In vitro polymerization of glial fibrillary acidic (GFA) protein extracted from multiple sclerosis (MS) brain

Aqueous extracts of multiple sclerosis plaques were used for reaggregation studies of filamentous proteins. Filament formation as observed by electron microscopy was dependent on temperature, pH, and energy. The major protein component in the filaments had chemical and immunological properties of the glial fibrillary acidic protein.     

Immuno gold staining (IGS) for electron microscopical demonstration of glial fibrillary acidic (GFA) protein in LR white embedded tissue

Post-embedding immunocytochemical staining methods using gold have so far failed to label intermediate filament antigens in situ in epon or araldite embedded tissue. We have now applied the post-embedding immuno gold staining (IGS) technique for LR White embedded tissue. Glial fibrillary acidic (GFA) protein immunoreactivity was clearly demonstrated electron microscopically on astrocytic filaments of rat cerebellum in situ.     

Immuno gold staining (IGS) for electron microscopical demonstration of glial fibrillary acidic (GFA) protein in LR White embedded tissue

Summary Post-embedding immunocytochemical staining methods using gold have so far failed to label intermediate filament antigens in situ in epon or araldite embedded tisue. We have now applied the post-embedding immuno gold staining (IGS) technique for LR White embedded tissue. Glial fibrillary acidic (GFA) protein immunoreactivity was clearly demonstrated electron microscopically on astrocytie filaments of rat cerebellum in situ.Abbreviations BSA Bovine serum albumin - DAB 3,3-diaminobenzidine - GAM G10 Goat anti-mouse IgG gold particle size 10 nm - GFAP Glial fibrillary acidic (GFA) protein - IGS Immuno gold staining - PBS Phosphate buffered saline - TRITC Tetramethylrhodamine isothiocyanate     

胶质原纤维酸性蛋白的研究进展

星形胶质细胞（astrocyte,AS)约占正常成人中枢神经系统（central nervous system,CNS)细胞总数的40％,其重要功能日益受到重视,AS可特异性表达胶质原纤维酸性蛋白（glial fibrillary acidic protein,GFAP).GFAP是AS骨架蛋白特有的成分,可作为AS的特异性标记物,本文主要从分子生物学角度,就GFAP在复杂的细胞活动（如细胞骨架重建,髓鞘维持,细胞粘附和信号转导途径等）中的广泛作用,及GFAP转基因动物研究等做一综述。     

Monoclonal antibodies specific for glial fibrillary acidic (GFA) protein and for each of the neurofilament triplet polypeptides

Abstract. A panel of 10 mouse monoclonal antibodies specific for glial fibrillary acidic protein (GFA) has been isolated using porcine GFA as antigen. Although all antibodies recognize GFA purified from porcine spinal cord in the western blot technique, they can be subdivided into at least three groups on the basis of their reactivity against defined fragments of the molecule. Immunofluorescence staining patterns with the monoclonal antibodies performed on tissues and cell lines resemble those reported with conventional polyclonal antibodies directed against GFA. In particular astrocytes and Bergmann glia are strongly stained. In addition mouse monoclonal antibodies specific for either the 200 kd, or the 160 kd, or the 68 kd neurofilament triplet protein have been isolated and characterized. These antibodies are specific for neuronal cells and support conclusions made with similar antigen affinity-purified polyclonal antibodies. The combined set of monoclonal antibodies seems a valuable tool to characterize the different cell types of the nervous system.     

Monoclonal antibodies specific for glial fibrillary acidic (GFA) protein and for each of the neurofilament triplet polypeptides

A panel of 10 mouse monoclonal antibodies specific for glial fibrillary acidic protein (GFA) has been isolated using porcine GFA as antigen. Although all antibodies recognize GFA purified from porcine spinal cord in the western blot technique, they can be subdivided into at least three groups on the basis of their reactivity against defined fragments of the molecule. Immunofluorescence staining patterns with the monoclonal antibodies performed on tissues and cell lines resemble those reported with conventional polyclonal antibodies directed against GFA. In particular astrocytes and Bergmann glia are strongly stained. In addition mouse monoclonal antibodies specific for either the 200 kd, or the 160 kd, or the 68 kd neurofilament triplet protein have been isolated and characterized. These antibodies are specific for neuronal cells and support conclusions made with similar antigen affinity-purified polyclonal antibodies. The combined set of monoclonal antibodies seems a valuable tool to characterize the different cell types of the nervous system.     

