Studies on the Biosynthesis of Intermediate Filament Proteins in the Rat CNS

Abstract: The biosynthesis of brain intermediate filament proteins [neurofilament proteins and glial fibrillary acidic protein (GFA)] was studied with cell-free systems containing either rat spinal cord polysomes (free polysomes or rough microsomes) and rabbit reticulocyte factors or wheat germ homogenate containing spinal cord messenger RNA. The products of translation were isoated by immunoaffinity chromatography and then analyzed by two-dimensional gel electrophoresis (2DGE) followed by fluorography. The free polysome population was found to synthesize two neurofilament proteins (MW 145K, p15.4, and MW 70K, pl 5.3) and three isomers of GFA (α, β, and γ) that differ in isoelectric point. Wheat germ homogenate containing messenger RNA extracted from free cord polysomes synthesized two proteins that comigrated with neurofilament protein standards at 145K 5.4 and 70K 5.3; these proteins were partially purified by neurofilament affinity chromatography. The wheat germ system also synthesized the α, β, and γ isomers of GFA as characterized by immunoaffinity chromatographic purification and comigration with standards in 2DGE analysis. Our data are consistent with the conclusion that synthesis of neurofilament proteins requires multiple messenger RNAs. Also, synthesis of intermediate filament proteins occurs in the free polysome population; detectable amounts of these proteins were not synthcsized by the rough microsomes.     

Simultaneous Separation and Purification of Neurofilament and Glial Filament Proteins from Brain

Neurofilaments (NF) and glial filaments (GF) were purified from bovine brain by the axonal flotation method, followed by hydroxylapatite chromatography in 8 M-urea. The proteins were shown to be competent to reassemble into intermediate filaments with removal of the denaturant, and reassembly was used as the final step in the purification of the filament proteins. The reassembly was found to be dependent on ionic strength and pH. This dependence was greater for neurofilaments than for the glial filaments. The NF and GF preparations were found not to be contaminated with each other by their gel electrophoretic profile and their immunological distinctness. The filament proteins can be obtained in high yield, and remain in solution if the urea is removed by dialysis against a low-ionic-strength buffer. Hence, they can provide a source for further biochemical studies.     

Analysis and Comparison of In Vitro Synthesized Glial Fibrillary Acidic Protein with Rat CNS Intermediate Filament Proteins

Intermediate filament (IF) proteins from rat spinal cord were analyzed by two-dimensional gel electrophoresis and compared with the in vitro translation products of a messenger RNA-dependent reticulocyte lysate system stimulated with 16-day-old rat brain polysomes. In two dimensions, the molecular weight 49,000 to 50,000 band of the IF preparation resolved to seven spots, whereas antiserum to glial fibrillary acidic (GFA) protein precipitated only two immediately adjacent radiolabeled in vitro synthesized products, with molecular weights of 49,000 to 50,000. Autoradiographs of two-dimensional gels of extracted IF proteins incubated with iodinated IgG fraction of GFA protein antiserum showed that all seven spots were recognized by the antiserum. These observations suggest that the primary gene product of GFA protein is modified either by post-translational processing or experimental artifact.     

Two Monoclonal Antibodies Recognize Alzheimer''s Neurofibrillary Tangles, Neurofilament, and Microtubule-Associated Proteins

Two monoclonal antibodies that recognize Alzheimer's neurofibrillary tangles (ANTs), AD10 and AB18, have been characterized by immunoblotting against human and calf spinal cord neurofilament (NF) and calf brain microtubule preparations. Both antibodies bind to the 200-kilodalton (kd) (NF-H) and 160-kd (NF-M) but not to the 68-kd (NF-L) NF triplet proteins. They also bind to high-molecular-weight microtubule-associated proteins (MAPs) and tau. AD10 immunostains MAP2 and MAP1 families, whereas AB18 stains mainly MAP1 bands. Preincubation of intact filament preparation or nitrocellulose strips containing electroblotted NF proteins with Escherichia coli alkaline phosphatase completely blocks AD10 binding and partially blocks binding of AB18. These results suggest that the determinants recognized by these antibodies are phosphorylated. Immunoblotting of peptide fragments generated by limited proteolysis of NF proteins with alpha-chymotrypsin and Staphylococcus aureus V8 protease shows that the localization of the antigenic determinants to AD10 and AB18 in NF-H is approximately 100 and 60 kd, respectively, away from the carboxy terminal, a region previously shown to form the NF projection side arm. In NF-M, the antigenic determinants to both antibodies are located also in the projection side arm, in a 60-kd polypeptide adjacent to the alpha-helical filament core. The results show that ANTs contain at least two phosphorylated antigenic sites that are present in NF and MAPs, a finding suggesting that ANTs may be composed of proteins or their fragments with epitopes shared by cytoskeletal proteins.     

