Regulation of the microfilament system in normal and polyoma virus transformed cultured (BHK) cells

The content and state of actin in baby hamster kidney (BHK) cells before and after transformation with polyoma virus were examined by deoxyribonuclease assay and gel electrophoresis followed by dye elution. The actin content of the transformed cells, relative to total cell protein, was lower than that of the normal cells by 30-50%. In both the normal and transformed cells the greater part of the total actin was found on lysis to be in the monomeric state. Cytoplasmic and membrane fractions of the two cell lines were, in qualitative terms, very similar in their protein compositions. The plasma membrane isolated from the transformed cells was richer in actin than that from the untransformed, and both membrane fractions contained proteins corresponding to myosin, filamin and alpha-actinin on SDS-polyacrylamide gels. The cell extract from both the normal and transformed lines formed an actin-based gel on incubation at 30 degrees C, although the amount of the cross-linked actin was much smaller in the latter. This was a consequence not only of the lower concentration of total actin in the cell, but also, presumably, of a gross relative deficiency in the concentration or activity of filament cross-linking protein(s) in the cytoplasm. Thus, small aliquots of cytoplasmic fractions from transformed cells, when added to an excess of exogenous F-actin, were able to cross-link the filaments to a much smaller extent than those from the normal cells. A similar range of proteins was found to be associated with the actin gels formed from both cell extracts. One conspicuous difference was that a species migrating in SDS-gel electrophoresis as a doublet with a subunit molecular weight of about 58,000, and tentatively identified as intermediate filament protein, was replaced in the transformed cells by a single band. Filament cross-linking activity of the cytoplasmic fractions was enhanced by addition of Triton extracts of crude membranes, although the latter were not capable of cross-linking exogenous F-actin on their own. The effect of Triton extracts was much greater in the case of membranes from the transformed cells. The cytoplasmic fractions of BHK cells contain capping protein(s) and/or complexes of such proteins with actin; these reveal themselves by the propensity of the extracts to nucleate polymerization of exogenous G-actin. This activity was more abundant in transformed cells, despite their lower actin content. Their membranes were also more effective in nucleating G-actin polymerization, indicating the presence of a greater number of filament ends.(ABSTRACT TRUNCATED AT 400 WORDS)     

Lipocortins are major substrates for protein kinase C in extracts of human neutrophils.

We have identified two major proteins in human neutrophils that are phosphorylated in vitro by protein kinase C (PKC) as lipocortins III and a fragment of a lipocortin-like 68-kDa protein. In electroporated cells, the 68-kDa protein was phosphorylated during stimulation of the cells with either FMLP or PMA. Lipocortins are of interest because of their Ca2(+)- and phospholipid-dependent actin binding properties and ability to inhibit phospholipase A2. Two crude fractions of enzymes and proteins exposed to [gamma-32]PATP in the presence of Ca2+, Mg2+, phosphatidylserine and 1,2-oleoyl-acetyl-rac-glycerol were analyzed by gel electrophoresis and autoradiography. A number of proteins in a detergent-free fraction, including proteins at 36 and 32 kDa, were phosphorylated in the presence of these cofactors. In contrast, only two major proteins (35 and 32 kDa) were phosphorylated in a detergent-extracted fraction. Phosphorylation of the 36, 35, and 32 kDa proteins required the presence of Ca2+, Mg2+, and phosphatidylserine in our soluble fraction and detergent extract, indicating PKC-dependent phosphorylation. The 32-kDa protein phosphorylated in both the soluble fraction and detergent extract was identified as lipocortin III by immunoprecipitation with a cross-reactive antibody that recognized lipocortin I and comparison of cyanogen bromide (CNBr) cleavage patterns of this protein with a lipocortin III standard. The 68-kDa protein was identified as a lipocortin VI-like protein by immunoprecipitation with anti-calelectrin. Additionally, the CNBr cleavage pattern of the 68-kDa protein was similar to that of the 36-kDa protein phosphorylated in our soluble fraction. Autoradiograms of the 68- and 36-kDa fragments immunoprecipitated from our soluble fraction with anticalelectrin and cleaved with CNBr showed that both of these proteins were phosphorylated in this sample. Because phosphorylation is known to change the functional characteristics of the lipocortins, the potential exists to link PKC and lipocortins in neutrophils to regulation of granulemembrane interactions or mediation of inflammation.     

