Cellular and molecular properties associated with osteosarcoma cells

Osteosarcoma cells are recognized by abnormal function that causes a primary bone tumor. Osteosarcoma cells U₂OS and SAOS‐2 were analyzed for the expression of cell surface markers. High expression was quantified for hyaloronidase receptor (CD‐44) > moderate for integrins (CD‐51 and ‐61), > and lower for selectins (CD‐62). High mitotic capacity were demonstrated by gene expression (measured by RT‐PCR) and the protein level (measured by FACS) for cFOS, cMYC, and cJUN. The basic definition of osteosarcoma is excessive production of pathological osteoid. Expression of mRNA for matrix genes osteocalcin, osteonectin, and biglycan was studied. Osteocalcin and osteonectin were detected in RNA from primary cultured marrow stromal, trabecular bone cells, and osteosarcoma cell lines (U₂OS, SAOS‐2). mRNA for biglycan was detected only in primary cells and MG‐63 cell line and was undetectable in RNA from U₂OS, SAOS‐2 osteosarcoma cell lines and by RNA extracted from bone biopsies of osteosarcoma patients. The absence of biglycan message observed in osteosarcoma samples provides evidence for the alterations in the extra cellular matrix which result with non‐mineralized osteoid produced by the osteosarcoma cells. J. Cell. Biochem. 84: 108–114, 2002. © 2001 Wiley‐Liss, Inc.     

Laminin fragment E8 mediates PC12 cell neurite outgrowth by binding to cell surface beta 1,4 galactosyltransferase

A number of cell surface receptors bind to distinct laminin domains, thereby mediating laminin's diverse biological activities. Cell surface beta 1,4-galactosyltransferase (GalTase) functions as one of these laminin receptors, facilitating mesenchymal cell migration and PC12 cell neurite outgrowth on laminin. In this study, the GalTase binding site within laminin was identified as the E8 fragment by assaying purified fragments and by immunoprecipitating and immunoblotting galactosylated laminin using E8-reactive antibodies. Compared with intact laminin and other laminin fragments, E8 possessed the highest GalTase binding activity, using both membrane-bound and solubilized GalTase. More significantly, the neurite-promoting activity of fragment E8 was shown to be dependent upon its interaction with GalTase. Pregalactosylating purified E8 eliminated subsequent GalTase binding and consequently inhibited neurite initiation; parallel studies on laminin fragments E1-4 or E1 failed to affect neurite outgrowth. Furthermore, anti-GalTase IgG inhibited neurite initiation on purified E8 substrates; control IgG had no effect. These results localize the predominant GalTase binding domain in laminin to fragment E8 and demonstrate that the neurite-promoting activity of E8 is dependent upon its interaction with GalTase.     

Receptor function of mouse sperm surface galactosyltransferase during fertilization

Past studies from this laboratory have suggested that mouse sperm binding to the egg zona pellucida is mediated by a sperm galactosyltransferase (GalTase), which recognizes and binds to terminal N-acetylglucosamine (GlcNAc) residues in the zona pellucida (Shur, B. D., and N. G. Hall, 1982, J. Cell Biol. 95:567-573; 95:574-579). We now present evidence that directly supports this mechanism for gamete binding. GalTase was purified to homogeneity by sequential affinity-chromatography on GlcNAc-agarose and alpha-lactalbumin-agarose columns. The purified enzyme produced a dose-dependent inhibition of sperm binding to the zona pellucida, relative to controls. To inhibit sperm/zona binding, GalTase had to retain its native conformation, since neither heat-inactivated nor Mn++-deficient GalTase inhibited sperm binding. GalTase inhibition of sperm/zona binding was not due to steric blocking of an adjacent sperm receptor on the zona, since GalTase could be released from the zona pellucida by forced galactosylation with UDPGal, and the resulting galactosylated zona was still incapable of binding sperm. In control experiments, when UDPGal was replaced with the inappropriate sugar nucleotide, UDPglucose, sperm binding to the zona pellucida remained normal after the adsorbed GalTase was washed away. The addition of UDPGal produced a dose-dependent inhibition of sperm/zona binding, and also dissociated preformed sperm/zona adhesions by catalyzing the release of the sperm GalTase from its GlcNAc substrate in the zona pellucida. Under identical conditions, UDP-glucose had no effect on sperm binding to the zona pellucida. The ability of UDPGal to dissociate sperm/zona adhesions was both time- and temperature-dependent. UDPGal produced nearly total inhibition of sperm/zona binding when the zonae pellucidae were first galactosylated to reduce the number of GalTase binding sites. Finally, monospecific anti-GalTase IgG and its Fab fragments produced a dose-dependent inhibition of sperm/zona binding and concomitantly blocked sperm GalTase catalytic activity. Preimmune IgG or anti-mouse brain IgG, which also binds to the sperm surface, had no effect. The sperm GalTase was localized by indirect immunofluorescence to a discrete plasma membrane domain on the dorsal surface of the anterior head overlying the intact acrosome. These results, along with earlier studies, show clearly that sperm GalTase serves as a principal gamete receptor during fertilization.     

