Actin in Mucor rouxii

Abstract Rhodamine-conjugated phalloidin was used to analyze the actin distribution during hyphal formation in Mucor rouxii . The occurrence of actin patches in the cortical region of the cells was seen in the initial stages of growth. A fungal 43 kDa protein was isolated by affinity chromatography on DNase I-sepharose. This peptide was identified on immunoblots when polyclonal antibodies against rabbit muscle actin were used as a probe. These results indicate: (1) that changes in actin localization accompany the hyphal development and (2) the fungal 43 kDa protein shares properties that are common to muscle actin.     

Phosphorylase kinase from bovine stomach smooth muscle: a Ca2(+)-dependent protein kinase associated with an actin-like molecule

Phosphorylase kinase was purified (110-fold) from bovine stomach smooth muscle by a procedure involving DEAE-cellulose chromatography, ammonium sulfate fractionation and glycerol density ultracentrifugation. On sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) the final enzyme preparation shows a single protein band of 43 kDa. The purified protein exhibits a close similarity with bovine aortic actin, as revealed by amino acid analysis and sequencing of a tryptic decapeptide fragment, although it differs widely from actin in several respects. In our effort to separate phosphorylase kinase activity from the 43 kDa protein we used a variety of chromatographic procedures, but in all cases the catalytic activity (when eluted) was accompanied by the 43 kDa protein band. Bovine stomach phosphorylase kinase exhibits an apparent molecular mass of 950 kDa, it shows a low Vmax value for phosphorylase b (85 nmol.min-1.mg-1), a pH 6.8/8.2 activity ratio of 0.23, it has an absolute requirement for Ca2+ and it is activated 1.8-fold by Ca2+/calmodulin. Furthermore, the protein kinase activity is neither inhibited by antibodies against rabbit skeletal muscle phosphorylase kinase nor activated by protein phosphorylation. These results suggest that bovine stomach phosphorylase kinase is tightly bound to an aggregate of actin-like molecules.     

Biochemical and biophysical analysis of plasmid pMJ600-encoded tellurite [TeO32−] resistance

The actin of Neurospora crassa wild type Strain St. Lawrence has been purified, characterized and localized. A fungal 43 kDa protein was isolated by affinity chromatography on DNase I-Sepharose. This protein was identified as actin on immunoblots when an anti-actin monoclonal antibody raised against chicken gizzards was used as a probe. After two-dimensional gel electrophoresis three actin isoforms were detected. The distribution of actin in hyphae was examined by FITC-phalloidin staining of formaldehyde fixed hyphae. F-actin was found to be mainly concentrated in the hyphal tips in which it formed a uniform cap. Apical actin could be involved in hyphal morphogenesis, organelle motility and maintenance of polarity.     

Cytoskeletal changes in platelets induced by thrombin and phorbol myristate acetate (PMA).

Changes in shape, and aggregation that accompanies platelet activation, are dependent on the assembly and reorganization of the cytoskeleton. To assess the changes in cytoskeleton induced by thrombin and PMA, suspensions of aspirin-treated,32P-prelabeled, washed pig platelets in Hepes buffer containing ADP scavengers were activated with thrombin, and with PMA, an activator of protein kinase C. The cytoskeletal fraction was prepared by adding Triton extraction buffer. The Triton-insoluble (cytoskeletal) fraction isolated by centrifugation was analysed by SDS-PAGE and autoradiography. Incorporation of actin into the Triton-insoluble fraction was used to quantify the formation of F-actin. Thrombin-stimulated platelet cytoskeletal composition was different from PMA-stimulated cytoskeletal composition. Thrombin-stimulated platelets contained not only the three major proteins: actin (43 kDa), myosin (200 kDa) and an actin-binding protein (250 kDa), but three additional proteins of Mr56 kDa, 80 kDa and 85 kDa in the cytoskeleton, which were induced in by thrombin dose-response relationship. In contrast, PMA-stimulated platelets only induced actin assembly, and the 56 kDa, 80 kDa and 85 kDa proteins were not found in the cytoskeletal fraction. Exposure of platelets to thrombin or PMA induced phosphorylation of pleckstrin parallel to actin assembly. Staurosporine, an inhibitor of protein kinase C, inhibited actin assembly and platelet aggregation induced by thrombin or PMA, but did not inhibit the incorporation of 56 kDa, 80 kDa and 85 kDa into the cytoskeletal fraction induced by thrombin. These three extra proteins seem to be unrelated to the induction of protein kinase C. We conclude that actin polymerization and platelet aggregation were induced by a mechanism dependent on protein kinase C, and suggest that thrombin-activated platelets aggregation could involve additional cytoskeletal components (56 kDa, 80 kDa, 85 kDa) of the cytoskeleton, which made stronger actin polymerization and platelet aggregation more.     

