At least six different actins are expressed in a higher mammal: an analysis based on the amino acid sequence of the amino-terminal tryptic peptide

Effect of thyroid hormone on the accumulation of mRNA for skeletal and cardiac alpha-actin in hearts from normal and hypophysectomized rats

Skeletal alpha-actin gene products are coexpressed with cardiac alpha-actins in cardiac tissue of adult humans, cows, and pigs; in prenatal rats; and during hypertrophy due either to increased hemodynamic load or the administration of alpha-adrenergic agonists. Because there is preferential synthesis of the beta-myosin heavy chain in each case, it has been suggested that the synthesis of skeletal alpha-actin in cardiac tissue is linked to that of beta-myosin heavy chain. To test this hypothesis, thyroid hormone, which causes cardiac hypertrophy with preferential synthesis of alpha-myosin heavy chain, was administered to normal and hypophysectomized rats. Animals were sacrificed from 2 to 24 hr after the injection of either 1 or 5 micrograms of hormone per 10 g of body weight. The relative amount of mRNA for skeletal and cardiac alpha-actin was measured by using the technique of primer extension. Thyroid hormone caused a rapid increase in the amount of skeletal alpha-actin mRNA relative to controls, more than 7 times in hearts from normal animals and 15 times in hearts from hypophysectomized animals. A small increase in cardiac alpha-actin mRNA also occurred. The rapid increase in transcripts for skeletal alpha-actin under conditions where the isoform of myosin heavy chain that is being synthesized is primarily alpha demonstrates independent patterns of activation of the actin and myosin heavy chain multigene families during cardiac growth in mammals.

Action of general and alpha-smooth muscle-specific actin antibody microinjection on stress fibers of cultured smooth muscle cells

Arterial smooth muscle cells express alpha- and gamma-smooth muscle, as well as beta- and gamma-cytoplasmic actins. Two actin antibodies, one recognizing smooth muscle and cytoplasmic actin isoforms, the other recognizing specifically alpha-smooth muscle actin, were microinjected into cultured aortic smooth muscle cells. The effect of these antibodies on stress fiber organization was examined by staining with rhodamine-labeled phalloidin and by immunofluorescence with the same antibodies. Microinjection of the general actin antibody abolished most of the stress fiber staining with all reagents, but did not significantly affect the shape of the injected cells. This suggests that stress fiber integrity is not absolutely necessary for the maintenance of cell shape within the time of observation. Microinjection of the specific alpha-smooth muscle antibody abolished to various extents the staining of stress fibers with this antibody, but left practically intact their staining with rhodamine-labeled phalloidin and with the general actin antibody. This suggests that the incorporation of alpha-smooth muscle actin is not absolutely necessary for the maintenance of stress fiber integrity in cultured smooth muscle cells.

The accessibility of the thiol groups on G- and F-actin of rabbit muscle

The accessibility of the cysteine residues of actin from rabbit muscles to the thiol-targeted reagent 7-dimethylamino-4-methyl-(N-maleimidyl)coumarin (DACM) was investigated. Under conditions where the actin is in the unpolymerized form (G-actin), the most reactive thiol group was Cys-257, suggesting that it was located on the surface of the actin molecule. The selective modification of Cys-374 for this reagent as reported by Sutoh [(1982) Biochemistry 21, 3654-3661] was not observed. Cys-10, Cys-217 and Cys-374 were much less reactive and only gradually became extensively modified when the concentration of DACM approached 5 molar equivalents of actin. Presumably these thiol groups were located further inward away from the surface or situated in a different environment that rendered them less reactive. On the other hand, Cys-285 was completely inaccessible and presumably was buried. The lack of preferential labelling of Cys-374 by DACM is incompatible with the finding with iodoacetic acid as the reagent as reported by Elzinga & Collins [(1975) J. Biol. Chem. 250, 5897-5905]. This discrepancy, however, might well be due to the different reagents employed. The DACM-G-actin largely retained its competence for polymerization. Upon polymerization of G-actin, practically all the thiol groups became inaccessible to DACM, suggesting that a drastic change occurred in the conformation of actin units in the transition of monomers to filamentous actin.

Plants contain highly divergent actin isovariants

Actin protein isovariants have been identified in animals with distinct cytoplasmic or muscle specific patterns of expression. Analysis of vascular plant actin gene sequences suggests that an even greater diversity should exist within the plant actin protein families, but previous studies on plant proteins have not demonstrated the presence of multiple actin isovariants. Antibodies recognizing a conserved amino-terminal plant actin peptide, a family of plant actin peptides from a variable region, and two monoclonal antibodies to conserved epitopes within animal actins were used to identify isovariants of soybean actin resolved by two-dimensional isoelectric focusing (IEF) sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Approximately six to eight actin isovariants with pI values ranging from 5.1 to 5.8 have been identified from soybean hypocotyls, stems, leaves, and roots with varying amounts of most isovariants present in all four organs. Acidic isovariants were present in much higher levels in leaves and stems. Antisera with lambda-class actin specificity detected a subset of three isovariants in all organs examined. One monoclonal and one antipeptide antisera are shown to react well with a wide variety of plant actin isovariants. Similar patterns of actin isovariants were detected in the distant angiosperms, Arabidopsis, petunia, and maize. It is likely that many of these diverse classes of isovariants have been preserved throughout vascular plant evolution and reflect the ancient diversity within plant actin gene families. The extreme difference among isovariants implies the presence of a complex actin-based cytoskeletal system in plants.