Demonstration of glial fibrillary acidic (GFA) protein by electron immunocytochemistry in the granular cells of a choristoma of the neurohypophysis

Summary The origin of the nests of granular cells comprising choristomas of the infundibular process and the stalk of the pituitary gland is controversial. Using electron microscopic immunocytochemistry, the astrocytic marker, glial fibrillary acid protein (GFAP), has been demonstrated diffusely in the cytoplasm of some of the granular cells, but not within the granules or cellular organelles of some of the granular cells. Cytoplasmic filaments were not detected in these granular cells, but cells with abundant filaments extended processes between the granular cells. These filament-rich cells stained much more intensely for GFAP than the positively staining granular cells. The expression of GFAP by the granular cells and the filament-containing cells between them in the pituitary implies an astrocytic origin for both cell types, but the absence of filaments in the granular cells suggests that the GFAP is in an unpolymerized (soluble) form. The granular cell is likely to represent a transitional cell type of astrocytic origin in which the glial filaments have undergone partial or complete degradation.     

Cell-free synthesis of glial fibrillary acidic protein

Glial fibrillary acidic (GFA) protein has been synthesized in an RNA-dependent cell-free system derived from rabbit reticulocytes. The cell-free synthesized product appears to have the same size as GFA protein isolated from bovine spinal cord, thus showing that GFA protein does not undergo detectable proteolytic processing.     

Demonstration of glial fibrillary acidic (GFA) protein by electron immunocytochemistry in the granular cells of a choristoma of the neurohypophysis

The origin of the nests of granular cells comprising choristomas of the infundibular process and the stalk of the pituitary gland is controversial. Using electron microscopic immunocytochemistry, the astrocytic marker, glial fibrillary acid protein (GFAP), has been demonstrated diffusely in the cytoplasm of some of the granular cells, but not within the granules or cellular organelles of some of the granular cells. Cytoplasmic filaments were not detected in these granular cells, but cells with abundant filaments extended processes between the granular cells. These filament-rich cells stained much more intensely for GFAP than the positively staining granular cells. The expression of GFAP by the granular cells and the filament-containing cells between them in the pituitary implies an astrocytic origin for both cell types, but the absence of filaments in the granular cells suggests that the GFAP is in an unpolymerized (soluble) form. The granular cell is likely to represent a transitional cell type of astrocytic origin in which the glial filaments have undergone partial or complete degradation.     

Differential immunocytochemical staining for glial fibrillary acidic (GFA) protein,S-100 protein and glutamine synthetase in the rat subcommissural organ,nonspecialized ventricular ependyma and adjacent neuropil

Summary Antibodies raised against glial fibrillary acidic protein (GFA), S-100 protein (S100) and glutamine synthetase (GS) are currently used as glial markers. The distribution of GFA, S100 and GS in the ependyma of the rat subcommissural organ (SCO), as well as in the adjacent nonspecialized ventricular ependyma and neuropil of the periaqueductal grey matter, was studied by use of the immunocytochemical peroxidase-antiperoxidase technique. In the neuropil, GFA, S100 and GS were found in glial elements, i.e., in fibrous (GFA, S100) and protoplasmic astrocytes (S100, GS). The presence of S100 in the majority of the ventricular ependymal cells and tanycytes, and the presence of GFA in a limited number of ventricular ependymal cells and tanycytes confirm the glial nature of these cells. The absence of S100, GFA and GS from the ependymocytes of the SCO, which are considered to be modified ependymal cells, suggests either a non-astrocytic lineage of these cells or an extreme specialization of the SCO-cells as glycoprotein-synthesizing and secreting elements, a process that may have led to the disappearance of the glial markers.     

High ammonia diet: Its effect on the glial fibrillary acidic protein (GFAP)

The effect of a recent hyperammonemic model, consisting of a high ammonia diet for 3, 7, 15, 45, and 90 days, on glial fibrillary acidic protein (GFAP) in the rat spinal cord and on blood ammonia levels has been studied. The high ammonia diet was prepared by mixing a standard diet with ammonium acetate (20% wt/wt); in addition, 5 mM of ammonium acetate was added to the water supply. GFAP contents were determined by means of immunoblotting analysis. The results demonstrated that this high ammonia diet model neither induces significant changes in GFAP immunoreactivity, nor modifies total protein concentration, and only induces significant blood hyperammonemic levels in the first days of treatment. An adaptative response to the diet is suggested and discussed to explain these results. A relation between ammonia and GFAP expression is suggested because transient hyperammonemia induces transient, although no significant, changes on GFAP expression.     

Formation of 100 A filaments from purified glial fibrillary acidic protein in vitro.