The Cytoskeleton of Primary Astrocytes in Culture Contains Actin, Glial Fibrillary Acidic Protein, and the Fibroblast-Type Filament Protein, Vimentin

Abstract: Primary astrocytes were cultured from the forebrains of 1-day-old rats. Immunofluorescence microscopy showed that approximately 80% of the cells were positive for glial fibrillary acidic protein (GFAP) and >80% were stained with an antiserum to the molecular weight 58,000 fibroblast intermediate filament protein (vimentin). Gel electrophoresis of Triton-insoluble cytoskeleton preparations from these cultures revealed three major bands having molecular weights of 58,000, 51,000, and 42,000, together with some prominent lower-molecular-weight species. The protein of molecular weight 51,000 was not present in preparations from fibroblasts. Each of the three major astrocyte proteins was subjected to limited proteolysis, while two of the proteins were cleaved by cyanogen bromide. The electrophoretic peptide patterns of the 58,000 protein were similar to those of vimentin isolated from NIL-8 fibroblasts, and the patterns of the 51,000 protein were similar to those of GFAP isolated from rat spinal cord. The patterns of the protein of molecular weight 42,000 resembled those of muscle actin. Rocket immunoelectrophoresis showed that the 51,000 astrocyte protein reacted with an antiserum to bovine GFAP, but the 58,000 and 42,000 proteins failed to react. We conclude that the major proteins of cytoskeleton preparations from cultured primary astrocytes are vimentin (58,000), GFAP (51,000), and actin (42,000), and that our data show no obvious structural relationship among them.     

Receptor-Mediated Phosphorylation of Astroglial Intermediate Filament Proteins in Cultured Astroglia

Primary cultures of purified astroglia have been shown to exhibit a variety of membrane receptors that regulate intracellular cyclic AMP levels. The experiments described in this paper were completed to examine the effect of such receptor agonists on protein phosphorylation in intact astroglia. An analysis of 32P-labelled proteins derived from whole cell extracts and separated via two-dimensional gel electrophoresis indicated that increasing cyclic AMP levels in astroglia stimulated the phosphorylation of two distinct proteins that had apparent molecular weights/isoelectric points (pI) of 51K/6.0 and 57K/5.7. Similar experiments with cultured meningeal cells indicated that only the 57K/5.7 protein was phosphorylated in response to elevated levels of cyclic AMP. The 51K/6.0 protein was never observed in gels derived from meningeal cells. Immunoblot experiments indicated that the 51K/6.0 protein stained with antiserum to glial fibrillary acidic protein (GFAP) and the 57K/5.7 protein stained with antibodies to vimentin. Concentration-effect studies indicate that these proteins are maximally phosphorylated at concentrations of receptor agonists that only slightly elevate cyclic AMP levels. All receptor agonists that have been shown to increase cyclic AMP levels appear similarly efficacious with respect to increasing the phosphorylation of the two proteins. These experiments suggest that the membrane receptors present on astroglia function, in part, to regulate phosphorylation of the intermediate filament proteins GFAP and vimentin.     

Intermediate filament proteins immunologically related to desmin in astrocytes: A study of chicken spinal cord by two-dimensional gel electrophoresis and immunoblotting

Co-migration experiments by two-dimensional SDS-PAGE using chicken spinal cord extracts and desmin purified from chicken gizzard showed that desmin is not present in spinal cord. However, by the immunoblotting procedure, desmin antibodies recognized 3 spinal cord antigens with different molecular weights and isoelectric points than desmin and the glial fibrillary acidic (GFA) protein. These antigens which also reacted with GFA protein antibodies were not identified in chicken gizzard extracts. The reactivity of the antigens with a monoclonal antibody recognizing an epitope common to most intermediate filament proteins (1) suggests that immunostaining of astrocytes with desmin antibodies (2, 3) is due to the presence of new intermediate filament proteins immunologically related to desmin.Special issue dedicated to Dr. Paola S. Timiras     