Patterns of protein synthesis during the cell cycle of Chinese hamster ovary cells

The protein synthesis patterns at various stages of the cell cycle of Chinese hamster ovary cells were examined by labelling cells with [35S]methionine and then separating the proteins by isoelectric focussing and two-dimensional, nonequilibrium pH gradient gel electrophoresis. We have observed a number of proteins which display quantitative differences in synthesis at specific cell cycle stages and of these the alpha- and beta-tubulins have been identified. A few proteins appear to be uniquely synthesized at specific times during the cell cycle. These include the histones and a modified version of them, which are synthesized only in S phase, and a pair of 21 kilodalton (kDa), pI 5.5 proteins, which appear only in late G2 and mitosis. We have also identified a 58-kDa, pI 7.5 protein which is present at all cell cycle stages except during late G2. This protein appears to have the same temporal properties as a 57-kDa protein called "cyclin" originally described in sea urchin embryos.     

Synaptic proteins. Characterization of tubulin and actin and identification of a distinct postsynaptic density polypeptide

The major proteins in isolated synaptic junctions (SJs) and postsynaptic densities (PSDs) have been compared to actin, tubulin, and the major neurofilament (NF) protein by two-dimensional gel electrophoresis and tryptic peptide map analysis. These studies show: (a) tubulin is present in SJ and PSD fractions and is identical to cytoplasmic tubulin, (b) actin in these fractions is very similar to the gamma- and beta-actin found predominantly in nonmuscle cells, and (c) the major PSD protein is distinct from all other known fibrous proteins.     

Molecular characterization of the 28- and 31-kilodalton subunits of the Legionella pneumophila major outer membrane protein.

The major outer membrane protein of Legionella pneumophila exhibits an apparent molecular mass of 100 kDa. Previous studies revealed the oligomer to be composed of 28- and 31-kDa subunits; the latter subunit is covalently bound to peptidoglycan. These proteins exhibit cross-reactivity with polyclonal anti-31-kDa protein serum. In this study, we present evidence to confirm that the 31-kDa subunit is a 28-kDa subunit containing a bound fragment of peptidoglycan. Peptide maps of purified proteins were generated following cyanogen bromide cleavage or proteolysis with staphylococcal V8 protease. A comparison of the banding patterns resulting from sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) revealed a common pattern. Selected peptide fragments were sequenced on a gas phase microsequencer, and the sequence was compared with the sequence obtained for the 28-kDa protein. While the amino terminus of the 31-kDa protein was blocked, peptide fragments generated by cyanogen bromide treatment exhibited a sequence identical to that of the amino terminus of the 28-kDa protein, but beginning at amino acid four (glycine), which is preceded by methionine at the third position. This sequence, (Gly-Thr-Met)-Gly-Pro-Val-Trp-Thr-Pro-Gly-Asn ... , confirms that these proteins have a common amino terminus. An oligonucleotide synthesized from the codons of the common N-terminal amino acid sequence was used to establish by Southern and Northern (RNA) blot analyses that a single gene coded for both proteins. With regard to the putative porin structure, we have identified two major bands at 70 kDa and at approximately 120 kDa by nonreducing SDS-PAGE. The former may represent the typical trimeric motif, while the latter may represent either a double trimer or an aggregate. Analysis of these two forms by two-dimensional SDS-PAGE (first dimensions, nonreducing; second dimensions, reducing) established that both were composed of 31- and 28-kDa subunits cross-linked via interchain disulfide bonds. These studies confirm that the novel L. pneumophila major outer protein is covalently bound to peptidoglycan via a modified 28-kDa subunit (31-kDa anchor protein) and cross-linked to other 28-kDa subunits via interchain disulfide bonds.     