Molecular and cellular characterization of SEL-OB/SVEP1 in osteogenic cells in vivo and in vitro

We describe a novel human gene, named SEL-OB/SVEP1, expressed by skeletal tissues in vivo and by cultured osteogenic cells. The mRNA expression was analyzed on frozen tissues retrieved by laser-capture microscope dissection (LCM) and was detected in osteogenic tissues (periosteum and bone) but not in cartilage or skeletal muscle. The SEL-OB/SVEP1 cDNA of 11,139 bp was in silico translated into a 3574AA protein with expected molecular weight of 370 kDa. The protein is composed of multiple domains including complement control protein (CCP) modules with selectin superfamily signature; sushi and other domains, such as vWA, EGF, PTX, and HYR. Stromal osteogenic cells were analyzed for the protein expression using anti-SEL-OB/SVEP1 for immuno-precipitation and Western blot application confirm the presence of high molecular weight protein. Immuno-histochemistry and fluorescence-activated cell sorting (FACS) were applied to detect SEL-OB/SVEP1 on the surface of stromal cells. ELISA quantified the dependence of protein expression on cell density. Bioinformatic analysis of SEL-OB/SVEP1 revealed domains compositions recognized in cell surface molecules and suggested its role in cell adhesion. Analysis of mesechymal osteogenic cells' adhesion in presence of anti-SEL-OB/SVEP1 antibody demonstrated its interference with initial adhesion stages. In summary, present study describes novel SEL-OB/SVEP1 protein with a unique composition of functional domains, restricted pattern of expression in skeletal cells and demonstrated involvement in attachment of mesenchymal cells. The unusual composition of functional domains puts SEL-OB/SVEP1 in the discrete new group of membrane proteins involved in cell adhesion processes. All together makes SEL-OB/SVEP1 an attractive marker for studying the role of stromal osteogenic cells and their interactions within the bone marrow microenvironment creating a network that regulates the skeletal homeostasis.     

Cav-1 participates in the development of diabetic neuropathy pain through the TLR4 signaling pathway

This study aims to determine whether caveolin-1 (Cav-1) participates in the process of diabetic neuropathic pain by directly regulating the expression of toll-like receptor 4 (TLR4) and the subsequent phosphorylation of N-methyl-D-aspartate receptor 2B subunit (NR2B) in the spinal cord. Male Sprague-Dawley rats (120–150 g) were continuously fed with high-fat and high-sugar diet for 8 weeks, and received a single low-dose of intraperitoneal streptozocin injection in preparation for the type-II diabetes model. Then, these rats were divided into five groups according to the level of blood glucose, and the mechanical withdrawal threshold and thermal withdrawal latency values. The pain thresholds were measured at 3, 7, and 14 days after animal grouping. Then, eight rats were randomly chosen from each group and killed. Lumbar segments 4–6 of the spinal cord were removed for western blot analysis and immunofluorescence assay. Cav-1 was persistently upregulated in the spinal cord after diabetic neuropathic pain in rats. The downregulation of Cav-1 through the subcutaneous injection of Cav-1 inhibitor daidzein ameliorated the pain hypersensitivity and TLR4 expression in the spinal cord in diabetic neuropathic pain (DNP) rats. Furthermore, it was found that Cav-1 directly bound with TLR4, and the subsequent phosphorylation of NR2B in the spinal cord contributed to the modulation of DNP. These findings suggest that Cav-1 plays a vital role in DNP processing at least in part by directly regulating the expression of TLR4, and through the subsequent phosphorylation of NR2B in the spinal cord.     

