Comparison of vascular smooth muscle cells from adult human,monkey and rabbit in primary culture and in subculture

Summary A method is presented for growing large numbers of pure isolated smooth muscle cells from adult human, monkey, and rabbit blood vessels in primary culture.In the first few days in culture these cells closely resembled those in vivo and could be induced to contract with angiotensin II, noradrenaline and mechanical stimulation. They stained intensely with antibodies against smooth muscle actin and myosin. Fibroblasts and endothelial cells did not stain with these antibodies thereby allowing the purity of each batch of cultures to be monitored. This was consistently found to be better than 99%. The smooth muscle cells modified or dedifferentiated after about 9 days in culture to morphologically resemble fibroblasts. At this stage cells could no longer be induced to contract and did not stain with the myosin antibodies. Intense proliferation of these cells soon resulted in a confluent monolayer being formed at which stage some differentiated characteristics returned. The modification or dedifferentiation process could be inhibited by the presence of a feeder layer of fibroblasts or endothelial cells, or the addition of cAMP to the culture medium.Smooth muscle cells which had migrated from explants in primary culture, and cells in subculture, had morphological and functional properties of dedifferentiated cells at all times.The advantages of differentiated rather than dedifferentiated smooth muscle cells in culture for the study of mitogenic agents in atherosclerosis is discussed.The authors wish to thank Professor H.H. Bentall of the Royal Postgraduate Medical School, Hammersmith Hospital, London, for making available human material, and Dr. S. Zeki of Department of Anatomy, University College London for material from monkeys. We are also extremely grateful to Professor G. Burnstock for the use of his laboratory facilitiesHolder of a John Halliday Travelling Fellowship from the Life Insurance Medical Research Fund of Australia and New ZealandResearch Fellow with the National Heart Foundation of AustraliaSupported by the Deutsche Forschungsgemeinschaft     

Transforming growth factor beta1 involvement in the conversion of fibroblasts to smooth muscle cells in the rabbit bladder serosa

In an attempt to identify the growth factors or cytokines involved in the serosal thickening that occurs in rabbit bladder subjected to partial outflow obstruction, the following growth factors – transforming growth factor 1, platelet-derived growth factor, epidermal growth factor, granulocyte colony-stimulating factor and granulocyte–monocyte colony-stimulating factor – were delivered separately onto the serosal surface of the intact bladder via osmotic minipumps. The proliferative/differentiative cellular response of the rabbit bladder wall was evaluated by bromodeoxyuridine incorporation and immunofluorescence staining with a panel of monoclonal antibodies to cytoskeletal proteins (desmin, vimentin, keratins 8 and 18 and non-muscle myosin) and to smooth muscle (-actin, myosin and SM22) proteins. Administration of the transforming growth factor, but not of the other growth factors/cytokines, was effective in inducing serosal thickening. Accumulating cells in this tissue were identified as myofibroblasts, i.e. cells showing a mixed fibroblast–smooth muscle cell differentiation profile. The phenotypic pattern of myofibroblasts changed in a time-dependent manner: 21 days after the growth factor delivery, small bundles of smooth muscle cells were found admixed with myofibroblasts, as occurs in the obstructed bladder. These ectopic muscle structures displayed a variable proliferating activity and expressed an immature smooth muscle cell phenotype. The complete cellular conversion to smooth muscle cells was not achieved if transforming growth factor 1 was delivered to fibroblasts of subcutaneous tissue. These findings suggest a tissue-specific role for this growth factor in the cellular conversion from myofibroblast to smooth muscle cells. © 1998 Chapman & Hall     

Histochemical,ultrastructural, and three-dimensional observation of smooth muscle cells in human gastric mucosa