Identification and characterization of a 43 kDa actin protein involved in the DENV-2 binding and infection of ECV304 cells

Characterization of the primary host factors associated with host–virus interaction is critical for understanding how a virus infects its host cell. In this study, a modified virus overlay protein binding assay was developed. Host factors with 34, 43, and 55 kDa proteins, which could interact with EDIII, a cell receptor-binding domain of Dengue virus (DENV)-enveloped E protein, were isolated from ECV304 cells. Mass spectrometry identified peptide masses of 43 kDa protein matched to actin, a cytoskeleton protein in eukaryotic cells. The interaction between 43 kDa actin and DENV-2 EDIII was further confirmed by competitive blocking and co-immunoprecipitation assays. Actin cytoskeleton rearrangement was observed within 1 h p.i. of DENV-2-infected ECV304 cells in the confocal immunofluorescent assay. The co-localization of DENV-2 E protein with the actin filaments occurred in the late stage of the DENV replication cycle. Finally, a docking complex was constructed, and the functional residues involved in the interaction of actin and DENV-2 EDIII protein were predicted. Our findings suggest that the direct contact of DENV E protein with 43 kDa actin protein may have a crucial function in DENV infection of ECV304 cells.     

Identification of Chitinase and Osmotin-Like Protein as Actin-Binding Proteins in Suspension-Cultured Potato Cells

Cytoplasmic aggregation is an early resistance-associated eventthat is observed in potato tissues either after penetrationof an incompatible race of Phytophthora infestans, the potatolate blight fungus, or after treatment with hyphal wall components(HWC) prepared from P. infestans. In potato cells in suspensionculture, the number of cells with cytoplasmic aggregation increasedupon treatment with HWC, but such an increase was suppressedby treatment with cytochalasin D prior to treatment with HWC.This result suggested that cytoplasmic aggregation in culturedpotato cells might be connected with the association of actinfilaments. To identify the molecular basis of cytoplasmic aggregation,we purified actin and actin-related proteins by affinity chromatographyon a column of immobilized DNase I from cultured potato cellsand isolated proteins of 43 kDa, 32 kDa and 22 kDa. Analysisof the amino-terminal amino acid sequences indicated that the43 kDa, 32 kDa and 22 kDa proteins were potato actin, basicchitinase and osmotin-like protein, respectively. This conclusionwas supported by the results of Western blotting analysis ofthe 43 kDa and 32 kDa proteins with antibodies against actinand basic chitinase. Binding analysis with actin coupled toactin-specific antibodies and biotinylated actin suggested thatthe 32 kDa and 22 kDa proteins had actin-binding activity. Inaddition, examination of biomolecular interactions using anoptical biosensor confirmed the binding of chitinase to actin.These results imply the possibility that basic chitinase andosmotin-like protein might be involved in cytoplasmic aggregation,hereby participating in the potato cell's defense against attackby pathogen. (Received June 11, 1996; Accepted January 27, 1997)     

Interspecific differences in molecular weights of skeletal myosin,actin, troponin C and tropomyosin in the frogs <Emphasis Type="Italic">Hyla japonica</Emphasis> and <Emphasis Type="Italic">Xenopus tropicalis</Emphasis>

