High dose of glucose promotes chondrogenesis via PKCα and MAPK signaling pathways in chick mesenchymal cells

We investigated the molecular mechanism of the glucose effect on the regulation of chondrogenesis. Exposure of chick wing bud mesenchymal cells to high concentrations of glucose stimulated chondrogenesis 2–fold to 2.5-fold without affecting cell proliferation. Glucose increased protein levels and the membrane translocation of protein kinase C alpha (PKC), leading to a reduction of extracellular signal-regulated kinase (ERK) phosphorylation. Phosphorylation of p38 was also increased in a PKC-independent manner by glucose treatment. Glucose also increased cell adhesion molecules such as fibronectin, integrin 1, and N-cadherin at early stages and then decreased these adhesion molecules at later stages of chondrogenesis. These alterations in protein level of adhesion molecules and in the phosphorylation of mitogen-activated protein kinases by glucose were blocked by inhibition of PKC or p38 but were synergistically increased by the inhibition of ERK. Therefore, high doses of glucose induce the down-regulation of ERK activity via PKC and the up-regulation of p38 and result in the stimulation of chondrogenesis of chick mesenchymal cells through modulating the expression of adhesion molecules.This work was supported by the Korea Research Foundation (KRF-2000-DP0352)     

Design of a synthetic adhesion protein by grafting RGD tailed cyclic peptides on bovine serum albumin

A synthetic adhesion protein was designed by chemical grafting of the RGD tailed cyclic peptide cyclo[-d-Val-Arg-Gly-Asp-Glu(-Ahx-Tyr-Cys-NH₂)-] on the carrier protein bovine serum albumin (BSA). The cyclic conformation of the RGD motif grafted on the protein mimics the conformation of the motif displayed in native adhesion proteins such as fibronectin. The adhesion of the cells on polystyrene coated with the conjugate BSA–peptide was similar or even better than the one obtained when the proadhesive protein fibronectin was coated on the plates. Results also indicated that covalent coupling of the peptide on BSA is not absolutely required, since simple adsorption of the peptide on the protein coated on plates was efficient for enhancing cell adhesion. These results show that polystyrene support can be reconditioned with conformationally constrained RGD peptides to enhance cell adhesion on solid supports. The same methodology can be adapted for the development of new biomaterials based on the recognition of specific peptides.     

Covisualization by computation optical-sectioning microscopy of integrin and associated proteins at the cell membrane of living onion protoplasts

Summary Using higher-resolution wide-field computational optical-sectioning fluorescence microscopy, the distribution of antigens recognized by antibodies against animal ₁ integrin, fibronectin, and vitronectin has been visualized at the outer surface of enzymatically protoplasted onion epidermis cells and in depectinated cell wall fragments. On the protplast all three antigens are colocalized in an array of small spots, as seen in raw images, in Gaussian filtered images, and in images restored by two different algorithms. Fibronectin and vitronectin but not ₁ integrin antigenicities colocalize as puncta in comparably prepared and processed images of the wall fragments. Several control visualizations suggest considerable specificity of antibody recognition. Affinity purification of onion cell extract with the same anti-integrin used for visualization has yielded protein that separates in SDS-PAGE into two bands of about 105–110 and 115–125 kDa. These bands are again recognized by the visualizationi antibody, which was raised against the extracellular domain of chicken ₁ integrin, and are also reconized by an antibody against the intracellular domain of chicken ₁ integrin. Because ₁ integrin is a key protein in numerous animal adhesion sites, it appears that the punctate distribution of this protein in the cell membranes of onion epidermis represents the adhesion sites long known to occur in cells of this tissue. Because vitronectin and fibronectin are matrix proteins that bind to integrin in animals, the punctate occurrence of antigenically similar proteins both in the wall (matrix) and on enzymatically prepared protoplasts reinforces the concept that onion cells have adhesion sites with some similarity to certain kinds of adhesioni sites in animals.     

Fibronectin fibril pattern displays the force balance of cell–matrix adhesion

Formation of fibrillar patterns of fibronectin on polymer substrates with gradated physicochemical surface properties was analysed during early stages of endothelial cell adhesion. Fibronectin was pre-adsorbed onto three maleic anhydride copolymer thin films with distinct differences in the protein adsorption strength as verified by heteroexchange experiments. The evolved micrometer scale fibrillar patterns of fibronectin on the compared polymer surfaces were characterized after 50 min of cellular reorganization by an auto-correlation analysis using fluorescence microscopy data. Statistical analysis revealed a decrease of the typical spacings of the fibronectin fibrils from 2.6 to 1.8 m with decreasing fibronectin adsorption strength to the substrate. Size and density of focal adhesions correlated with this dependence of the fibronectin fibril pattern. From these data a model was developed relating the fibronectin fibril pattern to the fibronectin-substrate adsorption strength through the cytoskeletal force regulation mechanism of the cell.     