The present study was undertaken to clarify the histochemical and ultrastructural properties and the three-dimensional distribution of the smooth muscle cells (SMCs) located in the lamina propria (LP) of the human gastric mucosa. Standard paraffin sections obtained from stomachs surgically resected for gastric cancer were immunostained for alpha-smooth muscle actin (alpha-SMA), vimentin, desmin, laminin, and type IV collagen. In addition, 100-m-thick sections were fluorostained for alpha-SMA and CD34, while three-dimensional images were prepared by confocal laser scanning microscope. Ultrastructural studies were carried out using normal gastric biopsy specimens. The results indicated that SMCs in the LP differed between the upper and lower regions, SMCs in the lower LP being fairly typical SMCs, whereas those in the upper LP had apparently lost reactivity for desmin but gained that for vimentin. The basal lamina became sparser, but a fibronexus was occasionally seen in SMCs in the upper LP. Three-dimensional images revealed bundles of SMCs in the upper LP encircling several foveolae to form acinus-like structures and, in the upper LP, SMCs branching into fine fibrils with a brush-like (corpus) or besom-like (i.e., a twiggy witchs broom) appearance (antrum).     

Double-immunofluorescent staining of isolated smooth muscle cells

Summary Contractile proteins have been co-localized by double-immunofluorescent staining in several types of cultured cells. Since freshly isolated smooth muscle cells are more representative of the organization within smooth muscle cells in the intact tissue than cultured cells, the present study was undertaken to determine the feasibility of using double-staining techniques in freshly isolated cells. A new method of purifying -actinin from chicken gizzards was used to provide antigen for raising anti--actinin. Fluorescein isothiocyanate-labelled anti--actinin (FAA) was used in conjunction with tetramethyl rhodamine isothiocyanate-labelled anti-myosin (TRAM) Ouchterlony gels against myosin, tropomyosin, actin, and -actinin showed that antimyosin reacted only with myosin, anti--actinin only with -actinin. Anti--actinin stained only the Z-line of isolated chicken skeletal muscle myofibrils. FAA stained bright, discrete patches or strips on the plasma membrane, while TRAM was excluded from these areas. FAA stained myofibrils faintly in a striated pattern, while TRAM stained myofibrils heavily with less evident striations. Evidence for extramyofibrillar localization of -actinin within the cytoplasm was inconclusive. Although antibodies were quite specific in their labelling, resolution with double-staining was subject to the same limitations described for single labelling of whole cells (Bagby and Pepe 1978). Double-staining of whole cells is just as feasible as single-staining. Indeed, having a definite marker for myofibrils (TRAM) makes the localization of -actinin much easier to interpret.     

Innervation and gap junctions of intestinal striated and smooth muscle cells in the loach

Summary The tunica muscularis of the proximal intestine of the loach consisted of intermingling striated and smooth muscle cells without forming any distinct sublayers. Close contacts devoid of intervention by a basal lamina sometimes occurred between these different types of muscle cells. Gap junctions were occasionally found between heterologous as well as homologous muscle cells. In freeze-fracture replicas, striated muscle cells were distinguished from smooth muscle cells by numerous, evenly distributed subsurface caveolae. These were relatively rare and linearly arranged in smooth muscle cells. Variously-sized and -formed aggregations of connexon particles were found in the protoplasmic fracture-face of both muscle cells. Striated muscle cells had aggregates of connexon particles taking the form of either a small solid polygon or an annulus with a particle-free central region. In smooth muscle cells, the particles were arranged either in variously-sized patches or in straight lines. Topologically, heterologous gap junctions observed in ultrathin section were thought to correspond to the small patchy aggregations. Striated muscle cells in the gut had neuromuscular junctions, which differed morphologically from cholinergic nerve terminals at neuromuscular junctions of typical skeletal muscle cells. The smooth muscle cells had close apposition with axonal terminals containing many granular vesicles and a variable number of small, clear vesicles. Occasionally, a cholinergic-type axonal terminal with a presynaptic active site was found close to a smooth muscle cell.     