Molecular weights of the skeletal muscle myosin, actin, troponin C and tropomyosin were compared in two frog species, Hyla japonica and Xenopus tropicalis, by SDS-PAGE and Western blot. Polyclonal antibody was produced using H. japonica skeletal muscle as the antigen. Polyclonal antibodies to nematode (Caenorhabditis elegans), mold slime (Physarum polycephalum), crab (Pagurus japonicus) and chicken skeletal muscle were also used. In H. japonica, the molecular weights of skeletal myosin, actin, troponin C and tropomyosin were 230, 42, 19 and 38 kDa, respectively, by using anti-C. elegans paramyosin, anti-P. polycephalum actin, anti-crab troponin C and anti-chicken gizzard tropomyosin antibodies. Molecular weights of the same proteins in X. tropicalis detected by the same antibodies were 230, 43, 20 and 40 kDa, respectively. In total, 29 protein bands were detected in H. japonica skeletal muscle and 24 bands in X. tropicalis by SDS-PAGE. The results revealed interspecific differences in molecular weights of selected skeletal muscle proteins and in the total skeletal muscle protein profiles between the two frog species.     

Tissue specification and intracellular distribution of actin isoforms inVicia faba L.

Summary Two dimensional gel electrophoresis of total cell protein extracts from not expanded, and primary leaves, petioles, and roots ofVicia faba resulted in four actin isoforms at 43 kDa with pI values from 5.9 to 6.05. In contrast to root extracts, in all leaf extracts an additional immunoreactive polypeptide with a molecular mass of 51 kDa and pI 5.75 was detected. This polypeptide was present in high amounts in protein extracts of purified chloroplasts, whereas no actin isoform at 43 kDa could be demonstrated. Compared to the tissue extracts, two actin isoforms at 43 kDa with pI values of 5.9 and 6.0 were enriched, when purified plasma membranes and the membranous fraction of vacuoles were analysed. In contrast, the soluble protein fraction of the plasma membrane preparation contained only two isoactins with pI values of 5.95 and 6.05 and a molecular mass of 43 kDa. These results indicate, that the four actin isoforms at 43 kDa detected in all examined tissues ofV. faba fulfill different functions at specific intracellular compartments, for example, the anchorage of actin microfilaments to membranes.Abbreviations BSA bovine serum albumin - BCIP 5-bromo-4-chloro-3-indolyl phosphate - DDM n-decyl -D-maltopyranoside - EDTA ethylenediamine-tetraacetic acid - HG n-hexyl -D-glucopyranoside - IEF isoelectrical focusing - MES morpholinoethanesulfonic acid - 2-ME 2 mercaptoethanol - NBT nitro blue tetrazolium - pCMB p-chloromercuribenzoic acid - PVP polyvinylpyrrolidone - Tris tris (hydroxymethyl) aminomethane     

Purification and characterization of Tetrahymena profilin

We subjected Tetrahymena cell extract to a poly(L-proline) affinity column for isolating profilin and obtained a protein of 12.8 kDa. Purified 12.8 kDa protein dose-dependently inhibited the polymerization of Tetrahymena actin more strongly than that of rabbit skeletal muscle actin. Because the 12.8 kDa protein fulfills properties common to profilins, the protein is considered to be Tetrahymena profilin. The present paper is the first report of the isolation of an actin-binding protein from Tetrahymena.     

