Overexpression of the CD155 gene in human colorectal carcinoma.

BACKGROUND AND AIMS: The Tage4 gene (tumour associated glycoprotein E4) is overexpressed in rat colon tumours and Min mouse intestinal adenomas. The rat Tage4 protein has approximately 40% identity with human CD155, a member of the immunoglobulin superfamily coding for a transmembrane protein capable of serving as an entry receptor for poliovirus, porcine pseudorabies virus, and bovine herpesvirus 1. Analysis of the rat Tage4 gene has revealed structural and functional similarities with the human CD155 gene. We therefore investigated expression of the CD155 gene in human colorectal carcinomas. METHODS: Overall CD155 expression was assessed by semiquantitative reverse transcription-polymerase chain reaction (RT-PCR) and immunohistochemical analysis using tissue specimens from patients with colorectal adenomas and adenocarcinomas. We also used a qualitative RT-PCR assay to determine relative expression of different splicing variants in each sample. RESULTS: mRNA levels of CD155 were increased in six of six colorectal cancer tissues compared with the tumour free colon mucosa. Immunohistochemical analysis revealed an increased level of CD155 protein in 12 of 12 samples. The qualitative RT-PCR assay revealed that relative expression of the different CD155 variant transcripts was similar in the different normal and cancer samples tested, indicating that this overexpression is not associated with a particular mRNA variant generated by alternative splicing of the CD155 gene. CONCLUSION: We have shown for the first time that the CD155 gene is overexpressed in colorectal carcinoma and that this overexpression begins at an early stage in tumorigenesis and continues to late stages.

Retinoic acid modulation of alpha(1-->2) fucosyltransferase activity and sensitivity of tumor cells to LAK-mediated cytotoxicity.

We examined the effects of all-trans retinoic acid (RA) on alpha(1-->2) fucosyltransferase activity and sensitivity to LAK-mediated cytotoxicity in two rat colon carcinoma cell lines differing by their glycosylation state and their tumorigenic potential. RA induced a decrease in alpha(1-->2) fucosyltransferase activity in the more tumorigenic variant PROb. Fucosyltransferase mRNA levels were not affected by RA treatment in PROb cells, suggesting a posttranscriptional control. This inhibition was accompanied by a decreased expression of fucosylated membrane glycoconjugates and by a significant increase in the sensitivity to LAK-mediated cytotoxicity. REGb cells, which exhibited a very low enzymatic activity and very few fucosylated glycoconjugates, were more sensitive to LAK-lysis than PROb cells and were not affected by RA treatment.

Analysis of factors associated with the tumorigenic potential of 12 tumor clones derived from a single rat colon adenocarcinoma.

We analyzed several factors which could influence the immunogenicity of colon tumor cells, using a series of clones derived from a single chemically induced rat adenocarcinoma cell line. These clones display variable tumorigenic potential in syngeneic immunocompetent animals, and it has been established that in this model the tumorigenicity of the cells depends on their ability to escape immune surveillance. The results show an absence of relationship between tumorigenicity and expression of MHC-class-I antigens, cell adhesion to rat fibroblasts or fibroblast extracellular matrix. The secretion of latent and active TGF beta I appeared to be quite variable from one clone to the other, but was unrelated to tumorigenicity. Unexpectedly, some regressive clones produced elevated levels of this cytokine, suggesting that in this model, spontaneous secretion of TGF beta I is not sufficient to impair the immune system of the host. In contrast, the more tumorigenic clones were more resistant than less tumorigenic ones to cytotoxicity mediated by NK or LAK cells. They also showed arrest of cell proliferation after reaching confluence, something not observed in the less tumorigenic clones. Finally, the strongest relationship with tumorigenicity was found for expression of blood-group carbohydrate antigens. Increased expression of blood-group-H antigen and, conversely, decreased expression of beta-galactoside precursors of this antigen correlated with increased tumorigenicity.

Involvement of histo-blood-group antigens in the susceptibility of colon carcinoma cells to natural killer-mediated cytotoxicity.