Smooth muscle actin expression during P19 embryonal carcinoma differentiation in cell culture

P19 embryonal carcinoma (EC) cells can be induced in vitro to differentiate into cells resembling those normally formed in the embryo. Among these cell types is one whose morphology is fibroblast-like. Using indirect immunofluorescence and Western blot analysis with antibodies directed against various isoforms of actin, many of these fibroblast-like cells were found to express smooth muscle actin isoforms. Northern blot analysis of RNA indicated the presence of a smooth muscle-specific isoform of myosin heavy-chain mRNA in immortal lines of these fibroblast-like cells. These results suggest that these fibroblast-like cells resemble fetal myofibroblastic or myoepithelial cells, which have a wide distribution during embryonic development.

Structure of 3'-downstream segment of the human smooth muscle (aortic-type) alpha-actin-encoding gene and isolation of the specific DNA probe

We isolated the 3'-downstream part of the human aortic smooth muscle alpha-actin (SM alpha A)-encoding gene and determined the nucleotide sequence, including the ninth (last) exon and 3'-untranslated (UT) region. From the comparison of the human 3'-UT region with rat and chicken 3'-UT regions, its homology is lower than those in 3'-UT regions of other actin isoforms such as cardiac alpha-actin and cytoskeletal beta-actin. Therefore, by using the 3'-UT region of the human SM alpha A gene as an actin isoform-specific probe, this gene was detected as a single copy only in the human genome, which expressed the 1.7-kb RNA transcript in an aortic tissue-specific manner.

Cellular distribution of smooth muscle actins during mammalian embryogenesis: expression of the alpha-vascular but not the gamma-enteric isoform in differentiating striated myocytes

The cellular distribution of the alpha-vascular and gamma-enteric smooth muscle actin isoforms was analyzed in rat embryos from gestational day (gd) 8 through the first neonatal week by in situ antigen localization using isoactin specific monoclonal antibodies. The alpha-vascular actin isoform was first detected on gd 10 in discrete cells lining the embryonic vasculature. By gd 14, this isoform was also present in the inner layers of mesenchymal cells condensing around the developing airways and gut. The gamma-enteric actin, however, was not detected until gd 15 when cells surrounding the developing aorta, airways, and gut labeled with the gamma-enteric-specific probe. There was continued expression of these two actin isoforms in regions of developing smooth muscle through the remainder of gestation and first neonatal week at which time their distribution coincided with that found in the adult. In addition to developing smooth muscle, the alpha-vascular actin isoform was expressed in differentiating striated muscle cells. On gd 10, there was intense labeling with the alpha-vascular specific probe in developing myocardiocytes and, within 24 h, in somitic myotomal cells. Although significant levels of this smooth muscle actin were present in striated myocytes through gd 17, by the end of the first postnatal week, alpha-vascular actin was no longer detectable in either cardiac or skeletal muscle. Thus, the normal developmental sequence of striated muscle cells includes the transient expression of the alpha-vascular smooth muscle actin isoform. In contrast, the gamma-enteric smooth muscle actin was not detected at any time in embryonic striated muscle. The differential timing of appearance and distribution of these two smooth muscle isoforms indicates that their expression is independently regulated during development.

Identification of two nuclear factor-binding domains on the chicken cardiac actin promoter: implications for regulation of the gene

The cis-acting regions that appear to be involved in negative regulation of the chicken alpha-cardiac actin promoter both in vivo and in vitro have been identified. A nuclear factor(s) binding to the proximal region mapped over the TATA element between nucleotides -50 and -25. In the distal region, binding spanned nucleotides -136 to -112, a region that included a second CArG box (CArG2) 5' to the more familiar CCAAT-box (CArG1) consensus sequence. Nuclear factors binding to these different domains were found in both muscle and nonmuscle preparations but were detectable at considerably lower levels in tissues expressing the alpha-cardiac actin gene. In contrast, concentrations of the beta-actin CCAAT-box binding activity were similar in all extracts tested. The role of these factor-binding domains on the activity of the cardiac actin promoter in vivo and in vitro and the prevalence of the binding factors in nonmuscle extracts are consistent with the idea that these binding domains and their associated factors are involved in the tissue-restricted expression of cardiac actin through both positive and negative regulatory mechanisms. In the absence of negative regulatory factors, these same binding domains act synergistically, via other factors, to activate the cardiac actin promoter during myogenesis.

The chicken skeletal muscle alpha-actin promoter is tissue specific in transgenic mice

We have generated transgenic mouse lines that carry the promoter region of the chicken skeletal muscle alpha (alpha sk) actin gene linked to the bacterial chloramphenicol acetyltransferase (CAT) gene. In adult mice, the pattern of transgene expression resembled that of the endogenous alpha sk actin gene. In most of the transgenic lines, high levels of CAT activity were detected in striated muscle (skeletal and cardiac) but not in the other tissues tested. In striated muscle, transcription of the transgene was initiated at the normal transcriptional start site of the chicken alpha sk actin gene. The region from nucleotides -191 to +27 of the chicken alpha sk actin gene was sufficient to direct the expression of CAT in striated muscle of transgenic mice. These observations suggest that the mechanism of tissue-specific actin gene expression is well conserved in higher vertebrate species.

Differential expression of smooth muscle alpha-like actin between benign and malignant human pigment tissues

When examining proteins in human pigment tissues, we found that a third actin-like protein, in addition to beta- and gamma-actin was more frequent and in a larger amount in benign tissues such as blue nevus and nevus pigmentosus, than in malignant melanoma. This third actin-like protein was immunologically stained with monoclonal antibodies reacting with several actin species and specific for smooth muscle alpha-actin. We propose that this third actin-like protein is probably smooth muscle alpha-actin and that different expressions of this third actin may possibly serve as a sensitive biochemical marker for the diagnosis of human malignant melanoma.