FITC-labelled antibody staining of tropomyosin-containing fibrils in smooth,cardiac and skeletal muscle cells,prefusion myoblasts,fibroblasts, endothelial cells and 3T3 cells in culture

Summary FITC-labelled antibodies to purified chicken gizzard smooth muscle tropomyosin were prepared and used to stain muscle and non-muscle cells in culture.Skeletal muscle myoblasts stained both diffusely throughout the cytoplasm and in fine filamentous structures. Once myotubes developed the staining was localized exclusively in the I-band region of the myofibrils. Similarly, cardiac muscle cells stained in the I-band alone.Primary and subcultured smooth muscle cells, irrespective of their state of differentiation, stained exclusively in long, straight fibrils. The staining of the fibrils was interrupted with stained regions 1–2 m long and unstained spacings 0.5 m.Interrupted fibrils were also observed in fibroblasts and endothelial cells, however their staining reaction was very weak (almost indistinguishable from that with pre-immune serum) and they were few in number.3T3 cells demonstrated moderate staining in interrupted fibrils. Sheaths of very fine fibrils staining with a similar intensity were also found throughout the cytoplasm. Interruptions in these fine fibrils were often aligned to give the whole cell a striated appearance. Sheaths of fibrils were not found in the other cell types studiedJ.C-C. holds a John Halliday Travelling Fellowship with the Life Insurance Medical Research Fund of Australia and New Zealand; G.R.C. holds and Overseas research Fellowship with the National Heart Foundation of Australia; U.G.-S. and G.B. are supported by the Deutsche Forschungsgemein-schaft and the Wellcome Trust (London) respectively. We wish to thank Janet D. McConnell and Christine Mahlmeister for excellent technical assistance     

Adrenergic regulation of contractile activity in the smooth muscle of umbilical vessels

A study was made of contractile activity produced in isolated muscle strips from human umbilical vessels by adrenomimetics and adrenoblockers. Activation of -as well as -adrenoceptors was found to cause contraction in the smooth muscle of the umbilical arteries and veins — a different effect from that occurring in other vessels. Selective shut-down of - or -receptors under the action of phentolamine and obsidane would indicate that activation of - and -adrenoceptors are responsible for mainly phasic and tonic components (respectively) of smooth muscle contraction in the umbilical vein. Obsidane was also found to inhibit the tonic component of contraction induced by oxytocin. In the smooth muscle cells of the umbilical artery, - and -receptors produce nonselective inhibition of noradrenaline-induced contraction, which obviously indicates limited differentiation in the adrenoceptors of this vessel. In view of the experimental findings obtained, application of obsidane either separately or in combination with oxytocin might be recommended for obstetrical use.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 21, No. 4, pp. 547–551, July–August, 1989.     

A smooth muscle-specific monoclonal antibody recognizes smooth muscle actin isozymes

Injection of chicken gizzard actin into BALB/c mice resulted in the isolation of a smooth muscle-specific monoclonal antibody designated CGA7. When assayed on methanol-Carnoy's fixed, paraffin-embedded tissue, it bound to smooth muscle cells and myoepithelial cells, but failed to decorate striated muscle, endothelium, connective tissue, epithelium, or nerve. CGA7 recognized microfilament bundles in early passage cultures of rat aortic smooth muscle cells and human leiomyosarcoma cells but did not react with human fibroblasts. In Western blot experiments, CGA7 detected actin from chicken gizzard and monkey ileum, but not skeletal muscle or fibroblast actin. Immunoblots performed on two-dimensional gels demonstrated that CGA7 recognizes gamma-actin from chicken gizzard and alpha- and gamma-actin from rat colon muscularis. This antibody was an excellent tissue-specific smooth muscle marker.     

