The ganglioside GM1 enhances microtubule networks and changes the morphology of Neuro-2a cells in vitro by altering the distribution of MAP2.

The effect of ganglioside GM1 on components of the neuronal cytoskeleton was studied in Neuro-2a neuroblastoma cells using immunofluorescent, immunogold-labeled, and Western-blot analysis. Exposure of cells to GM1 for 24 h resulted in an increased microtubular network and level of tubulin, a redistribution of MAP2 immunoreactivity from perikarya to distal neuritic processes, and an increased MAP2 gold label in the subplasmalemmal cytoplasm, neuritic spines, and growth cones. A similar change in the distribution of actin-positive fluorescent immunoreactivity was observed. In contrast to the redistribution of MAP2, immunolocalization of MAP5 and tau did not change following 24 h GM1 exposure. Our results suggest that gangliosides enhance neuritogenesis by selectively altering the distribution of MAP2 from perikaryon to neuritic spines. Furthermore, the enhanced presence of MAP2 in regions known to be rich in microfilaments following GM1 treatment suggests that an interaction of MAP2 with microfilaments may be necessary for early neurite formation.

Extraction of proteins within ultrathin-layer polyacrylamide electrophoresis (SDS-PAGE) and isoelectric focusing (PAGIF) of cryostat sections and tissue culture specimens.

Separations on a micro- and ultramicroscale by electrophoresis and isoelectric focusing of protein quantities between 10(-6) and 10(-12) g have notable interest, particularly in cytology and histology. We performed the methods of ultrathin-layer polyacrylamide horizontal electrophoresis, isoelectric focusing and protein mapping with some modifications in order to study protein extraction and applied them for cryostat sectioned muscle tissues and singular dorsal root ganglia of the chicken in tissue culture. Further we established an extraction chamber for histological specimens. The basis for ultrathin-layer electrophoresis is the ultrathin (0.12 mm-0.36 mm) polyacrylamide gel on glass plates or microscopic slides. This method allows a considerable reduction of the amount of proteins at the range of 10(-9) g and is thus appropriate for direct extraction of proteins within electrophoresis (10 min, 5 mA 200 V) or isoelectric focusing (10 min, 10 mA, 500 V) of cryostat-sections (7-20 micron thickness) or tissue culture specimens. The advantages of these techniques for extraction of soluble proteins in immunohistochemistry as well as for handling to obtain optimal resolution (compared with electrophoresis of conventional extracted proteins) will be demonstrated.

Neutral proteinases in muscle tissue and cells.

Chymase isolated from rat skeletal muscle tissue was compared with other proteinases in rat muscle that hydrolyse chymase substrates. These enzymes were purified from the 100,000 x g supernatant of hind limb rat muscles homogenized with 0.15 M NaCl-20 mM phosphate buffer, pH 7.2. A metallproteinase (MMP-7-ase) and a serine proteinase (ATN-ase) were partially characterized, and shown to be different from chymase.

Neuritogenic and metabolic effects of individual gangliosides and their interaction with nerve growth factor in cultures of neuroblastoma and pheochromocytoma.

The 4 major ganglioside species, GM1, GD1a, GD1b and GT1b (200 micrograms/ml), were tested individually for the ability to stimulate neuronal trophic responses. The growth parameters measured were: morphologic changes, quantitated by computer-assisted morphometry of neurite length and number per soma, and metabolic changes, indicated by alterations in ornithine decarboxylase activity (ODC). In addition, the interaction of each ganglioside with nerve growth factor (NGF) was investigated with an NGF-responsive pheochromocytoma PC12 cell line and NGF-insensitive neuroblastoma Neuro-2a cultures. PC12 cells responded to gangliosides only in the presence of NGF (20 micrograms/ml): GM1 produced the greatest morphologic response, but did not alter metabolic levels; GT1b increased both parameters. The presence (5 micrograms/ml) or absence of NGF did not have an effect on the ganglioside-mediated morphologic responses of Neuro-2a cells to each species: GD1b elicited the greatest increase in neurite length, while GD1a and GT1b stimulated both length and number. In contrast, while GT1b alone was able to elevate ODC activity independently of NGF, the simultaneous exposure of Neuro-2a cultures to NGF and GM1 or GD1a resulted in a stimulation of cellular metabolism. These results indicate that each ganglioside species has a specific target action in the stimulation of different trophic responses and that performance in one category is not a predictor of the result in another. In addition, it is possible to confer a sensitivity to NGF by simultaneous treatment with specific gangliosides. This indicates that membrane gangliosides may modulate the actions of neurotrophic factors.

Ganglioside induced surface activity and neurite formation of Neuro-2a neuroblastoma cells.