The chicken skeletal muscle alpha-actin promoter is tissue specific in transgenic mice

We have generated transgenic mouse lines that carry the promoter region of the chicken skeletal muscle alpha (alpha sk) actin gene linked to the bacterial chloramphenicol acetyltransferase (CAT) gene. In adult mice, the pattern of transgene expression resembled that of the endogenous alpha sk actin gene. In most of the transgenic lines, high levels of CAT activity were detected in striated muscle (skeletal and cardiac) but not in the other tissues tested. In striated muscle, transcription of the transgene was initiated at the normal transcriptional start site of the chicken alpha sk actin gene. The region from nucleotides -191 to +27 of the chicken alpha sk actin gene was sufficient to direct the expression of CAT in striated muscle of transgenic mice. These observations suggest that the mechanism of tissue-specific actin gene expression is well conserved in higher vertebrate species.

Identification of two nuclear factor-binding domains on the chicken cardiac actin promoter: implications for regulation of the gene

The cis-acting regions that appear to be involved in negative regulation of the chicken alpha-cardiac actin promoter both in vivo and in vitro have been identified. A nuclear factor(s) binding to the proximal region mapped over the TATA element between nucleotides -50 and -25. In the distal region, binding spanned nucleotides -136 to -112, a region that included a second CArG box (CArG2) 5' to the more familiar CCAAT-box (CArG1) consensus sequence. Nuclear factors binding to these different domains were found in both muscle and nonmuscle preparations but were detectable at considerably lower levels in tissues expressing the alpha-cardiac actin gene. In contrast, concentrations of the beta-actin CCAAT-box binding activity were similar in all extracts tested. The role of these factor-binding domains on the activity of the cardiac actin promoter in vivo and in vitro and the prevalence of the binding factors in nonmuscle extracts are consistent with the idea that these binding domains and their associated factors are involved in the tissue-restricted expression of cardiac actin through both positive and negative regulatory mechanisms. In the absence of negative regulatory factors, these same binding domains act synergistically, via other factors, to activate the cardiac actin promoter during myogenesis.

Comparison of the amino acid composition of the intracellular and extracellular matrix protein fractions isolated from avian skeletal muscles

Intracellular and extracellular skeletal muscle protein fractions were isolated from the legs and breasts of young and adult White Leghorn chickens and quantified by detailed amino acid analysis. This involved repeated homogenization in the presence of 50 mM CaCl2, neutral phosphate-buffered saline (pH 7.4), solubilization by 2% sodium dodecyl sulfate (SDS), and centrifugation to separate all intracellular muscle proteins from the extracellular matrix. The total SDS-soluble intracellular muscle proteins in the adult and young birds ranged respectively from 93.2 to 94.5% in the leg and from 93.5 to 94.1% in the breast muscles. Collagen and collagen-like proteins in the extracellular matrix protein fractions were calculated from the amounts of 5-hydroxylysine found in their 96-h acid hydrolysates and elastin content from the amounts of desmosine present. Total collagen ranged from 3.42 to 5.18% in legs and from 2.91 to 3.89% in breasts. The elastin content of leg muscles represents only .061% of the total muscle protein. The calculated protein efficiency ratios for intracellular avian muscle proteins averaged 3.2 compared with a mean value of 1.4 for the extracellular matrix.

The development expression of the rat alpha-vascular and gamma-enteric smooth muscle isoactins: isolation and characterization of a rat gamma-enteric actin cDNA

We have isolated and characterized two cDNA clones from whole rat stomach, pRV alpha A-19 and pRE gamma A-11, which are specific for the alpha-vascular and gamma-enteric smooth muscle isoactins, respectively. The rat gamma-enteric smooth muscle actin contains a single amino acid substitution of a proline for a glutamine at position 359 of the mature peptide when compared with the chicken gizzard gamma-actin sequence (J. Vandekerckhove and K. Weber, FEBS Lett. 102:219, 1979). Sequence comparisons of the 5' and 3' untranslated (UT) regions of the two smooth muscle actin cDNAs demonstrate that these regions contain no apparent sequence similarities. Additional comparisons of the 5' UT regions of the two smooth muscle actin cDNAs to all other known actin sequences reveal no apparent sequence similarities for the rat gamma-enteric isoactin within the 15 base pairs of sequence currently available, while the rat alpha-vascular isoactin contains two separate sequences which are similar to sequences within the 5' UT regions of the human and chicken alpha-vascular actin genes. A similar comparison of the 3' UT regions of the two smooth muscle actins demonstrates that the alpha-vascular isoactins do not contain the high degree of cross-species sequence conservation observed for the other isoactins and that the gamma-enteric isoactin contains an inverted sequence of 52 nucleotides which is similar to a sequence found within the 3' UT regions of the human, chicken, and rat beta-cytoplasmic isoactins. These observations complicate the apparent cross-species conservation of isotype specificity of these domains previously observed for the other actin isoforms. Northern blot analysis of day 15 rat embryos and newborn, day 19 postbirth, and adult rats demonstrates that the day 15 rat embryo displays low to undetectable levels of smooth muscle isoactin mRNA expression. By birth, the stomach and small intestine show dramatic increases in alpha-vascular and gamma-enteric actin expression. These initially high levels of expression decrease through day 19 to adulthood. In the adult rat, the uterus and aorta differ in their content of smooth muscle isoactin mRNA. These results demonstrate that the gamma-enteric and alpha-vascular isoactin mRNAs are coexpressed to various degrees in tissues which contain smooth muscle.