Adhesion to fibronectin regulates Hippo signaling via the FAK–Src–PI3K pathway

The Hippo pathway is involved in the regulation of contact inhibition of proliferation and responses to various physical and chemical stimuli. Recently, several upstream negative regulators of Hippo signaling, including epidermal growth factor receptor ligands and lysophosphatidic acid, have been identified. We show that fibronectin adhesion stimulation of focal adhesion kinase (FAK)-Src signaling is another upstream negative regulator of the Hippo pathway. Inhibition of FAK or Src in MCF-10A cells plated at low cell density prevented the activation of Yes-associated protein (YAP) in a large tumor suppressor homologue (Lats)–dependent manner. Attachment of serum-starved MCF-10A cells to fibronectin, but not poly-d-lysine or laminin, induced YAP nuclear accumulation via the FAK–Src–phosphatidylinositol 4,5-bisphosphate 3-kinase (PI3K) signaling pathway. Attenuation of FAK, Src, PI3K, or PDK1 activity blocked YAP nuclear accumulation stimulated by adhesion to fibronectin. This negative regulation of the Hippo pathway by fibronectin adhesion signaling can, at least in part, explain the effects of cell spreading on YAP nuclear localization and represents a Lats-dependent component of the response to cell adhesion.     

Enhanced amylase production by Bacillus subtilis using a dual exponential feeding strategy

A recombinant Bacillus subtilis strain (ATCC 31784) haboring the plasmid pC194 with a thermostable -amylase gene was cultured in a 22-l B. Braun Biostat C fermenter. Traditional batch operations suffer from low cell mass and protein productions because a high initial glucose concentration causes substrate inhibition and also product inhibition due to acetate accumulation. An exponential fed-batch strategy to prevent these inhibitions was developed in this work. The host strain is auxotrophic for phenylalanine, tyrosine and tryptophan. Due to low solubilities of tyrosine and tryptophan in the feed stream, tyrosine and tryptophan were dissolved separately in ammonia water to form a second feed stream. By dual feeding both streams at different exponential feed rates, a high cell density of 17.6 g/l and a final -amylase activity of 41.4 U/ml and the overall biomass yield of 0.39 g cell/g glucose were achieved.     

RGD and YIGSR synthetic peptides facilitate cellular adhesion identical to that of laminin and fibronectin but alter the physiology of neonatal cardiac myocytes

In the mammalian heart, the extracellular matrix plays an important role in regulating cell behavior and adaptation to mechanical stress. In cell culture, a significant number of cells detach in response to mechanical stimulation, limiting the scope of such studies. We describe a method to adhere the synthetic peptides RGD (fibronectin) and YIGSR (laminin) onto silicone for culturing primary cardiac cells and studying responses to mechanical stimulation. We first examined cardiac cells on stationary surfaces and observed the same degree of cellular adhesion to the synthetic peptides as their respective native proteins. However, the number of striated myocytes on the peptide surfaces was significantly reduced. Focal adhesion kinase (FAK) protein was reduced by 50% in cardiac cells cultured on YIGSR peptide compared with laminin, even though ₁-integrin was unchanged. Connexin43 phosphorylation increased in cells adhered to RGD and YIGSR peptides. We then subjected the cardiac cells to cyclic strain at 20% maximum strain (1 Hz) for 48 h. After this period, cell attachment on laminin was reduced to 50% compared with the unstretched condition. However, in cells cultured on the synthetic peptides, there was no significant difference in cell adherence after stretch. On YIGSR peptide, myosin protein was decreased by 50% after mechanical stimulation. However, total myosin was unchanged in cells stretched on laminin. These results suggest that RGD and YIGSR peptides promote the same degree of cellular adhesion as their native proteins; however, they are unable to promote the signaling required for normal FAK expression and complete sarcomere formation in cardiac myocytes. cell adhesion; connexin43; focal adhesion kinase; surface chemistry     

The generation and characterization of a rat neural cell line overexpressing the α2,6(N) sialyltransferase

In order to examine the effects of altered protein sialylation on neural cell function, B104 rat neuroblastoma cells were stably transfected with the cDNA coding for 2,6(N) sialyltransferase (ST(6)N). Lectin blot analysis of the clones demonstrated an increase in staining of the Sambucus nigra lectin, which detects 2,6 linked sialic acid, in parallel with enzyme activity. There was a concomitant decrease in staining by the Maackia amurensis lectin which labels 2,3-linked sialic acid, indicating that the individual sialyltransferase enzymes may compete for penultimate galactose acceptor sites. While there was an initial increase in protein-bound sialic acid in parallel with enzyme activity, the sialylation of the cells was demonstrated to be saturable. There was an inverse relationship between cell adhesion to a fibronectin substrate and ST(6)N activity suggesting that the negatively charged sugar acts to modulate cell-substrate interaction. These cells will provide an ideal model system with which to further investigate the effect of altered sialic acid on neural cell function.     