Purification and characterization of GP-55, a protein associated with actin-based cytoplasmic gels derived from brain tissue

Incubation of rat brain cytoplasmic extracts results in the formation of three-dimensional gels that can be collapsed by low-speed centrifugation. Electrophoresis in polyacrylamide gels indicate that these cytoplasmic gels are composed of actin and several associated proteins. Among the latter we have identified a component with an apparent molecular mass of 55,000 daltons. The results of two-dimensional electrophoresis, peptide mapping, and in vivo labeling experiments with [35S]methionine, indicate that the 55-kDa protein is composed of two different gene products we have named alpha and beta; a third polypeptide, named beta', probably derives from the beta polypeptide as a result of some posttranslational modification(s). These three polypeptides, which have the same molecular weight but different isoelectric points, are present in a rather pure preparation of the 55-kDa protein, obtained from cytoplasmic gels by ion-exchange chromatography. In vitro, purified 55-kDa protein interacts in a specific manner with F-actin, as shown by viscosimetry and electron microscopy, leading to the formation of a complex network of cross-linked microfilament bundles. The results of immunofluorescence experiments indicate that the 55-kDa protein is located intracellularly in structures belonging to the Golgi apparatus, and that it is not only present in every type of rat cell tested but also in primary cultures of chick embryo neurons. Based on its intracellular location, we have named the 55-kDa protein as Golgi Protein-55 (GP-55).     

Biochemical characterization of the mammalian stress proteins and identification of two stress proteins as glucose- and Ca2+-ionophore-regulated proteins

Biochemical properties of the heat shock or stress proteins of mammalian cells have been investigated using two-dimensional gel electrophoresis and immunological techniques. Of the major mammalian stress proteins (Mr = 72,000, 73,000, and 90,000) and minor stress proteins (Mr = 80,000, 100,000, and 110,000), the 80- and 90-kDa proteins were found to be phosphoproteins in all cell types examined. The 100-kDa protein was found to incorporate phosphate in only some cell types examined. In studies of the metabolic incorporation of mannose into the stress proteins, only the 100-kDa protein was found to be a glycoprotein. Two of the stress proteins, the 80- and 100-kDa species, were found to be identical with the proteins induced in cells grown in the absence of glucose (i.e. the "glucose-regulated proteins"). These same two proteins also were induced in cells treated with the calcium ionophore A23187. To begin examining the intracellular location of these multiregulated proteins, immunofluorescence microscopy studies were carried out using a monoclonal antibody against the 100-kDa stress protein. The antigen was localized primarily with the Golgi apparatus and less prominently with the plasma membrane and nucleus. Heat shock treatment resulted in an increased number of the cells exhibiting a nuclear location of 100 kDa.     

The Postsynaptic Density: Constituent and Associated Proteins Characterized by Electrophoresis, Immunoblotting, and Peptide Sequencing

The proteins of the postsynaptic density (PSD) fraction of cerebral cortex were resolved by two-dimensional electrophoresis (2DE) and more than 30 proteins identified by characteristic 2DE mobility, immunoblotting with specific antibodies, and N-terminal and peptide sequencing. The PSD fraction is enriched for spectrin, actin, tublin and microtubule associated protein II, myosin, enzymes of glycolysis, creatine kinase, elongation factor 1 alpha, and receptor protein. The three neurofilament proteins are detected but a 58-kDa protein is prominent and is, by peptide sequencing, the bovine homolog of the recently cloned 66-kDa neurofilament protein; in contrast to the latter, however, it is enriched in cerebrum compared with spinal cord. A 68-kDa protein is identified as a member of the hsp70/BiP family of proteins. A protein, designated dynamin, indicating its putative role as a microtubule motor, is identified as a major protein, is found, however, greatly enriched in the particulate fraction, and is significantly denaturant and detergent insoluble. A protein designated N-ethylmaleimide-sensitive factor is also detected. Thus, two proteins implicated in vesicular transport are present in the PSD fraction. Seven polyclonal antibodies were produced to 2DE separated and electroeluted proteins of the PSD and were identified by peptide sequence analysis and 2DE profile as the hsp70/BiP homologous protein, the novel neurofilament protein synapsin IIa, pyruvate kinase, dynamin, aconitase and an unknown contaminating protein, and a 115-kDa protein that by subcellular fractionation and immunoblotting is a diagnostic PSD molecule. In addition, peptide sequences are obtained for four additional higher molecular weight proteins of the PSD that are not related at the level of primary structure to any known proteins.     