These studies demonstrate that while microtubules are essential for BBG-mediated neurite initiation and elongation, they are not involved in microfilament-dependent ganglioside-mediated surface activity. Microfilaments may be more directly altered by exogenous gangliosides than microtubules since they are the major structural elements of microvilli and are required for neurite branching. Our studies suggest that normal neuritogenesis requires a delicately balanced interaction between various cytoskeletal elements. Since there is a close relationship between membrane-associated lipid molecules and submembranous cytoskeletal elements, the incorporation of gangliosides into membranes may alter this balance and result in neurite formation. The use of gangliosides to enhance neurite production provides a unique model for the study of nerve development. We have shown that bovine brain gangliosides stimulate an immediate sequence of surface-related changes as well as microtubule and microfilament dependent neurite formation in Neuro-2a cells. However, the precise molecular events by which gangliosides enhance neuritogenesis await further study.

Ganglioside-induced neuritogenesis: verification that gangliosides are the active agents, and comparison of molecular species.

Gangliosides were previously reported to induce neuritogenesis in primary neuronal cultures and in some neurally derived cell lines. Because isolated gangliosides usually contain variable quantities of peptides, we investigated the possibility that neurite-stimulating activity could be caused by these contaminants. Ganglioside preparations from bovine brain and other sources were subjected to a three-step purification procedure that eliminated at least 95% of the contaminating peptides. These purified preparations retained their capacity to induce extensive neurite growth in neuro-2A murine neuroblastoma. Proteolytic digestion and a number of additional procedures were used to reduce residual contamination further without loss of activity. Several crude ganglioside samples had negative effects on neurite development until freed of their inhibitory factors, which were derived from the tissue and/or introduced during laboratory operations. This was particularly evident for bovine white matter gangliosides whose activity increased in proportion to peptide removal. When carefully purified, virtually all of 11 different gangliosides tested were highly active, with the possible exception of GM4, which demonstrated only moderate activity in a limited number of tests. All of the neutral glycolipids tested, as well as sulfatides and free sialic acid, were inactive.

Immunohistochemical localization of troponin-C in cultured neurons.

Our previous immunofluorescence studies on neurons have demonstrated the presence of myosin in regions of neurons which contained actin. To determine if a system similar to the troponin complex of striated muscle is present in neurons, antibody shown to be specific for the calcium-binding component of troponin (troponin-C) was applied to cultures of embryonic chick and rat dorsal root ganglia. Neurites treated with anti-troponin-C exhibited a bright fluorescence. Accompanying non-neuronal cells were less reactive than the neuronal elements. Immunodiffusion and immunofluorescence showed that the anti-troponin-C did not react with calmodulin, whereas homogenates of the ganglia elicited a positive immunochemical reaction with the anti-troponin-C in Ouchterlony tests. Our results suggest that some intra-axonal movements may be generated by the interaction of actin and myosin and controlled in part by a calcium-troponin-C-dependent mechanism.

Ganglioside stimulation of axonal sprouting in vitro.

Bovine brain gangliosides were applied to primary and established neuronal cultures to examine the role of gangliosides in neuronal development. Media containing gangliosides enhanced the degree of axonal elongation exhibited by sensory ganglia neurons and increased the length and number of Neuro-2a neuroblastoma cell processes. Ganglioside-supplemented media caused a twofold increase in ornithine decarboxylase activity in both culture systems. These experiments suggest that gangliosides function as acceptor molecules for growth-promoting substances in embryonic and tumor-derived neurons.

Lysosomes and proteolytic enzyme activities in cultured striated muscle cells.

Primary cell cultures prepared from chick embryonic skeletal muscle and the rat myogenic line L6 were examined morphologically and biochemically during several stages of development. The L6 cells were cultured to provide three morphologically distinct populations: prefusion, postfusion, and a subclone of cells that did not fuse even at high density. Ultrastructural studies revealed the characteristic morphology of healthy myoblasts. Acridine orange staining and cytochemical localization of acid phosphatase suggest the presence of presumptive lysosomal material. Enzymatic studies of lysosomal cathepsins B, D, H, and L revealed unusually high enzyme specific activities in these homogeneous myoblast populations. No activity was detected for the two nonlysosomal enzymes Ca2+-proteinase and serine proteinase. It is suggested that the lysosomal apparatus and its complement of enzymes play a significant role in the differentiation of muscle myotubes.

Properties of the lysosomal apparatus during differentiation of cultured striated muscle cells.

A technique for the preparation of relatively pure myoblasts from chick primary culture is described. Cultured rat myogenic cells (L6) were plated and grown to provide three morphologically distinct cell populations: perfusion, postfusion, and nonfusion. Homogenates of L6 cells demonstrated two major peaks of proteolytic activity at pH 3.0 and 5.5. The activity could be partially inhibited by leupeptin or pepstatin. Differential centrifugation indicated significant acid hydrolase activity in the "H" fraction of prefused cells, which shifted to the "L" fraction after fusion of the cells. Two populations of lysosomes were resolved in the myoblasts and myotubes after isopycnic centrifugation in Percoll. The equilibrium densities were 1.044 and 1.060-1.068. Cells were incubated with several protease inhibitors. Only chloroquine caused a large inhibition of protein degradation.