Modulation of actin mRNAs in cultured vascular cells by matrix components and TGF-beta 1

Alpha-smooth muscle actin is currently considered a marker of smooth muscle cell differentiation. However, during various physiologic and pathologic conditions, it can be expressed, sometimes only transiently, in a variety of other cell types, such as cardiac and skeletal muscle cells, as well as in nonmuscle cells. In this report, the expression of actin mRNAs in cultured rat capillary endothelial cells (RFCs) and aortic smooth muscle cells (SMCs) has been studied by Northern hybridization in two-dimensional cultures seeded on individual extracellular matrix proteins and in three-dimensional type I collagen gels. In two-dimensional cultures, in addition to cytoplasmic actin mRNAs which are normally found in endothelial cell populations, RFCs expressed alpha-smooth muscle (SM) actin mRNA at low levels. alpha-SM actin mRNA expression is dramatically enhanced by TGF-beta 1. In addition, double immunofluorescence staining with anti-vWF and anti-alpha-SM-1 (a monoclonal antibody to alpha-SM actin) shows that RFCs co-express the two proteins. In three dimensional cultures, RFCs still expressed vWF, but lost staining for alpha-SM actin, whereas alpha-SM actin mRNA became barely detectable. In contrast to two-dimensional cultures, the addition of TGF-beta 1 to the culture media did not enhance alpha-SM actin mRNA in three-dimensional cultures, whereas it induced rapid capillary tube formation. Actin mRNA expression was modulated in SMCs by extracellular matrix components and TGF-beta 1 with a pattern very different from that of RFCs. Namely, the comparison of RFCs with other cell types such as bovine aortic endothelial cells shows that co-expression of endothelial and smooth muscle cell markers is very unique to RFCs and occurs only in particular culture conditions. This could be related to the capacity of these microvascular endothelial cells to modulate their phenotype in physiologic and pathologic conditions, particularly during angiogenesis, and could reflect different embryologic origins for endothelial cell populations.

Glomus tumours: an immunohistochemical profile of 11 cases

We studied 11 glomus tumours immunohistochemically, with a panel of connective tissue and epithelial markers. Most tumours contained small nerve fibres located in connective tissue septae between groups of glomus cells, thus accounting for the frequent occurrence of pain associated with glomus tumours. All tumours stained positively for muscle-specific actin and vimentin. Immunostaining for high and low molecular weight cytokeratins, desmin, myoglobin, S-100 protein, neurofilaments and Factor VIII related antigen was negative. Our findings confirm and amplify the proposed smooth muscle histogenesis of glomus tumours. This immunohistochemical profile may be of diagnostic value in the differential diagnosis of atypical glomus tumours.

Giant congenital nevus and malignant melanoma

Frequency of malignant transformation arising in giant congenital nevi is considered to be 4%-5%. More than a half of the patients in which malignant melanoma developed in giant congenital nevi were under the age of 10. It may be hypothesized that dermabrasion of giant congenital nevus may provoke malignant transformation. Some of the cell groups in giant congenital nevus are potentially malignant. Some groups of nevus cells were larger in size than those of other portions of nevus. Electron microscopic observation revealed that nuclei of these larger nevus cells were significantly indented, and melanization of melanosomes was irregular. Coexistence of alpha-like actin with beta- and gamma-actins in giant congenital nevus cells and disappearance of alpha-like actin in malignant melanoma cells were noted.

Mouse carbonic anhydrase III: nucleotide sequence and expression studies

A cDNA for the mouse carbonic anhydrase, CAIII, has been isolated from a lambda gt11 expression library. The cloned cDNA contains all of the coding region (777 bp) and both 5' untranslated (86-bp) and 3' untranslated (217-bp) sequences. The coding sequence shows 87% homology at the nucleotide level and 91% homology, when amino acid residues are compared, with human CAIII. Protein and mRNA analyses show that CAIII is present at low levels in cultured myoblasts and is abundant in adult skeletal muscle and in liver. The marked sex-related differences in CAIII distribution, described for rat liver, are not seen in the mouse. Restriction fragment length polymorphisms using TaqI and PstI are described which distinguish between Mus spretus and Mus musculus domesticus.

Altered expression of a third actin accompanying malignant progression in mouse B16 melanoma cells

The expression of actin was examined and compared in several mouse B16 melanoma cell lines with different metastatic ability, by the use of two-dimensional gel electrophoresis or horizontal isoelectric focusing. In the mouse B16 melanoma cell lines, the expression of newly found AX actin (Mr = 43,000, pI = 5.2) decreased with the increase in in vitro and in vivo selection cycles (F number) for high-metastatic cells. On the contrary, the metastatic ability of each mouse cell line, assessed by lung colony-forming ability following iv administration, increased with increase in the F number. The half life of AX actin was much the same as that of beta- and gamma-actin and the different expressions of AX actin between the low- (F = 1) and high-metastatic (F = 10) cell lines were attributed to differences in the rate of synthesis but not in the decay rate of AX actin. The AX actin was incorporated into the cytoskeletal fraction with the same efficiency as beta- and gamma-actin. The invasiveness of the cells, assessed in vitro using matrigel, was increased with the decrease in AX expression. The actin stress fibers, observed staining with rhodamine-conjugated phalloidin, were organized better in a low-metastatic cell line (F = 1) than in a high-metastatic one (F = 10). These results suggest to us that depression of AX actin is involved in disorganization of the cytoskeletal system, the cellular flexibility and motility are enhanced and there is a consequent increase in the invasiveness and metastatic potential.

Nonuniform behavior of multiple isoactins in the same cell is a cell-dependent phenomenon

The functional significance of multiple isoactins in the same cell is still not understood. To address this question, we examined the response of smooth muscle and cardiac muscle alpha-isoactins to a serial extraction procedure applied to both muscle and nonmuscle cell types. We compared these extraction results with results obtained with the beta- and gamma-nonmuscle actin isoforms from the same cells. In differentiated BC3H1 nonfusing muscle cells (smooth muscle alpha-isoactin), in human rhabdomyosarcoma cells (cardiac alpha-isoactin), and in chick skeletal muscle cells (cardiac alpha-isoactin), different fractions were found selectively enriched in either the nonmuscle or the muscle-specific actin isoforms compared with their relative abundance in whole cell extracts. Conversely, when these same isoactins were examined either in undifferentiated BC3H1 cells or in mouse nonmuscle cells stably transfected with a cardiac alpha-isoactin gene, no enrichment of these isoforms above their relative abundance in whole cell extracts was observed. These results indicate that within the muscle or muscle-like cells examined, the different actin isoforms were either selectively utilized or localized. These results further show that isoactin-specific responses observed were apparently related to the cell type in which they were found and not to differences in inherent physical properties such as solubility of the different isoactins examined.