The nuclear lamin protein family in higher vertebrates. Identification of quantitatively minor lamin proteins by monoclonal antibodies

The nuclear lamina, a structure closely apposed to the inner nuclear membrane, is believed to provide a framework important for nuclear envelope integrity and interphase chromatin organization. So far, in mammalian and avian species three major constituents of the lamina, lamins A, B, and C, have been identified. These proteins migrate to characteristic positions on two-dimensional gels, lamin B being more acidic than lamins A and C. Here, we show that the composition of the nuclear lamina in avian and mammalian cells is more complex than previously assumed. When analyzed on two-dimensional gels, the major 66-kDa chicken "lamin B" protein can readily be identified. However, an additional 68-kDa protein migrates to a similarly acidic position. Based on the following evidence, both proteins can be considered as two distinct members of the lamin protein family. First, peptide mapping experiments and immunological criteria demonstrate that these two proteins are not related to each other or to lamin A via postsynthetic modifications or precursor-product relationships. Second, as determined by immunocytochemical techniques, both proteins are located exclusively at the nuclear periphery. Third, both proteins display the biochemical properties characteristic of lamin proteins, i.e. they are resistant to extraction of nuclei with nonionic detergents, nucleases, and high salt. Fourth, both proteins are immunologically related to previously characterized lamin proteins: the major 66-kDa chicken "lamin B" protein shares at least two epitopes with lamin A. However, contrary to what current nomenclature might suggest, this 66-kDa chicken "lamin B" protein is not related to rat liver lamin B, but to a minor component of rat liver pore-complex lamina preparations that had not previously been recognized as a lamin protein. Conversely, the minor 68-kDa component of chicken lamina preparations that had not previously been considered to be a lamin protein is immunologically related to rat liver lamin B. Thus, in addition to demonstrating the existence of quantitatively minor lamin proteins in higher vertebrates, our results caution against assigning structural homologies between lamin proteins from different species on the basis of gel electrophoresis analyses.     

Identification and distribution of a novel, collagen-binding protein in the developing subepicardium and endomysium.

A protein doublet (M(r) = 68,000) that copurifies with chicken cardiac collagen types I and III is purified and characterized in the present study. Peptide mapping and amino terminus sequencing for both 68-kDa polypeptides show they have similar structures. This is supported by amino terminus sequencing of a 39-kDa proteolytic fragment of each polypeptide. The 68-kDa polypeptides appear at pI 6.7-6.8 in two-dimensional gels. Under nonreducing, electrophoretic conditions, the doublet appears as a large multimer or aggregate. Amino acid sequencing of the protein shows that its amino terminus contains a heptapeptide (VCLXXGK) that appears in the heparin/fibrin-binding domain of fibronectin and the collagen-binding domain of laminin. Cardiac myocytes synthesize and secrete the protein in vitro onto cell surfaces and onto the substratum. Indirect immunofluorescence shows the protein first appears in the chicken subepicardium at approximately 10 days following fertilization. As collagen accumulates in the subepicardium and the volume of the subepicardial space increases, the 68-kDa protein is found predominantly at the interface between myocardial cells and the connective tissue and between epicardial cells and the connective tissue. In adult hearts, the protein is also present at lower concentrations in endomysial connective tissue. The 68-kDa protein is also present in the skeletal muscle endomysium of embryonic chickens. Electron microscopic immunocytochemistry shows the 68-kDa protein is located at the surface of subepicardial collagen fibers. In addition, a direct interaction between the 68-kDa protein and collagen are indicated by: 1) equilibrium gel filtration of the 68-kDa protein in the presence of gelatin, 2) gelatin affinity chromatography of the 68-kDa protein, and 3) comigration of type I collagen and the 68-kDa protein during gel filtration under reducing conditions. The 68-kDa protein exhibits no collagenase activity under native conditions or in zymograms. Together, the data indicate that the 68-kDa protein is a novel collagen-associated protein appearing in late epicardial development.     