Glial fibrillary acidic protein, which is specific to astroglia in the central nervous system, polymerizes in vitro into filaments similar to native ~ 100 Å filaments. Following purification from aqueous extracts of bovine brain by immunoaffinity chromatography, GFA ² protein is highly soluble in very low ionic strength solutions. Sedimentation equilibrium analysis of protein solutions in prefilament solvent conditions (2 mm-Tris · HCl, pH 7.8, 20 °C, containing 0.5 mm-dithiothreitol) indicates a paucidisperse mixture of species in solution with a typical range of apparent weight-average molecular weights from about 186,000 to 227,000. Between pH 6.0 and 8.0 the solubility is a function of pH and ionic strength as well as temperature, and precipitation is favored by lowering the pH or temperature and by raising the ionic strength. GFA protein associates in the form of filaments over a narrow range of pH and ionic strength; optimal conditions for polymerization of a 0.1 mg/ml protein solution are 100 mm-imidazole-HCl buffer (pH 6.8), at a temperature of 37 °C, and there is no requirement for co-factors. Filaments appear primarily as tangles of smooth curvilinear structures approximately 100 Å in diameter and of indefinite length, although some lateral association of filaments into thick bundles is also observed. While the formation of filaments is not affected by the presence or absence of reducing agent, under oxidizing conditions disulfide linkages form between protein subunits. Disassembly is achieved by dialysis against 2 mm-Tris · HCl buffer (pH 8.5), but this process is significantly enhanced by the addition of 0.5 mM-dithiothreitol during assembly and disassembly.These experiments clarify the role of GFA protein as the subunit of astroglialspecific intermediate filaments. In addition, they suggest that the 100 Å filament, as other components of the cytoskeleton, may assemble and disassemble in the glial cytoplasm.     

Expression of myelin basic protein and glial fibrillary acidic protein genes in human glial tumors

Analysis of the expression of genes encoding myelin basic protein (MBP) and glial fibrillary acidic protein (GFAP) in human glial tumors was carried out for determination of the expression specificity of these genes according to tumor types and their malignancy. Low levels of MBP mRNA in astrocytoma specimens of malignancy grades II-IV and significantly higher levels in perifocal zones adjacent to them have been determined by Northern hybridization. Diffuse astrocytomas and anaplastic astrocytomas are characterized mostly by a low level of MBP gene expression and high level of GFAP gene expression, but distinct subtypes of diffuse and anaplastic astrocytomas with a high level of GFAP gene expression can also be detected that may be the reflection of different oncogenic pathways. Very low levels or even absence of MBP mRNA were revealed in oligodendroglioma and all oligoastrocytomas. Thus, Northern hybridization data are correlated with serial analysis of gene expression (SAGE). Obtained results show that MBP is a nonspecific marker for tumors of oligodendroglial origin, but determination of relative levels of MBP and GFAP mRNAs may be useful for glial tumor recognition. In such a way, these two genes together with YKL-40 and TSC-22, which we found previously, can be included into the gene panel for determination of so-called “gene signatures” of brain tumors. However, strict requirements in relation to a clinical value of these “gene signatures” cannot be formulated without verifying them on a large number of clinical samples of tumors and valid control.     

Sexual dimorphism of glial fibrillary acidic protein (GFAP) immunoreactivity in the rat interpeduncular nucleus

The intensity of immunostaining for the glial fibrillary acidic protein (GFAP) is outstandingly high in the interpeduncular nucleus. This nucleus was compared in males and females for its GFAP immunoreaction. Immunohistochemistry was carried out on free floating vibratome slices and evaluated by surface densitometry. While in males the reactions were similar, females showed individual variations. Since the interpeduncular nucleus is a hormonally inactive brain area where gonadal hormones do not induce plastic synaptic changes, it is concluded that concerning this astroglial marker a sexual dimorphism exists also outside the "endocrine brain".     

Purification of the glial fibrillary acidic protein by anion-exchange chromatography

A procedure for the isolation of assembly-competent glial fibrillary acidic (GFA) protein from 2 m urea extracts of bovine spinal cord by anion-exchange chromatography is reported. The tissue was previously extracted with low-ionic-strength buffer. The procedure allowed the separation of nondegraded GFA protein from GFA protein comprising degraded species. As previously reported for neurofilament preparations obtained from porcine spinal cord (N. Geisler and K. Weber, J. Mol. Biol., 151, 565–571 (1981)), the procedure also allowed the simultaneous separation of the three neurofilament polypeptides (200,000; 150,000; and 70,000 daltons) contained in the 2 m urea extract. Brain filament proteins sequentially eluted at increasing salt concentration (25–200 mm NaCl) according to their isoelectric point. Proteins with higher pI eluted first. Tubulin eluted between the 200,000- and 150,000-dalton neurofilament polypeptides.     

