Chromogranin A (CGA) belongs to a multifunctional protein family widely distributed in secretory vesicles in neurons and neuroendocrine cells. Within the brain, CGA is localized in neurodegenerative areas associated with reactive microglia. By using cultured rodent microglia, we recently described that CGA induces an activated phenotype and the generation of nitric oxide. These findings led us to examine whether CGA might affect neuronal survival, expression of neurofilaments, and high affinity ␥-aminobutyric acid uptake in neurons cultured in the presence or absence of microglial cells. We found that CGA was unable to exert a direct toxic effect on neurons but provoked neuronal injury and degeneration in the presence of microglial cells. These effects were observed with natural and recombinant CGA and with a recombinant N-terminal fragment corresponding to residues 1-78. CGA stimulated microglial cells to secrete heat-stable diffusible neurotoxic agents. CGA also induced a marked accumulation of nitric oxide and tumor necrosis factor-␣ by microglia, but we could not establish a direct correlation between the levels of nitric oxide and tumor necrosis factor-␣ and the neuronal damage. The possibility that CGA represents an endogenous factor that triggers the microglial responses responsible for the pathogenesis of neuronal degeneration is discussed.
We have employed amoeboid microglia purified from primary cultures of neonatal rat brain to examine the effect of bacterial lipopolysaccharide (LPS), a potent activator of immune cells, on intracellular calcium concentration ([Ca2+]i) in brain macrophages. In single brain macrophages loaded with indo 1, pulse administration of LPS elicited a rapid and transient increase in [Ca2+]i. From a total of 70 cells examined, all responded to LPS with a similar [Ca2+]i transient, indicating a good homogeneity of the cell population with regard to the LPS response. It was concluded that the rise of cytosolic [Ca2+]i originated from intracellular stores because the response to LPS occurred similarly in the presence or in the absence of extracellular Ca2+. A second administration of LPS to the same cells resulted in a second but reduced [Ca2+]i transient. In contrast to the first response to LPS, this second response was totally dependent on the presence of Ca2+ in the extracellular medium. The first response to LPS was strongly inhibited by ruthenium red and could be suppressed in a reversible manner by preincubating the cells with caffeine in the absence of Ca2+ in the extracellular medium. These results indicate that caffeine-sensitive intracellular Ca2+ stores may be the major source of Ca2+ in the response of brain macrophages to LPS. The possible release of Ca2+ from phosphatidylinositol(3,4,5)-trisphosphate (IP3)-sensitive stores in brain macrophages was also evaluated by stimulating cells with the IP3-mobilizing agonist histamine. Brain macrophages were heterogeneous with regard to the histamine response since histamine induced a [Ca2+]i rise in only 30% of cells examined.(ABSTRACT TRUNCATED AT 250 WORDS)
The neurotoxic effects of activated microglia in neurodegenerative diseases are well established. We recently provided evidence that chromogranin A (CGA), a multifunctional protein localized in dystrophic neurites and in senile plaques, induces an activated phenotype and secretion of neurotoxins by rat microglia in culture. In the present study, we focused on the mechanisms underlying neuronal degeneration triggered by CGAactivated microglia. We found that neuronal death exhibits apoptotic features, characterized by the externalization of phosphatidylserine and the fragmentation of DNA. Microglial neurotoxins markedly stimulate the phosphorylation and activity of neuronal p38 mitogenactivated protein kinase and provoke the release of mitochondrial cytochrome c, which precedes apoptosis. Inhibition of p38 kinase with SB 203580 partially protects neurons from death induced by CGA-activated microglia. Furthermore, neurons are also protected by Fas-Fc, which antagonizes the interactions between the death receptor Fas and its ligand FasL and by cell-permeable peptides that inhibit caspases 8 and 3. Thus, CGA triggers the release of microglial neurotoxins that mobilize several death-signaling pathways in neurons. Our results further support the idea that CGA, which is upregulated in many neuropathologies, represents a potent endogeneous inflammatory factor possibly responsible for neuronal degeneration.
Our study shows that antibodies, specific to the ADP/ATP carrier of the inner mitochondrial membrane, crossreact with the cell surface of cardiac myocytes, where the calcium channel seems to be the antigenic determinant. The antibodies enhanced the calcium current and suppressed its inactivation. Affinity-purified antibodies (IgG) exhibit an acute cytotoxic effect, which required extracellular calcium and was prevented by calcium channel blockers. Our findings suggest that antibody-mediated cytotoxicity results secondary to calcium overload caused by enhanced cellular calcium permeability, requiring no complement-dependent process.