Caldesmon: a common actin-linked regulatory protein in the smooth muscle and nonmuscle contractile system

Caldesmon was originally purified from gizzard smooth muscle as a major calmodulin-binding protein which also interacts with actin filaments. It has an alternative binding ability to either calmodulin or actin filaments depending upon the concentration of Ca2+ ("flip-flop binding"). Two forms of caldesmon (Mr's in the range of 120-150 kDa and 70-80 kDa) have been demonstrated in a wide variety of smooth muscles and nonmuscle cells. Immunohistochemical studies suggest that caldesmon is colocalized with actin filaments in vivo. Considering its abundance, the Ca2+-dependent flip-flop binding ability to either calmodulin or actin filaments, and its intracellular localization, caldesmon is expected to be involved in contractile events. Recent results from our laboratory have led to the conclusion that caldesmon regulates the smooth muscle and nonmuscle actin-myosin interaction and the smooth muscle actin-high Mr actin-binding protein (ABP or filamin) interactin in a flip-flop manner. It might function in cell motility by regulating the contractile system.     

Identification of actin and HSP 70 as cyclosporin A binding proteins by photoaffinity labeling and fluorescence displacement assays.

A novel family of cyclosporin A (CsA) binding proteins was identified by using the biologically active, radioiodinated photoaffinity probe [D-Lys-N epsilon-(4-azido-3-[125I]iodophenyl)propionyl)]8-CsA. In addition to cyclophilin, proteins with molecular masses of 43 kDa and approximately 50-55 kDa were labeled in Jurkat extracts and bovine calf thymus. Sequence analysis of the 43-kDa protein purified from calf thymus and subsequent Western analysis of CsA affinity-purified material from Jurkat extracts identified the 43-kDa component as actin. [D-Lys-N epsilon-(5-dimethylamino-1-naphthalenesulfonyl)]8-CsA, a fluorescent analogue of CsA, was prepared and used to measure the binding constants of cyclosporin derivatives to actin by means of a new fluorescence displacement assay. [D-Lys-N epsilon-(5-dimethylamino-1-naphthalenesulfonyl)]8-CsA and [N delta-t-butoxycarbonyl diaminobutyryl)]8-CsA bind to bovine actin at physiologically relevant concentrations, with dissociation constants of 60 +/- 33 and 570 +/- 380 nM, respectively. Because the ATPase fragment of heat shock cognate 70 (HSC 70) is structurally related to actin, the yeast homologue SSA1 was tested and found to be radiolabeled by the cyclosporin A photoaffinity reagent. The binding constant for [D-Lys-N epsilon-(5-dimethylamino-1-naphthalenesulfonyl)]8-CsA to SSA1 was determined and is 53 +/- 48 nM. These results indicate that actin and the 70-kDa heat shock protein family contain a structurally related domain for binding of cyclosporin A-related peptides.     

Actin is ADP-ribosylated by the Salmonella enterica virulence-associated protein SpvB

The Salmonella enterica virulence-associated protein SpvB was recently shown to contain a carboxy-terminal mono(ADP-ribosyl)transferase domain. We demonstrate here that the catalytic domain of SpvB as well bacterial extracts containing full-length SpvB modifies a 43 kDa protein from macrophage-like J774-A.1 and epithelial MDCK cells as shown by label transfer from [32P]-nicotinamide adenine dinucleotide (NAD) to the 43 kDa protein. When analysed by two-dimensional gel electrophoresis, the same protein was modified in cells infected with S. enterica serovariant Dublin strain SH9325, whereas infection with an isogenic spvB mutant strain did not result in modification. Immunoprecipitation and immunoblotting experiments using SH9325-infected cells identified the modified protein as actin. The isolated catalytic domain of SpvB mediated transfer of 32P from [32P]-NAD to actins from various sources in vitro, whereas isolated eukaryotic control proteins or bacterial proteins were not modified. In an in vitro actin polymerization assay, the isolated catalytic SpvB domain prevented the conversion of G actin into F actin. Microscopic examination of MDCK cells infected with SH9325 revealed morphological changes and loss of filamentous actin content, whereas cells infected with the spvB mutant remained virtually unaffected. We conclude that actin is a target for an SpvB-mediated modification, most probably ADP-ribosylation, and that the modification of G actin interferes with actin polymerization.     