Overexpression and feasible purification of thermostable L-2-halo acid dehalogenase ofPseudomonas sp. YL

The gene encoding thermostable L-2-halo acid dehalogenase ofPseudomonas sp. YL was isolated, and its over-expression system was constructed. Gene library was prepared fromSau3AI fragments of total DNA fromPs. sp. YL, pUC118 as a vector andEscherichia coli JM109 as a host. The recombinant cells resistant to bromoacetate, a germicide, were isolated and shown to produce L-2-halo acid dehalogenase. Subsequently, subcloning was carried out with pKK223-3 as a vector, and the length of DNA inserted was reduced to 1.1 kbp. One of the subclones showed very high activity, and the amount of the dehalogenase produced corresponded to about 30% of the soluble protein. From 5 g (wet weight) of cells, 105 mg of dehalogenase was efficiently purified by heat treatment and DEAE-Toyopearl chromatography. This overexpression system provides a large amount of the thermostable enzyme to enable us to study the properties, structure and application of the enzyme.Abbreviations IPTG isopropyl -D-thiogalactopyranoside - KPB potassium phosphate buffer - SDS sodium dodecyl sulfate - X-gal 5-bromo-4-chloro-3-indolyl--D-galactoside     

Inhibition of neutrophil adhesion by pectic galacturonans

The inhibition of the adhesion of neutrophils to fibronectin by the fragments of the main galacturonan chain of the following pectins was demonstrated: comaruman from the marsh cinquefoil Comarum polustre, bergenan from the Siberian tea Bergenia crassifolia), lemnan from the duckweed Lemna minor), zosteran from the eelgrass Zostera marina), and citrus pectin. The parent pectins, except for comaruman, did not affect the cell adhesion. Galacturonans prepared from the starting pectins by acidic hydrolysis were shown to reduce the neutrophil adhesion stimulated by phorbol 12-myristate 13-acetate (1.625 μM) and dithiothreitol (0.5 mM) at a concentration of 50–200 μg/ml. The presence of carbohydrate chains with molecular masses higher than 300, from 100 to 300, and from 50 to 100 kDa in the galacturonan fractions was proved by membrane ultrafiltration.     

Improvement of β-amylase thermostability in transgenic barley seeds and transgene stability in progeny

The genetic improvement of enzymes important in the brewing process is one of the main goals of barley biotechnology. For the improvement of -amylase thermostability in barley seeds, we have already constructed a mutant thermostable -amylase gene, using site-directed mutagenesis and random mutagenesis to achieve the substitution of seven amino acids of the original barley -amylase. This sevenfold-mutant barley -amylase showed a thermostability increased by 11.6 °C compared to the original enzyme. In the present article, a thermostable -amylase gene under the control of the barley -amylase promoter was introduced to barley protoplasts, and fertile plants were generated from 9 independent transgenic lines. Subsequent analyses indicated that the thermostable -amylase gene was expressed and -amylase activity derived from both native and modified genes was detected in the seeds of 6 transgenic lines. The transgene was stably transmitted to progeny, and thermostable -amylase was synthesized in T₄ seeds, demonstrating that our strategy is applicable for the improvement of seed quality for industrial utilization.     

Production of a high activity of an extremely thermostable β-mannanase by the thermophilic eubacterium Rhodothermus marinus, grown on locust bean gum

The production of a highly thermostable mannanase by Rhodothermus marinus was increased 16.5-fold by optimising the concentrations of locust bean gum and yeast extract using central composite designs. The optimised medium and culture conditions yielded mannanase activity at 495 nkat ml–1 (248 nkat mg–1 protein). In addition, -L-arabinofuranosidase, -xylanase, -xylosidase, -glucosidase, -mannosidase, -galactosidase, -galactosidase and endoglucanase activities were detected at 32 nkat ml–1, 30 nkat ml–1, 16 nkat ml–1, 15 nkat ml–1, 0.1 nkat ml–1, 1 nkat ml–1, 0.5 nkat ml–1 and 8 nkat ml–1, respectively. No filter paper cellulase activity could be detected. The optimum pH of the mannanase was 5.0–6.5 and it showed high stability from pH 5 to 10 after 16 h incubation at 50 °C. The enzyme activity was maximum at 85 °C, with half lives of 45.3 h at 85 °C and 4.2 h at 90 °C. This is the first report on the production of such a high activity of extremely thermostable mannanase by an extreme thermophilic bacterium. © Rapid Science Ltd. 1998     