The inflammatory response in prion diseases is dominated by microglial activation. As macrophages of the central nervous system, the phagocytic capacity of microglia is well recognized, and it is possible that microglia are involved in the removal and processing of amyloid fibrils, thus preventing their harmful effect. We have analyzed the effects of a synthetic peptide of the human prion protein, PrP(106-126), which can form fibrils, and the pathogenic form of prion protein, PrPsc, on phagocytosis in microglia isolated from neonatal rat brain cultures. To some extent, fibrillar PrP(106-126) is internalized and processed. However, both synthetic prion peptide PrP(106-126) in a fibrillar form and pathogenic prion protein PrPsc severely hamper the phagocytic activity as measured by the uptake of beads by microglia. At a concentration that does not induce microglial death, PrP(106-126) reduced the number of beads internalized and altered their cytoplasmic distribution. This effect was not due to decreased binding of beads to the cell surface, nor restricted to specific classes of receptors. Although the PrP(106-126) did not prevent F-actin and Rac1 accumulation at sites of particle engulfment, it appeared to interfere with a later step of the internalization process.
The organization of intermediate filaments (IF) and microtubules (MT) and the solubility of intermediate filament proteins and tubulin in astrocytes which develop from cerebral hemispheres of neonatal rats in culture were examined using immunocytochemical and immunochemical approaches. Results of immunocytochemical studies demonstrated that in flat astrocytes which develop after 3 weeks of culturing in serum-supplemented medium, the IF containing vimentin and glial fibrillary acidic protein (GFAP) are concentrated around the nucleus and dispersed in an irregular fashion throughout the cytoplasm. Astrocytes which develop in serum-free hormonally-defined medium irrespective of whether they are bipolar, multipolar or flattened, have IF organized as a fibrous network of filaments distributed from the nuclear regions to the cell periphery. Under both culture conditions, vimentin and GFAP are resistant to extraction with low salt buffer containing nonionic detergent, indicating that the different cytoplasmic distribution of IF is unrelated to the solubility properties of vimentin and GFAP. Double immunolabelling experiments with polyclonal antibody to GFAP and monoclonal antibody to each alpha-tubulin or beta-tubulin reveal an extensive codistribution and parallel organization of IF and MT in all morphological types of astrocytes studied. Stabilization of MT with taxol, or depolymerization of MT with colchicine, cause dramatic changes in the distribution of IF and inhibit the extension of astrocyte processes in response to dibutyryl cyclic AMP (dBcAMP). In early stages of treatment with dBcAMP, renewal of culture medium without dBcAMP produces a rapid and permanent retraction of astrocyte processes, whereas in later stages the processes only retract partially and are then restored and maintained for several days in the absence of dBcAMP. The retraction of processes is accompanied by changes of immunocytochemical staining of IF with antibody to GFAP, which appears more intense and diffuse. However, electrophoretic and immunoblot analyses of detergent-extracted proteins from parallel cultures demonstrate that neither the amount nor the solubility of GFAP and vimentin are changed. Detergent extraction in MT stabilizing conditions shows that a substantial proportion of tubulin in astrocytes cultured in serum-containing and serum-free media is assembled into MT, most of which depolymerize on treatment with low temperature and Ca2+. Following long exposure to dBcAMP the proportion of cold/Ca2+-stable MT increases. The results suggest that the IF of astrocytes in culture are dependent on MT with respect to their cytoplasmic distribution.(ABSTRACT TRUNCATED AT 400 WORDS)
The proliferation and morphology of astroglia derived from neonatal rat cortex and cultured in serum-free medium on either untreated, or fibronectin-, or collagen I-, or collagen IV-treated substrates were investigated using tritiated thymidine autoradiography and immunocytochemical staining of glial fibrillary acidic protein (GFAP) and actin. Modification of culture substratum with fibronectin enhanced the rate of proliferation of astroglial cells and increased the proportion of process-bearing astroglial cells. The distribution of actin and patterns of adhesion observed were typical for motile cells. Both types of collagen decreased the proportion of astroglial cells undergoing mitosis. Many of the astroglial cells exhibited a flat morphology and displayed prominent stress fibres in the cell body and processes. The data suggest that specific interactions with the substratum modulate the proliferation and morphological behaviour of astroglial cells.
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