A preliminary method for estimating the age of brown kiwi (Apteryx mantelli) embryos

Morphological features of a collection of unknown-age wild kiwi (Apteryx mantelli) embryos from early development to point of hatch are described. Using these features, we assign developmental stages to each embryo and compare the progress of development to similar-staged ostrich (Struthio camelus) and chicken (Gallus gallus) embryos. Two ageing schemes for the kiwi embryos are developed by comparing measurements of their hindlimb segments, bills and crown–rump lengths with those of ostrich and chicken embryos at various stages of development. One of the 20 kiwi embryos was of known age. Both the ostrich model and the chicken model gave identical predictions for the marker and four other embryos. Developmental timing of some features differed between all three species, most markedly in the bill, with growth in the kiwi bill being relatively faster to achieve its larger relative and absolute size at hatch.     

Estrogen, efferent ductules, and the epididymis

Estrogen's presence in the male reproductive system has been known for over 60 years, but its potential function in the epididymis remains an important area of investigation. Estrogen is synthesized by germ cells, producing a relatively high concentration in rete testis fluid. There are two estrogen receptors (ESR), the presence of which in the head of the epididymis is well documented and consistent between species; however, in other regions of the epididymis, their expression appears to be isotype, species, and cell specific. ESR1 is expressed constitutively in the epididymis; however, its presence is downregulated by high doses of estrogen, making the design of experiments complicated, as the phenotype of the Cyp19a1(-/-) mouse does not resemble that of the Esr1(-/-) mouse. Ligand-independent and DNA-binding Esr1 mutant models further demonstrate the complexity and importance of both signaling pathways in maintenance of efferent ductules and epididymis. Data now reveal the presence of not only classical nuclear receptors, but also cytoplasmic ESR and rapid responding membrane receptors; however, their importance in the epididymis remains undetermined. ESR1 regulates ion transport and water reabsorption in the efferent ducts and epididymis, and its regulation of other associated genes is continually being uncovered. In the male, some genes, such as Aqp9 and Slc9a3, contain both androgen and estrogen response elements and are dually regulated by these hormones. While estrogen pathways are a necessity for fertility in the male, future studies are needed to understand the interplay between androgens and estrogens in epididymal tissues, particularly in cell types that contain both receptors and their cofactors.     

The effect of media pH and autocatalytic phosphorylation on the interaction of kinase phosphorylase with calmodulin

Using calmodulin covalently labeled with dansyl, the Ca2(+)-dependent interaction of phosphorylase kinase with calmodulin has been studied. It has been shown that at pH 6.8 the (alpha beta gamma delta) protomer of the enzyme binds 2.1 +/- 0.8 mol of calmodulin with Kd = (6.67 +/- 1.77).10(-8) M. The enzyme activation induced by the pH increase up to 8.2 does not affect the enzyme interaction with calmodulin [2.14 +/- 0.58 mol calmodulin per mol of (alpha beta gamma delta)]; Kd = (4.14 +/- 1.22).10(-8) M. However, the enzyme activation during its autocatalytic phosphorylation eliminates this effect practically completely.     

Effect of pH on conformation and kinetic properties of phosphorylase from bovine skeletal muscles

Interaction of phosphorylase with 8-anilino-1-naphthalene-sulfonate (ANS) results in the formation of an ANS-protein complex. The microenvironment of the protein-bound dye changes depending on pH. Using fluorimetric titration, the dissociation constants for the complex (Kd = 23 and 57 microM for pH 6.2 and 6.8, respectively) were determined. The mode of the enzyme inhibition by ANS also changes depending on pH. At pH 6.8, ANS competitively inhibits the enzyme with respect to AMP, but does not compete with the nucleotide at pH 6.2; the corresponding Ki values are equal to 160 and 26 microM. The protective effect of ligands from the inhibiting effect of ANS was studied. It was shown that at pH 6.2, the enzyme is protected from the inhibition only by the substrate, glucose-1-phosphate, whereas at pH 6.8--by the allosteric inhibitor, glucose-6-phosphate. These findings suggest that at pH 6.2 the conformation of the enzyme molecule is induced by the substrate, while at pH 6.8--by the allosteric inhibitor. ANS binding in the vicinity of the active or allosteric centers is due to the pH-dependent conformational transition. The data obtained suggest that the pH changes within the range of 6.2-6.8 are essential for the regulation of enzyme activity.