Immunohistochemical localization of glial fibrillary acidic protein (GFAP) in rat pineal stalk astrocytes.

In the present work, the presence and distribution of astrocytes in the rat pineal stalk is investigated applying an immunohistochemical technique for the demonstration of glial fibrillary acidic protein (GFAP) on Epon-embedded semithin sections (0.5 micron thick). GFAP-immunoreactive cells are evenly and regularly distributed along the entire pineal stalk. The GFAP-immunoreactive cells display a stellate shape showing variable numbers of cell processes that are mainly oriented parallel to the longitudinal stalk axis. Astrocytic processes show a clear tendency to encircle the remaining elements of the pineal stalk; i.e., pinealocytes, nerve fibres and blood vessels. Furthermore, glial processes form a cover layer separating the stalk from surrounding anatomical structures.     

Seasonal fluctuations of glial fibrillary acidic protein (GFAP) immunoreactivity in the rat suprachiasmatic nucleus

The pacemaker of the "biological clock", the suprachiasmatic nucleus (SCN) of the hypothalamus was studied in intact male rats for glial fibrillary acidic protein (GFAP) a specific marker for astrocytes. Immunohistochemical reactions were carried out in winter (January-February) and in summer (June-July). In winter the GFAP-immunoreactivity of the SCN was found low whereas in summer it was high. Gonadectomy reduced differences. Since photic stimuli that apparently trigger the observed differences reach the SCN through identified neuronal pathways we conluded that the reaction of astrocytes is an indicator of seasonally altered neuronal function in the SCN.     

Targeting malignant gliomas with a glial fibrillary acidic protein (GFAP)-selective oncolytic adenovirus

Glial fibrillary acidic protein (GFAP) is an intermediate filament protein abundantly expressed in malignant gliomas. We have constructed a novel oncolytic adenovirus, Ad5-gfa2(B)3-E1, for treatment of these tumors. In this construct, the E1 region is under control of the tissue-specific GFAP promoter (gfa2) with three additional copies of the glial specific 'B' enhancer. Infection of a GFAP-positive cell line with Ad5-gfa2(B)3-E1 resulted in E1A and E1B expression at 75% and 30% of the levels obtained after wtAd5 infection. Q-PCR showed that Ad5-gfa2(B)3-E1 replicated 4.5 times more efficiently in the GFAP-positive than in the GFAP-negative cell lines. Cell viability assays showed efficient elimination of GFAP-positive cells by Ad5-gfa2(B)3-E1, in some cell lines as efficiently as wtAd5, while the elimination was attenuated in GFAP-negative cell lines. When tested in human tumor xenografts in nude mice, Ad5-gfa2(B)3-E1 effectively suppressed the growth of GFAP-positive SNB-19 glial tumors but not of GFAP-negative A549 lung tumors. In Ad5-gfa2(B)3-E1, the E3 region was deleted to create space for future insertion of heterologous therapeutic genes. Experiments with dl7001, an E3-deleted variant of wtAd5, confirmed that the specificity of Ad5-gfa2(B)3-E1 replication was based on the promoter driving E1 and not on the E3 deletion. Strategies to further improve the efficacy of Ad5-gfa2(B)3-E1 for the treatment of malignant gliomas include the insertion of therapeutic genes in E3 or retargeting to receptors that are more abundantly expressed on primary glioma cells than CAR.     

Specificity of the glial fibrillary acidic protein for astroglia.

Glial fibrillary acidic protein (GFA) is the main constituent of glial filaments and the close similarity of GFA and neurofilament protein has been recently reported. However, the immunofluorescence staining of peripheral nerve which may be observed with GFA antisera is not due to cross-reaction between GFA and neurofilament protein. Staining of peripheral axons was also observed with control sera obtained by injecting the rabbits with nonimmunogenic GFA preparations isolated with the same procedure. Immune GFA antisera and control sera reacted with sodium dodecyl sulfate extracts of sciatic nerve. However, the precipitin line formed with peripheral nerve crossed the line against GFA protein, thus indicating nonidentity between the two antigens. Buffer extract of sciatic nerves that had been incubated with spinal cord reacted by immunodiffusion with GFA antisera, thus indicating that redistribution of GFA occurred under these conditions.