The development expression of the rat alpha-vascular and gamma-enteric smooth muscle isoactins: isolation and characterization of a rat gamma-enteric actin cDNA

We have isolated and characterized two cDNA clones from whole rat stomach, pRV alpha A-19 and pRE gamma A-11, which are specific for the alpha-vascular and gamma-enteric smooth muscle isoactins, respectively. The rat gamma-enteric smooth muscle actin contains a single amino acid substitution of a proline for a glutamine at position 359 of the mature peptide when compared with the chicken gizzard gamma-actin sequence (J. Vandekerckhove and K. Weber, FEBS Lett. 102:219, 1979). Sequence comparisons of the 5' and 3' untranslated (UT) regions of the two smooth muscle actin cDNAs demonstrate that these regions contain no apparent sequence similarities. Additional comparisons of the 5' UT regions of the two smooth muscle actin cDNAs to all other known actin sequences reveal no apparent sequence similarities for the rat gamma-enteric isoactin within the 15 base pairs of sequence currently available, while the rat alpha-vascular isoactin contains two separate sequences which are similar to sequences within the 5' UT regions of the human and chicken alpha-vascular actin genes. A similar comparison of the 3' UT regions of the two smooth muscle actins demonstrates that the alpha-vascular isoactins do not contain the high degree of cross-species sequence conservation observed for the other isoactins and that the gamma-enteric isoactin contains an inverted sequence of 52 nucleotides which is similar to a sequence found within the 3' UT regions of the human, chicken, and rat beta-cytoplasmic isoactins. These observations complicate the apparent cross-species conservation of isotype specificity of these domains previously observed for the other actin isoforms. Northern blot analysis of day 15 rat embryos and newborn, day 19 postbirth, and adult rats demonstrates that the day 15 rat embryo displays low to undetectable levels of smooth muscle isoactin mRNA expression. By birth, the stomach and small intestine show dramatic increases in alpha-vascular and gamma-enteric actin expression. These initially high levels of expression decrease through day 19 to adulthood. In the adult rat, the uterus and aorta differ in their content of smooth muscle isoactin mRNA. These results demonstrate that the gamma-enteric and alpha-vascular isoactin mRNAs are coexpressed to various degrees in tissues which contain smooth muscle.

Arterial smooth muscle cells in vivo: relationship between actin isoform expression and mitogenesis and their modulation by heparin

Quiescent smooth muscle cells (SMC) in normal artery express a pattern of actin isoforms with alpha-smooth muscle (alpha SM) predominance that switches to beta predominance when the cells are proliferating. We have examined the relationship between the change in actin isoforms and entry of SMC into the growth cycle in an in vivo model of SMC proliferation (balloon injured rat carotid artery). alpha SM actin mRNA declined and cytoplasmic (beta + gamma) actin mRNAs increased in early G0/G1 (between 1 and 8 h after injury). In vivo synthesis and in vitro translation experiments demonstrated that functional alpha SM mRNA is decreased 24 h after injury and is proportional to the amount of mRNA present. At 36 h after injury, SMC prepared by enzymatic digestion were sorted into G0/G1 and S/G2 populations; only the SMC committed to proliferate (S/G2 fraction) showed a relative slight decrease in alpha SM actin and, more importantly, a large decrease in alpha SM actin mRNA. A switch from alpha SM predominance to beta predominance was present in the whole SMC population 5 d after injury. To determine if the change in actin isoforms was associated with proliferation, we inhibited SMC proliferation by approximately 80% with heparin, which has previously been shown to block SMC in late G0/G1 and to reduce the growth fraction. The switch in actin mRNAs and synthesis at 24 h was not prevented; however, alpha SM mRNA and protein were reinduced at 5 d in the heparin-treated animals compared to saline-treated controls. These results suggest that in vivo the synthesis of actin isoforms in arterial SMC depends on the mRNA levels and changes after injury in early G0/G1 whether or not the cells subsequently proliferate. The early changes in actin isoforms are not prevented by heparin, but they are eventually reversed if the SMC are kept in the resting state by the heparin treatment.

Determination of myofibrillar and connective tissue protein contents of young and adult avian (Gallus domesticus) skeletal muscles and the N tau-methylhistidine content of avian actins

The myosin, actin, and collagen contents of young and adult avian red (leg) and white (breast) skeletal muscles from White Leghorn chickens have been determined by the use of analytical chromatographic methods developed to quantify the unique amino acids that occur in these proteins. Because one mole of actin purified from the red and white muscles of Leghorn chickens and one mole of myosin contain respectively one and two moles of N tau-methylhistidine, and the molar ratio of myosin and actin in skeletal muscle is known to be 1:6, the myofibrillar myosin and actin contents of avian skeletal muscles can be determined from the amounts of protein-bound N tau-methylhistidine found in acid hydrolysates of this tissue. Actin accounts for an estimated 11.2 to 12.2% of total muscle mass in both muscles or about 21.1% of total myofibrillar protein, whereas myosin ranges from 23.4 to 25.8% of total protein, corresponding to a mean value of 43.8% of total myofibrillar proteins. Total avian collagen ranged from 1.96 to 3.08% in breast and from 5.63 to 6.87% in leg skeletal muscles. With the methods described herein, content of collagen and collagen-like proteins can be calculated from amounts of 5-hydroxylysine present. The content of total connective tissue proteins could also be calculated from amounts of 4-hydroxyproline found. These quantifications are based on total protein content of the selected avian muscles determined by their detailed amino acid composition.