Fibroblasts as a part of the contractile system in duodenal villi of rat

Summary The stroma of duodenal villi of rats was studied by light- and electron microscopy. Fibroblasts are rather evenly distributed within the villus. Their branched processes embrace all blood vessels, the lacteal and the bundles of smooth muscle cells. They are connected to each other and to smooth muscle cells by close contacts. Unmyelinated axons are found close to the fibroblasts where they may show synapse-like formations.The fibroblasts within intestinal villi contain many dilated cisterns of rER similar to normal fibroblasts. In contrast to the latter, there are many aggregated, contractile filaments, being situated mainly below the plasma membrane and within the processes. It is suggested that fibroblasts representing a 3-dimensional contractile network may be activated by smooth muscle cells and/or by innervation. So, they seem to be involved in the diminution of the vascular and stromal spaces within the villus.     

The creatine kinase system in smooth muscle

Despite the energetic flux being much lower in smooth muscle compared to striated muscles (such as the heart and skeletal muscle) creatine kinase (CK) has been found present and active in all smooth muscles studied to date. A complete CK circuit has been identified, with CK found in the mitochondria, contractile elements, membrane pumps and the cytoplasm. CK isoenzymes are coupled to many cellular energetic processes and appears to be involved in energy production and consumption by acting as an energy transducer. The CK system responds to pathological insults and development (e.g. hypertrophy and gestation respectively) by changes in sub-cellular distribution localization, isoenzymes, and specific activity. The conclusion from these observations is that creatine kinase is intimately involved in the energetic system of smooth muscle.Abbreviations CK creatine kinase - Mi-CK mitochondrial creatine kinase - Cr creatine - PCr phosphocreatiner - NMR nuclear magnetic resonance - SHR spontaneously hypertensive rat - -GPA -guanidinopropionic acid     

The monoclonal antibody GB 42 — a useful marker for the differentiation of myofibroblasts

The expression patterns of a variety of cytoskeletal antigens were studied in normal human tissues (placenta, umbilical cord, myometrium, colon, mammary gland, testis, skeletal muscle, myocardium) as well as in abnormal human tissues (palmar fibromatosis, fibrocystic disease of the mammary gland, mammary carcinoma). The immunohistochemical binding patterns of the monoclonal antibody GB 42 were compared to those of commerical antibodies directed against vimentin, desmin, smooth muscle myosin, pan actin, -smooth muscle actin and -smooth muscle actin. Methods applied comprised immunohistochemistry on cryostat sections and paraffin sections. Immunogold immunocytochemistry was performed on Lowicryl sections. The patterns of GB 42-binding were confirmed biochemically by SDS-PAGE and Western-blotting, and quantitative amino acid analysis. Our data suggest that the monoclonal antibody GB 42 recognizes an actin isoform which is identical to, or closely related to, -smooth muscle actin. Unlike the commercially available antibody against -smooth muscle actin, GB 42 does not cross-react with -skeletal or -cardiac actins. The GB 42-antigen is expressed in smooth muscle cells, myoepithelial cells and in later stages of differentiation of myofibroblasts, in all the tissues investigated. Throughout the development of smooth muscle cells and myofibroblasts, the appearance of the GB 42-antigen occurs after the expression of vimentin, desmin and -smooth muscle actin, but prior to the expression of smooth muscle myosin. GB 42 is a reliable marker for higher stages of differentiation of smooth muscle cells and myofibroblasts.     

Production of specific antibodies to contractile proteins and their use in immunofluorescence microscopy

Summary The preparation of highly purified myosin from surgical specimen of human uterine muscle is described. Antibodies were raised in rabbits against this immunogen. In immunodiffusion, they react with uterine and chicken gizzard muscle myosin, no reaction is observed between uterine myosin and the anti-chicken-gizzard- myosin. In immunofluorescence, antiuterine-myosin stains smooth muscle in the contractile and modulated state and non-muscle cells such as fibroblasts, platelets and endothelium of various species. Thus, these antibodies contrast anti-gizzard-myosin, which has previously been shown to be specific for contractile state muscle cells. We therefore conclude that the uterine myosin preparation consists of two immunogens, the one being associated with cell contractility and the other, termed cytoplasmic myosin, with motility and mitosis. The latter is indistinguishable from the myosin present in non-muscle cells and can be absorbed specifically with actomyosin from blood platelets.Abbreviations ATP Adenosine triphosphate - DNAse I Deoxyribonuclease I - DTE Dithioerythritol - SDS Sodiumdodecylsulfate - PAGE Polyacrylamide electrophoresis     