Effects of Ionizing Radiation and Aluminum Chloride on Protein of Glial Intermediate Filaments in the Rat Brain

We studied the effects of irradiation with X-rays (the total dose of 0.0129 C/kg was attained over 7, 14, or 21 days), increased entry of Al³⁺ into the organism (0.2% AlCl₃ in drinking water), and the combined influence of these factors for 21 days on the contents of the soluble and filamentous forms of glial fibrillary acidic protein (GFAP) in the tissues of the hippocampus, cerebellum, and neocortex of albino rats. After irradiation for 7 days, a clear trend toward drops in the GFAP contents in the structures under study was observed, while irradiation in the same dose, but for 14 or 21 days, resulted in increases in the contents of both GFAP forms (within a range of 13-29%, as compared with the control). Entry of aluminum chloride with water also resulted in an increase in the GFAP contents in all studied structures; changes in the filamentous form were more intensive. The combined influence of irradiation and Al³⁺ resulted in more intensive shifts in the GFAP levels; the content of its filamentous form increased in all structures by about 50%, while shifts of the soluble form were somewhat smaller.     

Analysis of Cyclic AMP-Dependent Changes in Intermediate Filament Protein Phosphorylation and Cell Morphology in Cultured Astroglia

Receptor agonists that increase cyclic AMP levels in cultured astroglia have been shown to increase 32P-labeling of the intermediate filament proteins glial fibrillary acidic protein (GFAP) and vimentin in these cells. Experiments were designed to determine if the increase in 32P-labeling resulted from either an increase in the turnover or net number of phosphates associated with the intermediate filament proteins and if the phosphorylation of these proteins causally affected astroglial morphology. Time course experiments indicated that 6-8 h were required to reach steady-state 32P-labeling of both GFAP and vimentin. Treatment with forskolin (10 microM) after steady-state 32P-labeling increased GFAP and vimentin phosphorylation fourfold and twofold, respectively, and also induced a morphological change from polygonal to process-bearing cells within 20-30 min of drug addition. Cells incubated in media containing brain extract (30%) for 24 h at 37 degrees C and then 3 h at 23 degrees C underwent changes from polygonal to process-bearing cells with no apparent increase in the phosphorylation of either GFAP or vimentin. Treatment of process-bearing cells (induced by brain extract) or polygonal cells with 10 microM forskolin at 23 degrees C resulted in a three- to fourfold increase in GFAP phosphorylation without significant morphological changes. These results suggest that forskolin stimulation of GFAP and vimentin increases net number of phosphates associated with these intermediate filament proteins and that the resulting increase in phosphorylation can be dissociated from morphological changes.     

Intrinsically Disordered Proteins in the Neurodegenerative Processes: Formation of Tau Protein Paired Helical Filaments and Their Analysis

1. Several intrinsically disordered proteins (IDPs) play principal role in the neurodegenerative processes of various types. Among them, α-synuclein is involved in Parkinson's disease, prion protein in transmissible spongiform encephalopathies, and tau protein in Alzheimer's disease (AD) and related tauopathies. Neuronal damage in AD is accompanied by the presence of tau protein fibrils composed of paired helical filaments (PHF).2. Tau protein represents a typical IDP. IDPs do not exhibit any stable secondary structure in the free form, but they are able to fold after binding to targets and contain regions with large propensity to adopt a defined type of secondary structure. Binding–folding event at tau protein leading to PHF generation is believed to happen in the course of tauopathies.3. Detailed molecular topology of PHF formation is unknown. There are evidences about the cross-beta structure in PHF core; however the precise arrangement of the tau polypeptide chain is unclear. In this review we summarize current attempts at in vitro PHF reconstruction and the development of methods for PHF structure determination. The emphasis is put on the monoclonal antibodies used as structural molecular probes for research on the role of IDPs in pathogenesis of neurodegenerative diseases.Dedicated to the late Peter Kontsek.     