A Protocadherin-Cadherin-FLRT3 Complex Controls Cell Adhesion and Morphogenesis

Background

Paraxial protocadherin (PAPC) and fibronectin leucine-rich domain transmembrane protein-3 (FLRT3) are induced by TGFβ signaling in Xenopus embryos and both regulate morphogenesis by inhibiting C-cadherin mediated cell adhesion.

Principal Findings

We have investigated the functional and physical relationships between PAPC, FLRT3, and C-cadherin. Although neither PAPC nor FLRT3 are required for each other to regulate C-cadherin adhesion, they do interact functionally and physically, and they form a complex with cadherins. By itself PAPC reduces cell adhesion physiologically to induce cell sorting, while FLRT3 disrupts adhesion excessively to cause cell dissociation. However, when expressed together PAPC limits the cell dissociating and tissue disrupting activity of FLRT3 to make it effective in physiological cell sorting. PAPC counteracts FLRT3 function by inhibiting the recruitment of the GTPase RND1 to the FLRT3 cytoplasmic domain.

Conclusions/Significance

PAPC and FLRT3 form a functional complex with cadherins and PAPC functions as a molecular “governor” to maintain FLRT3 activity at the optimal level for physiological regulation of C-cadherin adhesion, cell sorting, and morphogenesis.     

Design and expression of oligomeric fibronectin fusion protein: a strategy for enhancing cell adhesion activity

Cell adhesion to extracellular matrices, including fibronectin, results in clustering of integrins in focal adhesions. To promote the clustering of fibronectin and thus enhance its activity at the sites of focal adhesion formation, we have engineered a fusion protein containing recombinant fibronectin fragment (hFN) connected to the tetramerization helix domain of lac repressor for oligomeric assembly. Purified Lac-hFN fusion protein exhibited significant increase of cell adhesion and proliferation of GF cells compared with hFN alone (p < 0.05).     

Matrix metalloproteinase-2 Promotes αvβ3 Integrin-Mediated Adhesion and Migration of Human Melanoma Cells by Cleaving Fibronectin

Background

Matrix metalloproteinase-2 (MMP-2) is a key regulator in the migration of tumor cells. αvβ3 integrin has been reported to play a critical role in cell adhesion and regulate the migration of tumor cells by promoting MMP-2 activation. However, little is known about the effects of MMP-2 on αvβ3 integrin activity and αvβ3 integrin-mediated adhesion and migration of tumor cells.

Methodology/Principal Findings

Human melanoma cells were seeded using an agarose drop model and/or subjected to in vitro analysis using immunofluorescence, adhesion, migration and invasion assays to investigate the relationship between active MMP-2 and αvβ3 integrin during the adhesion and migration of the tumor cells. We found that MMP-2 was localized at the leading edge of spreading cells before αvβ3 integrin. αvβ3 integrin-mediated adhesion and migration of the tumor cells were inhibited by a MMP-2 inhibitor. MMP-2 cleaved fibronectin into small fragments, which promoted the adhesion and migration of the tumor cells.

Conclusion/Significance

MMP-2 cleaves fibronectin into small fragments to enhance the adhesion and migration of human melanoma cells mediated by αvβ3 integrin. These results indicate that MMP-2 may guide the direction of the tumor cell migration.     

The attachment to human buccal epithelial cells by Candida albicans: An in vitro kinetic study using concanavalin A

The early in vitro kinetics of Candida albicans attachment to human buccal epithelial cells was studied with the aid of an adhesion assay and solutions of concanavalin A (Con A), a lectin which is capable of inhibiting yeast adhesion. Various saccharides and putative receptor analogues were also tested. Solutions of each single reagent were added to tubes containing aliquots of mucosal cells and germinated yeasts at the beginning of a 1-hour incubation period (time O) or at 10 minute intervals during the assay. The number of yeasts attached to 200 mucosal cells was subsequently determined microscopically. Yeast adhesion remained constant following addition of phosphate-buffered saline (PBS) at time 0 or at any time thereafter. However, addition of Con A at 0, 10 or 20 minutes of incubation decreased adhesion significantly to 38%, 45% and 63% of control values. This inhibitory effect dwindled as time of incubation prior to lectin addition increased and Con A could not inhibit adhesion significantly after twenty minutes. Results obtained with Con A using live germinated yeasts were similar to those obtained with formalin-killed C. albicans. The other reagents tested failed to decrease adhesion significantly. These included the putative receptor analogues fibronectin, N-acetyl-d-glucosamine and d-galactose, and several non-specific saccharides such as -d-methylglucopyranoside, d-ribose and d-xylose. It is suggested that in vitro attachment to human mucosal cells by C. albicans is inhibitable up to a defined point in time by a lectin with affinity for mannosecontaining surface moieties, but becomes non-reversible thereafter. This experimentally-observed irreversibility is independent of yeast cell viability.     