The nuclear matrix from cells of different origin. Evidence for a common set of matrix proteins

We compared the protein composition of the nuclear matrix isolated from several murine embryonal carcinoma cells and mature tissues by two-dimensional gel electrophoresis. Two nuclear matrix fractions were investigated: the "peripheral" nuclear matrix (matrix proteins that remain insoluble after reduction), and the "internal" nuclear matrix (matrix proteins released by reduction). The two subfractions have completely different protein compositions. Although numerous differences in nuclear matrix protein composition among different cell types were observed, a limited set of polypeptides common to all mouse cell types was identified. A majority of these common proteins was also present in cells from other mammalian species (i.e. rat and human). For this set of proteins, we coin the term "minimal matrix." As expected, lamin B, known to be expressed throughout differentiation, is part of the common set of peripheral nuclear matrix proteins. Lamins A and C are not because these proteins were absent from undifferentiated embryonal carcinoma cells. Since these common nuclear matrix proteins occur in all mammalian nuclear matrices analyzed so far, it is likely that they have a basic role in nuclear organization and function.     

Water channel aquaporin-2 directly binds to actin

Water channel aquaporin-2 (AQP2) strictly regulates body water homeostasis in mammals. Trafficking of AQP2 to the apical membrane is critical to the reabsorption of water in renal collecting ducts. Controlled apical positioning of AQP2 suggests the interaction of AQP2 with other proteins. To isolate AQP2-binding proteins, immunoaffinity chromatography of extracts from rat kidney papilla was performed using a column covalently coupled with anti-AQP2 antibody. Using this method 42-kDa protein was purified and subsequently identified as beta- and gamma-isoforms of actin by two-dimensional gel analysis and matrix-assisted laser desorption-ionization time-of-flight mass spectrometry. AQP2 was indeed coimmunoprecipitated with actin from cell lysates of rat kidney papilla. In addition, surface plasmon resonance analyses showed that the C-terminal fragment of AQP2 strongly bound to actin and the K(D) value was 3.18x10(-8)M. In this experiment we have elucidated the direct binding of channel protein AQP2 to cytoskeletal protein actin, providing a novel mechanism for trafficking of not only AQP2 but also recycling channel proteins.     

Effect of heat shock on the intracellular distribution of proteins

Exposure of cells to heat induces thermotolerance, a transient resistance to subsequent heat challenges. It has been shown that thermotolerance is correlated in time with the enhanced synthesis of heat shock proteins. In this study, the association of induced heat shock proteins with various cellular fractions was investigated and the heat-induced changes in skeletal protein composition in thermotolerant and control cells was compared. All three major heat shock proteins induced in Chinese hamster fibroblasts after a 46 degrees C, 4-min heat treatment (70, 87, and 110 kDa) were purified with the cytoplasmic fraction, whereas only the 70-kDa protein was also found in other cell fractions, including that containing the cellular skeleton. Immediately after a second heat treatment at 45 degrees C for 45 min, the 110-kDa protein from thermotolerant cells also purified extensively with the cellular skeletal fraction. In this regard, the 110-kDa protein behaved similarly to many other cellular proteins, since we observed an overall temperature-dependent increase in the total labeled protein content of the high-salt-resistant cellular skeletal fraction after heat shock. Pulse-chase studies demonstrated that this increased protein content gradually returned to normal levels after a 3-hr incubation at 37 degrees C. The alteration or recovery kinetics of the total labeled protein content of the cellular skeletal fraction after heat shock did not correlate with the dramatic increase in survival observed in thermotolerant cells. The relationship between heat shock proteins and thermotolerance, therefore, does not correlate directly with changes in the heat-induced cellular alterations leading to differences in protein fractionation.     

Purification and characterization of an F-actin-bundling 55-kilodalton protein from HeLa cells

An F-actin-bundling protein with Mr of 55,000 has been purified from HeLa cells by a simple method using its affinity to F-actin. Briefly, muscle actin was mixed with supernatants of HeLa cell homogenates, and the resultant actin gel was precipitated by low speed centrifugation. The 55-kDa protein in the actin gel was dissociated by depolymerization of F-actin and purified sequentially by chromatography on DEAE-cellulose and hydroxylapatite. The Stokes radius and sedimentation coefficient of the 55-kDa protein were 32 A and 4.35 (S20,w), respectively. These results suggest that the 55-kDa protein is a monomeric globular protein with a native molecular weight of 57,000. The globular form of the protein was confirmed by electron microscopy of rotary shadowed specimens. The binding of the protein to actin was saturated at an approximate stoichiometry of 4 actin monomers to one 55-kDa molecule. The protein made F-actin aggregate side-by-side into bundles as has been reported for other F-actin-bundling proteins such as fimbrin (Mr = 68,000) and fascin (Mr = 58,000). The 55-kDa protein is a new actin-binding protein based on biochemical, morphological, and immunological characterization. Skeletal muscle tropomyosin inhibited the actin-bundling activity of 55-kDa protein by competitive binding to actin, suggesting that the 55-kDa protein binding site on F-actin is in the vicinity of the tropomyosin-binding site.     