Synthesis and Turnover of Cytoskeletal Proteins in Cultured Astrocytes

Abstract: We previously reported that the cytoskeleton of rat astrocytes in primary culture contains vimentin, glial fibrillary acidic protein (GFAP), and actin. These proteins were found in a fraction insoluble in Triton X-100 and thought to be assembled in filamentous structures. We now used primary astrocyte cultures to study the kinetics of synthesis and turnover of these cytoskeletal proteins. The intermediate filament proteins were among the most actively synthesized by astrocytes. High levels of synthesis were detectable by the third day of culture in the early log phase of growth, and the pattern of labeling at day 3 was similar to that at 14 days when the cultures had reached confluency. In short-term incorporation experiments vimentin, GFAP, and actin in the Triton-insoluble fraction were labeled within 5 min after exposure of the cultures to radioactive leucine. We did not detect any saturation of labeling for up to 6 h of incubation. The turnover of filament proteins studied by following the decay of radioactivity from prelabeled vimentin, GFAP, and cytoskeletal actin displayed biphasic decay kinetics for all three proteins. In the initial phase a fast-decaying pool with a half-life of 12–18 h contributed about 40% of the total activity in each protein. A major portion, about 60%, of each protein, however, decayed much more slowly, exhibiting a half-life of about 8 days.     

Quantitative and Qualitative Alterations of Neuronal and Glial Intermediate Filaments in Rat Nervous System After Exposure to 2, 5-Hexanedione

The precise mechanism for the neurotoxicity of 2,5-hexanedione is not known, but cross-linking of neurofilament proteins has been suggested as one possibility. In this study the effects of long-term exposure to 2,5-hexanedione were studied in the rat nervous system with special reference to regional changes in the quantities of neuronal and glial intermediate filaments. Using enzyme-linked immunosorbent assays the concentrations of 68- and 200-kDa neurofilament polypeptides were shown to be reduced in all brain regions studied. Similar results were obtained in the sciatic nerve. The concentration of glial fibrillary acidic protein was decreased in the cerebellar vermis and the dorsal cerebral cortex, whereas it was increased in the spinal cord, a result suggesting a regional variation in glial sensitivity. The intermediate filaments of the exposed animals were also immunoblotted using polyclonal antisera against the various neurofilament polypeptides and glial fibrillary acidic protein. In all tissues studied, several aggregates with molecular weights higher than those of the monomeric polypeptides were demonstrated. Contrary to clinical observations, these data indicate pronounced effects in both CNS and PNS and call for further studies on CNS effects in humans.     

Cellular Origin and Biosynthesis of Rat Optic Nerve Proteins: A Two-Dimensional Gel Analysis

High resolution 2DGE (two-dimensional gel electrophoresis) was used to characterize neuronal and glial proteins of the rat optic nerve, to examine the phases of intraaxonal transport with which the neuronal proteins are associated, and to identify the ribosomal populations on which these proteins are synthesized. Neuronal proteins synthesized in the retinal ganglion cells were identified by injecting the eye with L-[35S]methionine, followed by 2DGE analysis of fast and slow axonally transported proteins in particulate and soluble fractions. Proteins synthesized by the glial cells were labeled by incubating isolated optic nerves in the presence of L-[35S]methionine and then analyzed by 2DGE. A number of differences were seen between filamentous proteins of neurons and glia. Most strikingly, proteins in the alpha- and beta-tubulin region of the 2D gels of glial proteins were distinctly different than was observed for axonal proteins. As expected, neurons but not glia expressed neurofilament proteins, which appeared among the slow axonally transported proteins in the particulate fraction; significant amounts of the glial filamentous protein, GFA, were also labeled under these conditions, which may have been due to transfer of amino acids from the axon to the glial compartment. The fast axonally transported proteins contained relatively large amounts of high-molecular-weight acidic proteins, two of which were shown to comigrate (on 2DGE) with proteins synthesized by rat CNS rough microsomes; this finding suggests that rough endoplasmic reticulum may be a major site of synthesis for fast transported proteins. In contrast, the free polysome population was shown to synthesize the principal components of slow axonal transport, including tubulin subunits, actin, and neurofilament proteins.     