Aspergillus nidulans contains a single actin gene which has unique intron locations and encodes a gamma-actin

The single actin gene from the filamentous fungus Aspergillus nidulans has been isolated and characterized. The only other organism reported to contain just one actin gene is another Ascomycete, the budding yeast Saccharomyces. The nucleotide sequence of the A. nidulans actin gene predicts a polypeptide containing the N-terminal sequence identifying the gamma-actin isotype. Until now this characteristic N terminus has only been reported to occur in vertebrate actin sequences. A monospecific anti-gamma-actin antiserum recognizes a single 42-kDa band in immunoblots of total Aspergillus protein. None of the six introns in the A. nidulans actin gene sequence aligns precisely with those found in other actin genes. One, unlike other known actin introns, is located in the 3'-untranslated region of the gene. The 5' and 3' ends of the gene have been characterized. The Aspergillus actin gene has a heterogeneous transcript size due to the presence of several different 3' termini. Of four characterized polyadenylated transcripts, only the longest contains a typical AATAAA polyadenylation signal near its 3' terminus. Using an integrative plasmid containing Aspergillus actin sequences and the pyr4 gene from Neurospora, the A. nidulans actin gene has been mapped to the first chromosome.

Expression of chicken beta-actin in Saccharomyces cerevisiae

Actin interacts with a number of so-called actin-binding proteins which participate at various stages of the cell motility process such as regulation of filament formation, assembly and disassembly of filaments, force generation and depolymerization. Gene technology makes a precise mapping of the interacting surfaces on the actin molecules possible by studying specifically designed actin mutants expressed in a suitable organism. In addition, the production of engineered actin will become increasingly important when the three-dimensional structure of actin is determined. Chicken beta-actin can be produced in large quantities in Escherichia coli but such actin shows only a limited biological activity and thus seems to be of minor interest in future studies of structure-function relationships of this molecule. To circumvent the problem of a denatured bacterial protein, the yeast Saccharomyces cerevisiae was chosen as an alternative organism to express actin. This paper describes the expression, isolation and characterization of the yeast-produced chicken beta-actin. From a 12-liter culture of yeast cells, 500 micrograms of polymerizable beta-actin was isolated.

Characterization of actin isoforms in ejaculated boar spermatozoa

Actin was localized in boar ejaculated spermatozoa by using specific antisera against cytoplasmic isoforms of actin [Otey et al., J Cell Biol, 102:1726-1737, 1986; Skalli et al., J Cell Biol, 103:2787-2796, 1986; Miller et al., Biochemistry, 26:6064-6070, 1987]. Indirect immunofluorescence and immunoelectron microscopy showed that gamma and beta actins were codistributed in the acrosomal and postacrosomal regions. Sperm actin was also identified on two-dimensional gel as two spots in the isoelectric point and molecular weight corresponding to beta and gamma actins. Coelectrophoresis of sperm actin and chicken gizzard actin and immunoblots stained with the specific antibodies confirmed the presence of these two isoforms of actin.

The down-regulation of the chicken cytoplasmic beta actin during myogenic differentiation does not require the gene promoter but involves the 3' end of the gene

The chicken cytoplasmic beta actin gene is ubiquitously expressed in all cell types. In terminally differentiated muscle cells, however, the concentration of beta actin specific mRNA is down-regulated to scarcely detectable levels. To test for gene regions which are involved in the muscle specific reduction of beta actin specific mRNA, the isolated complete chicken beta actin gene or chimeric gene constructs containing parts of the gene were stably transfected into the myogenic mouse cell line C2C12 and their transcriptional activity was compared in proliferating myoblasts and postmitotic myotubes. A hybrid construct containing the beta actin promoter fused to the bacterial CAT gene showed high and constitutive expression during myocyte differentiation. In contrast, constructs containing the SV40 early promoter linked to the 3' end of the beta actin gene led to a marked reduction of beta actin transcripts in differentiated C2C12 myotubes. The stability of beta actin mRNA was analyzed in actinomycin D treated cells and found to be virtually unchanged in myotubes as compared to myoblasts. These results suggest that a sequence element located in the 3' end or 3' flanking region of the beta actin gene confers the myotube specific down-regulation that is not primarily due to destabilization of mRNA.

Cytoskeletal actin gene families of Xenopus borealis and Xenopus laevis

We have sequenced the coding and leader regions, as well as part of the 3' untranslated region, of a Xenopus borealis type 1 cytoskeletal actin gene [defined according to the arrangement of acidic residues at the N-terminus; Vandekerckhove et al. (1981) J Mol Biol 152:413-426]. The encoded amino acid sequence is the same as the avian and mammalian beta (type 1) cytoskeletal actins, except for an isoleucine at position 10 (as found in the mammalian gamma cytoskeletal actins), and an extra amino acid, alanine, after the N-terminal methionine. Five introns were found, in the same positions as those of the rat and chicken beta-actin genes. The 5' and 3' untranslated regions resemble those of the human gamma (type 8) cytoskeletal actin gene more closely than the mammalian beta genes. Primer extension showed that this type 1 gene is transcribed in ovary and tadpole. Sequencing of primer extension products demonstrated two additional mRNA species in X. borealis, encoding type 7 and 8 isoforms. This contrasts with the closely related species Xenopus laevis, where type 4, 5, and 8 isoforms have been found. The type 7 isoform has not previously been found in any other species. The mRNAs of the X. borealis type 1 and 8 and X. laevis type 5 and 8 isoforms contain highly homologous leaders. The X. borealis type 7 mRNA has no leader homology with the other mRNA species and, unlike them, has no extra N-terminal alanine codon. The evolutionary implications of these data are discussed.