Ultrastructural comparison of smooth muscle from ovarian follicle and oviduct of the golden hamster

Summary Ultrastructural characteristics of smooth muscle taken from ovarian follicles and oviducts of hamsters are compared. Differences between the two muscle types are more quantitative than qualitative, thus confirming that follicular muscle is a true smooth muscle with no unique characteristics. While both muscle types contain 50–80 Å filaments, -glycogen deposits, and organelles characteristically found in smooth muscle, the oviductal cells have substantially more sacs, tubular structures, sarcoplasmic reticulum, and mitochondria. Another difference concerns the cellular junctions; the oviductal cells exhibit nexuses, whereas the follicular cells show desmosomelike junctions. Based on ultrastructural differences, follicular smooth muscle seems to be a relatively toneless muscle suited for short, infrequent contractions, whereas oviductal smooth muscle is probably involved in more active tonic contractions.Supported by an Institutional Research Grant from Texas Women's University, by NIH Grant HD 12988, and by the Department of Anatomy at Wright State University     

Architecture of the media of the arterial vessels in the dog brain: A scanning electron-microscopic study

Summary The architecture of the media of arterial vessels in dog brain was investigated using scanning electron microscopy. The arrangement and shape of the circularly-oriented smooth muscle cells varied with vessel diameter: The arteries (>100 m in diameter) had 4–10 layers of spindle-shaped smooth muscle cells; the muscular arterioles (30–100 m), 2–3 layers of spindle-shaped smooth muscle cells; the terminal arterioles (10–30 m), a compact layer of spindle-shaped smooth muscle cells with more dominant nodular or rod-like processes and thin lateral processes; and the precapillary arterioles (5–15 m), a less compact layer of branched smooth muscle cells.Longitudinally-oriented muscles were observed in the medio-adventitial border. The distribution and arrangement of these muscles varied with vessel size: in the large arteries (> 300 m in diameter), at the branching sites only; in the small arteries (100–300 m), at both the branching and non-branching sites; in the muscular arterioles, at both the branching and non-branching sites in a reticular arrangement with some muscle cells having an asteroid appearance; in the terminal aterioles, only asteroid-like muscle cells were found at the branching and non-branching sites.     

Striated myofibrils in anti-myosin stained,isolated chicken gizzard smooth muscle cells

Summary Highly purified chicken gizzard myosin was used to induce antibody production in rabbits. The IgG fraction was separated from the antisera and coupled to fluorescein isothiocyanate (FITC). Specific antibody (AGM) was isolated from the IgG fraction by affinity purification. Comparisons of the specificity of IgG and AGM for chicken smooth muscle myosin revealed a much greater specificity by AGM. Staining with IgG led to an apparent cross-reactivity with guinea pig smooth muscles which was not seen with AGM staining. Therefore, staining of cells for localization of myosin was performed with AGM.Isolated cells were obtained from chicken gizzards either by collagenase digestion or by agitation of glycerinated pieces. Stained cells and cell fragments revealed the presence of myofibrils as structural units with diameters of about 1.0 m. Stained myofibrils occasionally displayed regular banding patterns with a repeating period of about 1.5±0.2 m. The presence of banded myofibrils in non-cultured cells shows that the organization of the contractile material is similar to that previously reported for cultured cells by Gröschel-Stewart.     