Serum and growth factors regulate expression of a 43 kDa protein in smooth muscle cell cultures

Smooth muscle cells respond to injury and the presence of serum factors by modulating from a quiescent contractile cell to a motile synthetic phenotype. To evaluate the biochemical response to serum exposure, we examined the proteins synthesized and secreted in response to serum. The most prominent effect of serum was the rapid production of a protein with an apparent molecular weight of 43 kDa. Removal of serum from the culture environment led to a cessation of 43 kDa protein production. The effect of exogenous heparin on 43 kDa protein production was also evaluated. Neither the 43 kDa protein nor a previously described 38 kDa protein was induced by heparin. Further, heparin treatment did not counteract the effects of serum. These studies demonstrate that an early response of vascular smooth muscle cells to serum is the production of this previously undescribed protein and that other modifications of the culture conditions did not affect its synthesis.     

A novel regulatory protein that affects the functions of caldesmon and myosin light chain kinase.

A caldesmon (CaD)-binding protein of about 65 kDa (by SDS-PAGE) was purified from smooth muscle of chicken gizzard. The 65-kDa protein prevented the inhibitory effect of CaD on the ATP-dependent interaction between actin and myosin. Unlike the case with calmodulin (CaM), Ca2+ was not required for this effect. As reported in the preceding communication, myosin light chain kinase (MLCK), another well characterized protein that binds CaM, has CaD-like activity that modulates the interaction by binding to actin. The 65-kDa protein was also effective in relieving the modulation, while leaving unaffected the kinase activity that phosphorylates the light chain of smooth muscle myosin.     

Identification of a 15 kilodalton actin binding region on gizzard caldesmon probed by chemical cross-linking

Fluorescent labeling, limited proteolysis, amino acid sequence determinations, affinity chromatography and specific chemical crosslinking were used to determine the smallest fragment of gizzard caldesmon that interacts with actin. The time course of cleavage with thrombin or submaxillaris arginase-C protease indicates that 90kDa and 35kDa fragments are the two major pieces of the 120kDa native protein. Amino acid sequence determination indicates that the 90kDa fragment is the N-terminal portion of the molecule. Further degradation gave rise to a 15kDa product whose N-terminal amino acid sequence was determined within the first 28 amino acids. Carbodiimide crosslinking with actin revealed that the 15kDa part of the molecule is probably not involved in the actin binding process but may participate in a twisting of the F-actin filament and be responsible of the caldesmon regulatory function during smooth muscle contraction.     

Poly(L-proline)-binding proteins from chick embryos are a profilin and a profilactin

Two poly(L-proline)-binding proteins (PBP-1 and PBP-2) were purified from chick embryos by using a poly(L-proline)-agarose column. PBP-1 was composed of two different polypeptides (molecular masses of 42 kDa and 15 kDa). The molar ratio of the two proteins in the complex was 1:1. The other poly(L-proline)-binding protein, PBP-2, was the 15-kDa protein itself. The 42-kDa protein was confirmed to be an actin from the amino acid composition, by immunochemical evidence and by its ability to self-polymerize. In addition, the 42 + 15-kDa protein complex (PBP-1) inhibited DNase I, just as a monomeric actin did. The amino acid composition of the 15-kDa protein was similar to that of mammalian profilin and it inhibited the salt-induced polymerization of rabbit skeletal muscle actin. Therefore, we conclude that the two poly(L-proline)-binding proteins from the chick embryo are a profilactin and a profilin in chick embryo. The ability of profilactin to bind poly(L-proline) must be due to profilin itself, because the profilin has a greater affinity for poly(L-proline) than does profilactin. Additionally, both the monomeric and filamentous actin from rabbit skeletal muscle have no affinity for poly(L-proline).     