The detection of smooth muscle desmin-like protein in BHK21/C13 fibroblasts.

Three distinct proteins, actin (42,000 daltons), the principal form of fibroblast 10 nm filament protein (55,000 daltons), and a protein with a molecular weight of 52,000 and a pI of 5.8 were detected in nonionic detergent-insoluble cytoskeletal and 10 nm filament preparations of control BHK21/C13 and line 9 hamster fibroblasts. Cytoskeletal preparations of other hamster fibroblast cell types, such as NIL8 and primary embryo fibroblasts, contained the 55,000-dalton component but lacked the 52,000-dalton protein. A Rous sarcoma virus transformant of the BHK21/C13 line and an adenovirus transformant of line 9, resembled the NIL8 and other fibroblast types in that they contained only the 55,000- and 42,000-dalton polypeptides. The identity of the 52,000-dalton protein in BHK21/C13 cells was studied. This protein co-electrophoreses on both one- and two-dimensional polyacrylamide gels with the predominant muscle form of 10 nm filament protein. Further, one-dimensional peptide maps of the hamster smooth muscle 10 nm filament protein and the hamster fibroblast 52,000-dalton protein are identical to one another and distinct from the peptide maps of both the 42,000- and the 55,000-dalton components of the fibroblast cytoskeletal preparations. We conclude that BHK21/C13 cells contain both the fibroblast and the muscle form of 10 nm filament protein.     

Disassembly and reconstitution of the Ca2+-sensitive thin filaments of vascular smooth muscle

The Ca2+-sensitive thin filaments of aorta smooth muscle have been, disassembled into their constituent proteins, actin, tropomyosin and a 120-kDa protein. The 120-kDa protein bound to aorta actin-tropomyosin and inhibited its ability to activate myosin MgATPase. This inhibition correlated with the binding of one 120-kDa protein molecule per 29 actin monomers. Upon the addition of calmodulin to the actin-tropomyosin-120-kDa protein complex, the inhibition was relieved in 10(-4) M Ca2+ but not 10(-9) M Ca2+. The full release of inhibition was not accompanied by a full release of 120-kDa protein binding to actin-tropomyosin. A fully active, Ca2+-sensitive aorta thin filament has thus been reconstituted from just four components: actin, tropomyosin, 120-kDa protein and calmodulin.     

TWO FORMS OF NEURONAL ACTIN

Abstract— —Cultures of neurons essentially free of non-neuronal cells were prepared from chick sympathetic neurons and from sensory neurons that had been enriched on a simple density gradient. The proteins of these cultures were examined by two-dimensional gel electrophoresis and two species found in each type of nerve cell that ran close to, but not precisely with, muscle actin. They comigrated with the β and γ actins previously seen in developing myoblasts (W halen et al. , 1976). Peptide patterns obtained from the two neuronal proteins by limited papain digestion, as well as from three analogous proteins of cultured fibroblasts and purified chicken muscle actin, were extremely similar. The same two species, in similar amounts, were found in soluble and residual fractions of cultured neurons produced by brief detergent treatment; in fractions enriched for neuronal processes or cell soma from cultured sensory ganglia; and in purified actin recovered from material released upon gentle homogenisation of embryonic chick brains.     

Comparative study of the features of protein composition of human aorta tunica media]

A preliminary two-dimensional map of human aorta tunica media proteins comprising 280 polypeptide fractions has been constructed. Individual protein fractions were characterized in terms of molecular masses and relative electrophoretic mobility; the resulting values were stored in the "protein" data base. Using co-electrophoresis, the positions of certain tunica media proteins (light chains, myosin, tropomyosin, actin, albumin) was determined. The two-dimensional map was used to compare tunica media proteins with their human cardiac muscle counterparts.