Signal transduction pathways of muscarinic receptors in circular smooth muscle from the rabbit caecum

The effects of muscarinic acetylcholine receptor stimulation on phosphoinositides breakdown and adenylate cyclase activity were examined in the circular smooth muscle of the rabbit caecum. InMyo-[³H]inositol-labeled circular smooth muscle cells, carbachol caused a concentration-dependent increase in [³H]inositol phosphates ([³H]IPs) accumulation (EC₅₀ of 3±1 M). The M₁-selective antagonist pirenzepine (PRZ), the M₂-selective AF-DX 116 (11-2[[2-[(diethyl-amino)methyl]-1-piperidinyl]acetyl]-5, 11-dihydro-6Hpyrido[2,3-b][1,4]benzodiazepin-6-one) and the M₃-selective para-fluoro-hexahydrosiladifenidol (p-F-HHSiD) inhibited the carbachol-induced [³]inositol phosphates accumulation with the following order of potency: p-F-HHSiD>PRZ>AF-DX 116. In saponin-permeabilized circular smooth muscle cells, carbachol and GTP[S] elicited a concentration-dependent increase in [³H]inositol phosphates accumulation. The concentration-response curve for GTP[S] was shifted to the left when cells were incubated with 1 M carbachol. The [³H]inositol phosphates accumulation elicited by simultaneous addition of 0.1 M GTP[S] and 1 M carbachol to permeabilized cells was significantly decreased (78.28±18.23% inhibition) when cells were preincubated for 5 min with 0.1 mM GDP[S]. In nonpermeabilized cells, pertussis toxin did not alter the carbachol-induced increase in [³H]inositol phosphates accumulation. On the other hand, the 0.1 mM carbachol-induced inhibition of forskolin-stimulated adenylate cyclase activity in circular smooth muscle homogenates was significantly reversed by atropine and AF-DX 116, whereas PRZ and p-F-HHSiD were ineffective (muscarinic antagonists were used at 1 M final concentration). Moreover, the carbachol-induced inhibition of the cyclic AMP accumulation elicited by 10 M isoproterenol was abolished by pertussis toxin pretreatment of isolated circular smooth muscle cells. In conclusion, our data suggest that in circular smooth muscle of rabbit caecum, the muscarinic receptor stimulation of [³H]inositol phsophates accumulation is mediated by M₃ subtype receptors coupled to a pertussis toxin-insensitive G protein, whereas inhibition of adenylate cyclase activity is mediated by M₂ subtype receptors coupled to a pertussis toxin-sensitive GTP-binding protein G_i.     

Quantitative morphological study of smooth muscle cells of the guinea-pig taenia coli

A quantitative study of muscle cells of the guinea-pig taenia coli is reported. Stereological methods were used on electron micrographs and phase contrast micrographs. Smooth muscle cells of taeniae fixed under 1 gram load were about 515 m long. Muscle cell volume was about 3,500 m³ and cell surface 5,300 m². About 168,000 caveolae were found at the surface of each muscle cell, covering about 29 percent of its surface. They produced a 73 percent increase of the cell membrane compared to a smooth-surfaced cell. The ratio surface-to-volume is about 10.67 if the geometrical surface is considered, or 10.39 if the total surface of the cell membrane (including the caveolae) is considered. Mitochondria constituted 3.5–4 percent of the cell volume. A few nexuses were observed, both between two muscle cells and between a muscle cell and an interstitial cell. In serial sections septa of connective tissue and groups of muscle cells were found to disappear within few tens of microns or to merge with other septa, and the taenia did not appear to be divided into clear-cut muscle cell bundles. Bundles of smooth muscle cells were seen passing from the taenia to the underlying circular muscle. The transverse sectional area of the taenia ranged between 0.14 and 0.39 mm²; it showed about 526 blood vessels · mm^-2.     