Studies on Trypanosomatid Actin I. Immunochemical and Biochemical Identification

In this study, the presence of actin in cultured trypanosomatids was investigated using polyclonal antibodies to heterologous actin. Polyclonal antisera to rabbit muscle actin and a monospecific anti-actin antibody react with a 43-kDa polypeptide in extracts of Trypanosoma cruzi, Herpetomonas samuelpessoai and Leishmania mexicana amazonensis on protein immunoblots. The 43-kDa polypeptide co-migrates with skeletal muscle actin and is retained within trypanosomatid cytoskeletons. Attempts to isolate H. samuelpessoai actin through DNase I affinity chromatography showed that the 43-kDa polypeptide did not bind to the column. Instead, low yields of a 47-kDa polypeptide were obtained indicating that the trypanosomatid actin displays unusual DNase I binding behavior when compared to actins from higher eukaryotes. Immunofluorescence studies confirmed that cytoskeletons retain the actin-like protein. In H. samuelpessoai , actin is localized in the region close to the flagellum, whereas in T. cruzi it is more homogeneously distributed. The data presented here show that trypanosomatid actin displays biochemical characteristics similar to actins of other protozoa.     

Studies on trypanosomatid actin. I. Immunochemical and biochemical identification

In this study, the presence of actin in cultured trypanosomatids was investigated using polyclonal antibodies to heterologous actin. Polyclonal antisera to rabbit muscle actin and a monospecific anti-actin antibody react with a 43-kDa polypeptide in extracts of Trypanosoma cruzi, Herpetomonas samuelpessoai and Leishmania mexicana amazonensis on protein immunoblots. The 43-kDa polypeptide co-migrates with skeletal muscle actin and is retained within trypanosomatid cytoskeletons. Attempts to isolate H. samuelpessoai actin through DNase I affinity chromatography showed that the 43-kDa polypeptide did not bind to the column. Instead, low yields of a 47-kDa polypeptide were obtained indicating that the trypanosomatid actin displays unusual DNase I binding behavior when compared to actins from higher eukaryotes. Immunofluorescence studies confirmed that cytoskeletons retain the actin-like protein. In H. samuelpessoai, actin is localized in the region close to the flagellum, whereas in T. cruzi it is more homogeneously distributed. The data presented here show that trypanosomatid actin displays biochemical characteristics similar to actins of other protozoa.     

Immunological detection of actin in isolated cilia from quail oviduct

Cilia from quail oviduct were isolated with their membrane. The ultrastructural study revealed a good preservation of cilia in the purified fraction. Electrophoresis on SDS-PAGE showed a reproducible pattern of ciliary proteins, the major bands being those of tubulins 57 kDa and dyneins above 250 kDa. Among the minor bands, an immunological study was focused on a 43 kDa molecular mass protein, using monospecific antibodies against actin. Presence of actin was then detected by immunoblotting of isolated cilia fractions as well as of demembranated cilia, suggesting that actin is associated with the axoneme. The presence of actin in the cilia was confirmed by immunofluorescence. The cilia were found stained only on the proximal part, suggesting an heterogeneous distribution of actin within the axonemal length.     

Co-localization of immunoreactive forms of calponin with actin cytoskeleton in platelets, fibroblasts, and vascular smooth muscle

Calponin is an actin binding protein found in the smooth muscle cells of chicken gizzard. The localization of the protein was examined in bovine platelets, mouse fibroblasts, and the smooth muscle cells of the bovine aorta. Immunoblotting of whole platelet lysates revealed that the antibody to chicken gizzard calponin recognized two proteins with apparent molecular masses of 37 and 23 kDa in the resting state and an additional high-molecular-weight component (approximately 40 kDa) in the activated state. The localizations of calponin and caldesmon, and the correlation of their localizations with that of the actin cytoskeleton were analyzed by immunofluorescence microscopy using appropriate antibodies and rhodamine-phalloidin. In resting bovine platelets, calponin exhibited the same distribution as actin filaments, which are organized in a characteristic wheel-like structure. A similar distribution was observed with the anti-caldesmon antibody. Colocalization of calponin and actin were shown in activated platelets and along stress fibers of both fibroblasts and smooth muscle cells. These results suggest not only a cytoskeletal role associated with microfilaments but also a regulatory role of these proteins for actin-myosin interaction.