluble (LDTI) lymphocyte fractions. The results show that GM3 is enriched approximately 20-fold in LDTI fraction, as compared with total cell lysates. In addition, CD4 and lck molecules are selectively recovered in the same LDTI fraction isolated from human PBL. These findings, together with the observation that anti-CD4 co-immunoprecipitated GM3, support the hypothesis of a possible GM3-CD4 interaction and suggest a role for gangliosides as structural components of the membrane multimolecular signaling complex involved in T-cell activation, antigen recognition, and other dynamic lymphocytic plasma membrane functions.

Overexpression of monosialoganglioside GM3 on lymphocyte plasma membrane in patients with HIV infection.

SUMMARY: This study was undertaken to analyze both the GM3 expression on peripheral blood lymphocytes of HIV-infected patients and the relationship between ganglioside content and anti-GM3 reactivity. GM3 expression was determined as a percentage of lipid-bound sialic acid and by cytofluorimetric analysis in 25 AIDS patients, 20 anti-HIV+ asymptomatic subjects, 25 patients with different viral disease, and 25 healthy donors. GM3 distribution was analyzed by immunofluorescence and immunoelectron microscopy. A follow-up study to detect anti-lymphocytic GM3 antibodies was performed in progressive and nonprogressive anti-HIV+ subjects. Lymphocytes from HIV-infected patients showed a significant increase of plasma membrane GM3 content; no difference was found between CD4+ and CD8+ cells. Immunofluorescence and immunoelectron microscopic analysis showed that GM3 was distributed in large clusters over the cell plasma membrane. The follow-up study revealed that the occurrence of anti-lymphocytic GM3 antibodies was significantly higher in patients with progressive disease, compared with asymptomatic non-progressive subjects. These findings revealed that (1) the increased GM3 content in HIV-infected patients is detected at the plasma membrane level, (2) GM3 overexpression is able to induce an increased reactivity with anti-GM3 antibodies, and (3) the appearance of anti-lymphocytic GM3 antibodies in asymptomatic anti-HIV+ subjects could have prognostic relevance for the risk of developing AIDS.

Monosialoganglioside GM3 induces CD4 internalization in human peripheral blood T lymphocytes.

Gangliosides modulate the expression of CD4 molecules on the cell surface of T lymphocytes. We report here that treatment of human peripheral blood lymphocytes with exogenous monosialoganglioside GM3 induces a rapid down-modulation of the CD4 molecules on the plasma membrane of CD4+ T lymphocytes, as assessed by cytofluorimetric analysis and quantitative immunoelectron microscopy. The CD4 down-modulation was ganglioside-dose dependent and was already evident after 5 min of treatment, reaching the maximum after 20 min. The expression of other surface antigens was not affected by GM3 treatment. The immunoelectron microscopic analysis showed that, following GM3 addition, gold labelled CD4 molecules were rapidly redistributed on the cell surface, clustered and internalized via endocytic pits and vesicles. These results indicate that CD4 down-modulation induced by GM3 occurs through an endocytic mechanism. A persistent low level of CD4 expression on the cell surface up to 24 h after GM3 treatment, compared with a stable expression of either CD4 in untreated cells and CD3 in GM3-treated cells, suggests intracellular degradation of the internalized CD4 molecules.

Mechanisms of the platelet proaggregating activity of human carcinoma a431 cells.

An unusual mechanism has been demonstrated for the in vitro proaggregating interaction between human platelets and human epidermoid carcinoma A431 cells. A431 cells induce platelet aggregation in a dodependent manner, depending on the rate of ADP release from tumour cells, which occurs in the presence not only of platelet rich plasma (PRP) but also of platelet poor plasma (PPP) or serum. This ADP release appears to be correlated to C(3) cleavage and binding of C(3c) to the A431 cell membrane. The interaction between A431 cells and PRP is characterized by typical morphological changes of A431 cells, leading to formation of mixed aggregates showing long projections of tumour cells deeply penetrating into the aggregate. These features, lacking in the presence of gel-filtered platelets (GFP), and reduced in the presence of thrombin degranulated platelets (TDP), are inhibited by cytochalasin and RGDS. The same activation of A431 cell cytoskeleton is induced by PDGF, but not by ADP or thromboxane receptor agonist U46619 or TGFP. These findings suggest a cooperative mechanism of tumour cell platelet interaction, in which a complementdependent ADP release from A431 cells induces platelet degranulation, PDGF release and aggregation. PDGF may induce in A431 cells Ca(2+) influx, cytoskeleton activation and changes in exposition of surface adhesion molecules, while fibrinogen binding causes mixed tumour cell-platelet aggregates to form.

Patching and capping of LFA-1 molecules on human lymphocytes.

The distribution and dynamics of LFA-1 molecules over the surface of human lymphocytes were analysed using immunogold label-fracture and fracture-flip methods. Patching and capping were induced by incubation at 37 degrees C with antibodies directed against the alpha and beta chains respectively of the heterodimeric LFA-1 molecule, and were followed by immunofluorescence. Treatment with 12-O-tetradecanoylphorbol-13-acetate (TPA) to link LFA-1 molecules to the cytoskeleton increased the percentage of capped cells, implying a faster and more efficient process of capping. At all times of clustering or upon phorbol ester treatment, the concentration of LFA-1 in patches and then in caps was not accompanied by a parallel concentration of membrane particles on the freeze-fractured plasma membranes. Our results support the role of the cytoskeleton in regulating the capping phenomenon and in controlling the structural organization of the plasma membranes.