Synthesis of Glial Fibrillary Acidic Protein in Rat C6 Glioma in Chemically Defined Medium: Cyclic AMP-Dependent Transcriptional and Translational Regulation

Glial fibrillary acidic protein (GFA) expression was induced in rat C6 glioma in chemically defined medium by the addition of N6, O2'-dibutyryl cyclic AMP (dbcAMP). Induction was dependent on the increase in intracellular cyclic AMP (cAMP), which was linearly correlated with added dbcAMP. Contrary to GFA mRNA synthesis, which can be obtained by cAMP-dependent and -independent pathways, translation of mRNA into GFA was observed only above a cellular cAMP concentration of approximately 0.2 fmol/cell. dbcAMP stimulation did not affect the vimentin concentration, which remained at a low level, but changed the cellular morphology from a bipolar to a stellate shape. A similar morphological change was observed after stimulation of C6 with lipopolysaccharide (LPS). However, LPS did not significantly increase the intracellular concentration of cAMP and the LPS-induced mRNA was not translated into GFA. Our results indicate that GFA synthesis is regulated at the mRNA level and at the translational level and that a cAMP-dependent mechanism determines the ultimate synthesis of GFA by a yet unknown mechanism.     

Study of Intermediate Filaments in Adiantum philippense and Comparative Analysis of Karetin-like Proteins in Some Plant Species

Network of filaments, 10 nm in diameter, was detected in the frond cells of Adiantum philippense L. by selective extraction combined with whole mount electron microscopy. Western blot analysis showed that the major filament components were cross-reacted with monoclonal antibodies against animal keratin. The phenomenon was in concert with the result of indirect immunofluoreseenee observation. The filaments with 10 nm in diameter could be reassembled in vitro. Using selective extraction, proteins were prepared from cells of Spirulina subtillissima Kutz., thalli of Marchantia polymorpha L., and leaf blades of A. philippense L. , Ginkgo biloba L. and Brassica pekinensis Rupr. Western blot showed that S. subtillissima Kutz. has two acidic keratin-like pro- teins and all of the other four plant species have three basic keratin-like proteins and three acidic keratin-like proteins. These results may suggest the existance of an intermediate filament network with keratin-like proteins in the cells of pteridophyte and their existance in plant cells is popular.     

Preparation of Neurofilament Protein from Guinea Pig Peripheral Nerve and Spinal Cord

Abstract: A simple and rapid method for preparation of enriched neurofilament protein from mammalian peripheral nerve or spinal cord is described. Tissue extracts from guinea pig nerve or spinal cord are fractionated by ammonium sulfate fractionation, chromatography on Sepharose 4B, and precipitation with ethanol. Molecular exclusion chromatography on Sepharose 4B, in which the neurofilament protein elutes quantitatively in the exclusion volume of the column, with little contamination by other proteins, is found to be a highly effective purification step. The protein is found to precipitate in ammonium sulfate fractions over a wide range of salt concentration, from 20 to 80% saturation. It is found to be quantitatively precipitated in 40% v/v ethanol-water. The preparative method described yields 0.25 mg of neurofilament protein per gram of nerve or spinal cord, with a purity of approximately 50%. The three principal neurofilament polypeptides, which have molecular weights by SDS-polyacrylamide gel electrophoresis of 200K, 145K, and 68K, are found to be present in the preparation in a molar ratio of 1:2:6. A variant form of neurofilament protein occurring in approximately 20% of Hartley strain guinea pigs is described, which has the polypeptide composition: 200K, 192K, 145K, 68K.     

Myelin-Deficient Rat: Analysis of Myelin Proteins

Myelin basic protein (BP), proteolipid protein (PLP), myelin-associated glycoprotein (MAG), and 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNPase) activity were quantitated in the brains and spinal cords of normal and myelin-deficient (md) rats at 8, 12, 18, and 25 days of age. The levels of BP, MAG, and CNP in 25-day-old md brain were 1.1, 1.8, and 11% of those in controls, respectively. In spinal cord, the levels were higher, at 9, 15, and 12% of control values, respectively. Although BP content in the mutant rats was a lower percentage of the control level than MAG and CNPase contents at all ages, the absolute level of BP increased steadily between 8 and 25 days of age in both brain and spinal cord, whereas there was little change in the amounts of MAG and CNPase during this period. Immunoblotting analysis did not reveal an increased apparent Mr for MAG, as has been observed in quaking and trembler mice. There was little difference in the relative distributions of the 14K, 17K, 18.5K, and 21.5K forms of BP between control and md rat spinal cord homogenates at the ages examined. PLP content was reduced more than that of the other proteins in the md mutants, because it could not be detected by a technique capable of detecting 0.2% of the control brain level and 0.1% of control spinal cord level. This suggests that the expression of PLP may be preferentially affected in the md mutation.     