Evidence that the functional beta-actin gene is single copy in most mice and is associated with 5' sequences capable of conferring serum- and cycloheximide-dependent regulation

Hybridization to synthetic oligonucleotides representing conserved regions in the promoter and first intron of several vertebrate beta-actin genes was used to discriminate between what appears to be a single functional beta-actin gene and numerous pseudogenes in the mouse genome. Sequences derived from the 5' end of this gene were shown to confer serum-inducible expression upon a heterologous reporter gene when transfected into mouse fibroblasts. Moreover, these sequences rendered reporter gene expression superinducible by a combination of serum and cycloheximide. These experiments indicate that the 5' end of the mouse beta-actin gene contains sequence elements which mediate the stimulatory effects of serum growth factors and which are responsive to both positive and negative regulators of gene expression.

Alveolar soft part sarcoma. A cytologic and immunohistochemical study

Alveolar soft part sarcoma is an uncommon soft tissue tumor that has seldom been studied by cytologic methods. The cytomorphologic features of two cases of this sarcoma are described. To enhance diagnostic accuracy in a suspected alveolar soft part sarcoma, the authors present the differential diagnosis and the application of immunocytochemical procedures to cytologic specimens.

Nucleotide sequence and deduced amino acid sequence of a Plasmodium falciparum actin gene

The nucleotide sequence of a Plasmodium falciparum actin gene has been established. The gene codes for a protein of 376 amino acids and is not interrupted by introns. The nucleotide sequence reveals an extreme bias in codon usage. Not less than 85% of the codons possess an A or T at the third position. As has been found for the actins in other unicellular eukaryotes, P. falciparum actin is related both to vertebrate cytoplasmic and vertebrate muscle specific actins. However, the malarial actin is one of the most alpha-like actins hitherto found in lower eukaryotes.

An in vitro study of the effects of androgens on the cytoskeleton of ovarian granulosa cells with special reference to actin

Ovarian granulosa cells from small antral follicles from immature rats were cultured in a serum-free medium for 1-6 days with or without the presence of 10(-5) M dehydroepiandrosterone (DHEA) or 10(-5) M-androstenedione (delta 4-A). Control cultures reveal that the cells are flattened and contain many filamentous bundles organized as stress fibers, numerous scattered cytoplasmic actin filaments, microtubules and vimentin. Alpha actinin and myosin were shown by immunocytochemistry to have a punctate pattern along the stress fibers. For the most part, cells exposed to androgens did not flatten; however, they assumed a varied shape and contained fewer stress fibers and actin filaments. Many of these cells did not develop stress fibers and those that did develop were fewer in number and displayed--actinin and myosin in a punctate pattern. Microtubules and vimentin filaments remained unaltered when compared to controls. It is believed that the deficiency of actin filaments, coupled with certain other degenerative changes which express themselves in other cellular compartments, leads to an early atresia of the granulosa cell cultured in high concentrations of androgens.

Unique isoactins in the brush border of rat intestinal epithelial cells

The mammalian genome contains 20-30 genes encoding a family of actins. To date, however, only six proteins (four muscle and two nonmuscle isoforms) encoded by this multigene complex have been identified. We have isolated two actins from the brush border of rat intestinal epithelial cells that have isoelectric points and N-terminal peptides characteristic of the cytoplasmic beta- and gamma-actins. However, using a panel of actin-specific monoclonal antibodies, we show that these actins contain a set of epitopes that distinguishes them from any of the known cytoplasmic or muscle isoforms. These unique actins share features of both the nonmuscle and muscle isoforms, suggesting that they represent an intermediate in the evolution of the specialized muscle actins.

Immunolocalization of muscle and nonmuscle isoforms of actin in myogenic cells and adult skeletal muscle

In vertebrate skeletal muscle, the proliferating myoblasts synthesize nonmuscle isoforms of actin, and the cells begin to express muscle-specific actin isoforms during their myogenic differentiation. To study the distributions of the actin isoforms in myogenic cells and fully differentiated skeletal muscle, we prepared a peptide antibody specific for the skeletal alpha isoform of actin and used this antibody along with an antibody specifically reactive with nonmuscle gamma actin to stain cultured myotubes and adult skeletal myofibrils by double-indirect immunofluorescence. At this level of resolution, no differences in isoform localization were seen: Both muscle and nonmuscle actins were detected in the myotubes and in the striations of mature myofibrils. Myotubes were also double-stained using immunogold electron microscopy, and the isoform distributions were determined quantitatively by counting the two sizes of gold particles that corresponded to labeling with each antibody. A quantitative analysis of immunoreactivity revealed that, although both forms were present in all actin-containing structures, nonmuscle actin was relatively more prevalent along the edges (cortical microfilaments) of the myotubes, whereas the muscle isoform predominated in the interior regions (containing forming myofibrils). Thus, we have found evidence of a heterogeneous distribution of muscle and nonmuscle actin isoforms in differentiating myogenic cells, and we have demonstrated that a nonmuscle actin isoform is a component of the muscle contractile apparatus.

Evidence that the functional beta-actin gene is single copy in most mice and is associated with 5' sequences capable of conferring serum- and cycloheximide-dependent regulation

Hybridization to synthetic oligonucleotides representing conserved regions in the promoter and first intron of several vertebrate beta-actin genes was used to discriminate between what appears to be a single functional beta-actin gene and numerous pseudogenes in the mouse genome. Sequences derived from the 5' end of this gene were shown to confer serum-inducible expression upon a heterologous reporter gene when transfected into mouse fibroblasts. Moreover, these sequences rendered reporter gene expression superinducible by a combination of serum and cycloheximide. These experiments indicate that the 5' end of the mouse beta-actin gene contains sequence elements which mediate the stimulatory effects of serum growth factors and which are responsive to both positive and negative regulators of gene expression.