Panosialins, inhibitors of an α1,3-fucosyltransferase Fuc-TVII, suppress the expression of selectin ligands on U937 cells

Panosialins A and B were isolated as inhibitors of an 1,3-fucosyltransferase, Fuc-TVII, which is a key enzyme in the biosynthesis of selectin ligands, from culture broth of Streptomyces sp. Panosialins A and B inhibited the Fuc-TVII activity with IC50 values of 4.8 and 5.3 g/ml, respectively. Panosialin A suppressed expression of selectin ligands on U937 cells, and inhibited the cell adhesion to immobilized E-selectin-immunoglobulin. Panosialins are the first reported Fuc-TVII inhibitors which can suppress the biosynthesis of selectin ligands and then inhibit selectin-mediated cell adhesion.     

Human fibronectin contains distinct adhesion- and motility-promoting domains for metastatic melanoma cells

The active migration of tumor cells through extracellular matrices has been proposed to play a role in certain aspects of metastasis. Metastatic tumor cells migrate in vitro in response to substratum-bound adhesive glycoproteins such as fibronectin. The present studies use affinity-purified proteolytic fragments of fibronectin to determine the nature of adhesion- and/or motility-promoting domains within the protein. Two distinct fragments were identified with cell adhesion-promoting activities. By a number of criteria, the adhesive activity promoted by these two fragments was distinct. One fragment, a 75-kD tryptic fragment purified by monoclonal antibody chromatography, promoted the adhesion, spreading, and haptotactic motility of melanoma cells. Experiments using a synthetic cell attachment peptide in solution indicated that at least part of the attachment activity exhibited by the 75-kD fragment is mediated by the sequence arg-gly-asp-ser. It was not possible to demonstrate migration-stimulating activity using a small (11.5 kD) peptic fragment containing this sequence (Pierschbacher, M.D., E. G. Hayman, and E. Ruoslahti, 1981, Cell, 26:259-267) suggesting that another cell-binding activity within the 75 kD fragment distinct from arg-gly-asp-ser might be required for motility. The second fragment that stimulated melanoma adhesion was a 33-kD tryptic/catheptic carboxyl-terminal heparin-binding fragment, which is localized to the A chain of fibronectin. This fragment promotes adhesion and spreading but not the motility of these cells. Melanoma adhesion to this heparin-binding fragment was sensitive to the effects of cycloheximide, which contrasted adhesion to the haptotaxis-promoting fragment. Importantly, these studies illustrate that haptotaxis in response to fibronectin is not due to simple adhesion gradients of this protein. The results are discussed in light of a model for multiple distinct cell surface constituents mediating cell adhesion and motility on fibronectin.     

Essential role of the small subunit of thermostable glucose dehydrogenase from <Emphasis Type="Italic">Burkholderia cepacia</Emphasis>

The co-expression in Escherichia coli of the -subunit and the catalytic -subunit of the thermostable glucose dehydrogenase (GDH) from Burkholderia cepacia sp. SM4 produced 12.7 U GDH activity mg^–1 protein. A 47-amino acid, twin-arginine translocase signal peptide was identified at the amino terminus of the -subunit. The expression of the -subunit in the absence of the -subunit or the -subunit signal peptide failed to produce any detectable GDH protein or activity. The -subunit may be a chaperone-like component that assists folding of the -subunit polypeptide to the active form and its translocation to the periplasm.     

Effect of fungicides,insecticides and allosamidin on a thermostable chitinase from Bacillus sp. BG-11

A purified, thermostable chitinase from Bacillus sp. BG-11 retained 90% of its activity in the presence of fungicides such as Aromex, Captafol, Captan, Chlorothalonil, Dinocap, Metalaxyl, sulphur, Triadimefon, and insecticides such as Acephate, Chloropyriphos, Cypermethrin, Diclovorus, Dimethoate, Methomyl, Malathion, Methylparathion and Monocrotophos at a concentration of 100 g active ingredient per ml of enzyme solution. Allosamidin inhibited the chitinase with IC₅₀ value of 48 M.