Growth Kinetics, Cell Shape, and the Cytoskeleton of Primary Astrocyte Cultures

Abstract: We examined correlations among growth kinetics, cell shape, and cytoskeletal protein content in rat astrocytes grown in primary culture. Cell suspensions from brains of newborn rats were seeded at densities from 0.2 to 3 × 10⁵/cm². At initial densities above 1 × 10⁵ the population increased to reach confluency by 10–12 days, after which cell number remained stable for many weeks. At low initial densities, 0.2–0.4 × 10⁵/cm², cells did not increase in number. Final density increased with increasing plating densities. High-density cells had small perikarya and several long cytoplasmic processes; low-density cells appeared flat and polygonal. All cultures were almost entirely astrocytic, as judged by immunofluorescent staining with antiserum against glial fibrillary acidic protein (GFAP). Cytoskeletal proteins were analyzed by gel electrophoresis after extraction from cells with nonionic detergent. Relative amounts of the proteins differed, in that low-density cells contained large amounts of cytoskeletal actin relative to the intermediate filament (IF) proteins vimentin and GFAP, whereas high-density cells contained relatively less actin and more IF proteins. Such differences in cytoskeletal proteins between the high- and low-density cultures were mirrored in the relative rates of synthesis of the cytoskeletal proteins. In the low-density cells amino acid incorporation into cytoskeletal-associated actin was more active than that into the IFs, whereas in the high-density cells higher rates of IF protein synthesis were observed.     

Characterization and Comparison of Neurofilament Proteins from Rat and Mouse CNS

Rat and mouse CNS neurofilament proteins (NFPs) were characterized and compared, in terms of electrophoretic properties on polyacrylamide gels and by peptide mapping, with one another and with other co-purifying lower-molecular-weight CNS proteins, including α and β tubulin. NFPs were partially purified by modification of the axon flotation procedure of Norton and co-workers and were demyelinated with Triton X-100. On one-dimensional SDS polyacrylamide gels the molecular weights of the triad of NFPs from both rat and mouse were approximately 200,000, 140,000, and 70,000. Prominent lower-molecular-weight proteins (63,000-16,000) as well as minor amounts of tubulin and actin were observed after gel electrophoresis. On two-dimensional gels (isoelectric focusing followed by SDS gel electrophoresis) each of the NFPs appeared to be composed of more than one component and the corresponding NFPs from rat and mouse had similar isoelectric points. Gel electrophoresis peptide mapping using Staphylococcus aureus V8 protease indicated the following: (1) the triad of NFPs of different sizes have different peptide maps; (2) α and β tubulin have nonidentical digestion products, which are dissimilar to those of the NFPs; (3) other proteins that co-purify by the axon flotation procedure also have nonidentical peptide maps; and (4) the corresponding NFPs from rat and mouse have similar peptide maps. The co-purifying proteins examined in detail (63,000–49,000) do not appear to be derived by proteolytic cleavage of NFPs and may represent other cytoskeletal constituents.     

An ultrastructural examination of the action of vinblastine on microtubules,neurofilaments and muscle filaments in vitro

Summary In vitro incubation of autonomic nerves with vinblastine sulphate (1×10^-4 M) caused a disappearance of microtubules within 15 min; during the following 15 min paracrystalline arrays appeared within the axons. An increase in the abundance of microfilaments was also observed, but these did not appear to arise from disaggregated microtubules since the increase in microfilament numbers was noted at an incubation time when crystal formation was extensive. Pretreatment of autonomic nerves with colchicine (2.5×10^-4 M) caused a reduction of approximately 80% in the numbers of microtubules, but did not prevent the formation of crystals on subsequent exposure to vinblastine. No ultrastructural changes were observed in myofilaments on incubation with vinblastine.We gratefully acknowledge the use of the electron microscopes in the Departments of Pathology and of Human Morphology, University of Nottingham School and thank Dr. Graham Robinson and Annette Tomlinson for their co-operation.