The myofibroblast markers α-SM actin and β-actin are differentially expressed in 2 and 3-D culture models of fibrotic and normal skin

To characterize the differences between fibrotic myofibroblasts and normal fibroblasts, we studied two differentiation markers: -smooth muscle (SM) actin, a specific marker of myofibroblast differentiation, and -actin, which is overexpressed in the fibrotic tissue. Experiments were performed on fibroblasts isolated from normal pig skin and on subcutaneous myofibroblasts isolated from pig radiation-induced fibrosis. Three culture models were used: cells in monolayers, equivalent dermis, consisting of fibroblasts embedded into a matrix composed of type I collagen, and in vitro reconstituted skin, in which the matrix and containing life fibroblasts were overlaid with keratinocytes. Samples were studied using immunofluorescence and western-blotting. In monolayers cultures, both fibrosis and normal cells expressed -SM actin. Furthermore, similar amounts of -actin protein were found. In these conditions, the resulting alterations in the phenotypes of cells made comparison of cultured fibrotic and normal cells irrelevant. Under the two 3-D culture models, normal fibroblasts no longer expressed -SM actin. They expressed -actin at the basal level. Moreover, the fibrotic myofibroblasts in both 3-D models retained their differentiation features, expressing -SM actin and overexpressing -actin. We found that this normalization was mainly related to the genomic programmation acquired by the cells in the tissue. Cellular motility and microenvironment were also involved, whereas cellular proliferation was not a major factor. Consequently, both three-dimensional models allowed the study of radiation-induced fibrosis in vitro, provided good extrapolations to in vivo conditions and avoided certain of culture artefacts.     

Voltage-dependent calcium current in dissociated smooth muscle cells of the buccal mass of Aplysia

Summary Isolated smooth muscle cells of the buccal mass of Aplysia contracted in response to depolarization elicited by a patch electrode in whole-cell configuration. With cesium-containing pipet solution and tetraethylammonium and 4-aminopyridine in the external solution depolarization elicited inward current. The voltage-dependent inward current was blocked completely by lanthanum (10 mmol·1^-1), inhibited 80–90% by nifedipine (1 mol·l^-1), and was dependent upon extracellular calcium. These results showed that the voltage-dependent inward current was due to activation of voltage-dependent calcium channels (VDCaCH). Minimal depolarization to begin activating VDCaCH was-60 to-30 mV. Inward current peaked within 8 ms and then decreased rapidly to a lower level of relatively non-inactivating current. The initial peak current could be mostly inactivated by a depolarization to-20 mV for 500 ms. Nifedipine reduced both the peak current and the relatively non-inactivating current. Nifedipine inhibited high potassium-elicited contractions of both intact and dissociated muscle. These results suggested that VDCaCH mediates calcium influx which triggers contraction in molluscan smooth muscle fibers.Abbreviations ACh acetylcholine - ATP adenosine triphosphate - EGTA ethyleneglycol-bis(-aminoethyl ether) N,N,N,N-tetraacetic acid - GTP guanosine triphosphate - HEPES N-2-hydroxyethylpiperazine-N-2-ethane sulfonic acid - MCG metacerebral giant cell - RNI relatively non-inactivating - SCP small cardioactive peptide - TEA-4AP-IO external solution containing Instant Ocean, tetraethylammonium chloride, and 4-aminopyridine (described in Methods) - TEA tetraethylammonium chloride - VDCaCH voltagedependent calcium channel - 4-AP 4-aminopyridine - 5-HT 5-hydroxytryptamine or serotonin     

Confocal microscopic evidence of decreased alpha-actin expression within rabbit cerebral artery smooth muscle cells after subarachnoid haemorrhage

Our objective was to determine whether subarachnoid haemorrhage modifies cerebral artery smooth muscle cell phenotype and the contractile protein -actin measured 7 days after haemorrhage. We used a rabbit subarachnoid haemorrhage model and immunofluorescence labelling of -smooth muscle actin, vimentin and desmin. The paired comparison between the haemorrhage and sham rabbits was performed using confocal laser-scanning microscopy. We found in the haemorrhage group significantly less intense -actin immunostaining (p = 0.036) and more intense vimentin immunostaining (p = 0.043) but no significant change in the intensity of desmin staining. Our results indicate an absolute decrease after subarachnoid haemorrhage in the amount of functional -actin and in the light of the literature may suggest a certain degree of dedifferentiation of smooth muscle cells in the cerebral artery wall.