A 60-kDa polypeptide in mammalian cells with epitopes related to actin

We have identified a novel actin-related 60-kDa polypeptide in mammalian cells. The relatedness of this polypeptide to actin is indicated by its affinity for DNase I, two monoclonal anti-actin antibodies, and two independent peptide-specific anti-actin antibodies which bind to actin at around amino acid 244. It is not incorporated into cytoskeletal stress fibers, although it is a stable protein. Its expression (60-kDa polypeptide, pI of 5.4 to 5.5) is inhibited by the K+ ionophore, nonactin, which is known to collapse the energy-dependent translocation of cytoplasmically synthesized proteins into mitochondria.

Actin polymerization and ATP hydrolysis

F-actin is the major component of muscle thin filaments and, more generally, of the microfilaments of the dynamic, multifunctional cytoskeletal systems of nonmuscle eukaryotic cells. Polymeric F-actin is formed by reversible noncovalent self-association of monomeric G-actin. To understand the dynamics of microfilament systems in cells, the dynamics of polymerization of pure actin must be understood. The following model has emerged from recent work. During the polymerization process, adenosine 5'-triphosphate (ATP) that is bound to G-actin is hydrolyzed to adenosine 5'-diphosphate (ADP) that is bound to F-actin. The hydrolysis reaction occurs on the F-actin subsequent to the polymerization reaction in two steps: cleavage of ATP followed by the slower release of inorganic phosphate (Pi). As a result, at high rates of filament growth a transient cap of ATP-actin subunits exists at the ends of elongating filaments, and at steady state a stabilizing cap of ADP.Pi-actin subunits exists at the barbed ends of filaments. Cleavage of ATP results in a highly stable filament with bound ADP.Pi, and release of Pi destabilizes the filament. Thus these two steps of the hydrolytic reaction provide potential mechanisms for regulating the monomer-polymer transition.

Actin typing of rhabdomyosarcomas shows the presence of the fetal and adult forms of sarcomeric muscle actin

We analyzed actin expression in two human rhabdomyosarcomas as well as in three rhabdomyosarcomas induced in rats by the injection of nickel sulfide. All five tumors exhibited appreciable amounts of the sarcomeric alpha-actin types, in line with their myogenic differentiation. The level of these actins was particularly high in the rat tumors, which according to morphological criteria, all showed a higher degree of differentiation than the human tumors. Interestingly, in both human tumors and in two of the three rat tumors, the level of the cardiac alpha-actin type was significantly higher than that of adult skeletal muscle alpha-actin. Taken together with the results of recent reports indicating that the cardiac alpha-actin type is a marker of embryonic and fetal skeletal muscle, our findings indicate that rhabdomyosarcomas express the embryonic sarcomeric actin isoform.

A single intronless action gene in the fission yeast Schizosaccharomyces pombe: nucleotide sequence and transcripts formed in homologous and heterologous yeast

The actin gene of the fission yeast Schizosaccharomyces pombe has been isolated by using as a hybridization probe cloned actin DNA from the budding yeast Saccharomyces cerevisiae. In contrast to most actin genes studied from diverse eukaryotic species, the S. pombe gene is not interrupted by introns. The protein sequence deduced from the nucleotide sequence of the gene shows that the S. pombe actin is more closely related to the mammalian gamma-actin than to the actin of S. cerevisiae. Three transcripts of 1240, 1650 and 1850 nucleotides having the same 5' end but differing in the length of their 3' untranslated region are generated in the fission yeast. Only one messenger RNA of 1330 nucleotides is formed from the S. pombe actin gene in S. cerevisiae. Contrary to the observation made with other S. pombe genes transcribed in the budding yeast, the heterologous actin gene transcript is initiated 39 nucleotides upstream of the initiation start site used in the homologous yeast. The mRNA termination (or 3' processing) mechanism in the two ascomycetes also differs as the 3'end of the S. pombe actin gene transcript in S. cerevisiae does not coincide with either of the three 3'ends mapped in the fission yeast.

Analysis of alpha-smooth-muscle actin mRNA expression in rat aortic smooth-muscle cells using a specific cDNA probe

We constructed two cDNA probes, the first of which hybridizes with all rat actin mRNAs while the second is specific for alpha-smooth muscle (SM) actin mRNA. Northern hybridization using these probes showed that, in normal rat aortic media, the proportion of alpha-SM actin mRNA expression increases during development, reaching about 90% of the total actin mRNA level in adult animals. As compared to the situation in normal aortic media, the proportion of alpha-SM actin mRNA was found to decrease significantly in intimal thickening 15 days after endothelial injury, i.e. when SM cells (SMCs) are actively replicating. At 60 days after injury, the SMCs were observed to have stopped dividing and to have recovered a normal content of alpha-SM actin mRNA. The content of alpha-SM actin mRNA was also selectively decreased (as compared to controls) in the hypotensive abdominal aortic media located below an aortic ligature, while it was not modified in the thoracic hypertensive segment above the same ligature. Primary cultures of rat aortic SMCs synthesize and contain low amounts of alpha-SM actin, but their alpha-SM actin mRNA content is similar to that of SMCs in vivo. As compared to primary cultures, the proportion of alpha-SM actin mRNA was found to be significantly decreased in SMCs at the fifth passage, at which stage it became comparable to the level of synthesized alpha-SM actin. Thus, the synthesis and expression of alpha-SM actin in SMCs appear to be regulated predominantly at the level of gene transcription in certain situations (e.g. aortic ligature in vivo and culture at the fifth passage), and predominantly at a post-transcriptional level in other situations (e.g. primary culture).