The susceptibility to natural-killer-cell lysis and expression of histo-blood-group antigens of 2 clones from a rat colon adenocarcinoma, of variants derived from them and of 17 human colon carcinoma cell lines were assessed in an attempt to determine if the major glycosidic tissue antigens of epithelial cells could influence the NK susceptibility of tumor target cells of epithelial origin. The rat REGb clone, which is relatively NK-sensitive, expressed higher levels of precursor structures T and Tn and lower levels of H antigenic determinants than the PROb clone, which displays higher resistance to NK-cell lysis. Cell variants were obtained from these 2 clones; it appeared that whether the cell variants were selected on the basis of expression of a blood-group antigenic determinant or on the basis of altered susceptibility to NK-cell lysis, there was a link between increased resistance and higher expression of cell-surface A and H histo-blood-group antigens, or conversely, between increased sensitivity and higher expression of precursor structures. Similar conclusions were obtained upon study of the human cell lines, since a significant correlation was found between the level of expression of T or Tn antigens and sensitivity to NK-cell lysis. A significant relationship was found between the expression of Lewis antigens and increased resistance to NK-cell-mediated cytotoxicity.

Biological effects of glucocorticoid hormones on two rat colon adenocarcinoma cell lines.

Glucocorticoid hormones are thought to play a role in carcinogenesis as they regulate cell differentiation and proliferation. We have investigated the effect of dexamethasone on two cell lines derived from a colon carcinoma, which differ by their tumorigenicity. Dexamethasone was found to inhibit growth of both the progressive (PROb) and the regressive clone (REGb). Upon glucocorticoid treatment, PROb cells were found to secrete an additional Mr approximately 40,000 protein. The synthesis and the release in the culture medium of this protein is stimulated specifically by glucocorticoid agonists, and not by other steroid hormones. The anti-glucocorticoid RU 38486 is inefficient and suppresses the induction of this protein by dexamethasone. Induction is sensitive to actinomycin D, suggesting that regulation may be related to an alteration of the rate of mRNA synthesis. The cellular effect of glucocorticoid hormones being mediated through a specific soluble receptor, we have characterized this protein. The PROb cells contained more specific glucocorticoid-binding sites (approximately 170,000 sites per cell) than the regressive ones (REGb cells; approximately 100,000 sites per cell). In both clones, the receptor was associated with the Mr approximately 90,000 heat shock protein to yield large complexes (Stokes radius Rs approximately 7.5 nm), which were dissociated to the same extent upon heat- and salt-treatment. The steroid- and DNA-binding unit of the receptor, characterized under denaturing conditions using an anti-receptor monoclonal antibody, was found to be more degraded in the PROb cell line.

Glucocorticoid effects and receptors in two rat colon carcinoma cell lines differing by their tumorigenicity.

Steroid hormones, regulators of cell differentiation and proliferation, are believed to play a role in carcinogenesis. Glucocorticoid hormones in particular modulate the expression of a number of proteins implicated in this process. We have investigated the effect of dexamethasone on two cell lines derived from a colon carcinoma, which differ by their tumorigenicity. Dexamethasone was found to inhibit growth of both the progressive (PROb) and the regressive clone (REGb). Upon hormonal treatment, glucocorticoid hormones induced fibronectin secretion by the two clones, whereas PROb cells were found to secrete an additional Mr approximately 43,000 protein. The cellular effect of glucocorticoid hormones being mediated through a specific soluble receptor, we have characterized this protein. The progressive cells (PROb) contained more specific glucocorticoid-binding sites (approximately 170,000 sites per cell) than the regressive ones (REGb cells; approximately 100,000 sites per cell). In both clones, the receptor was associated with the Mr approximately 90,000 heat shock protein to yield large complexes (Stokes radius Rs approximately 7.5 nm), which were dissociated to the same extent upon heat- and salt-treatment. The steroid- and DNA-binding unit of the receptor, characterized under denaturing conditions using an anti-receptor monoclonal antibody was found to be more degraded in the progressive cell line.

Reaction of tyrosyl-modifying reagents with the ligand- and DNA-binding domains of the rabbit liver glucocorticoid receptor.

We have studied the effects of p-nitrobenzenesulfonyl fluoride, 4-fluorosulfonyl-1-hydroxy-2-naphtoic acid, 7-chloro-4-nitrobenz-2-oxa-1,3-diazole and tetranitromethane on the glucocorticoid receptor from rabbit liver. Our results show that all tyrosine modifying reagents inhibit the binding of [3H]dexamethasone to the receptor. Equilibrium binding experiments revealed that only 4-fluorosulfonyl-1-hydroxy-2-naphtoic acid is a competitive inhibitor while the other chemical probes decrease the concentration of binding sites. Transformation of glucocorticoid-receptor complexes was markedly reduced when heat treatment was performed in the presence of tyrosyl-directed reagents. Taken together, these results indicate for the first time that critical tyrosyl moieties may be involved in both hormone binding and transformation of the glucocorticoid receptor.

One-step 10(4)-fold purification of transformed glucocorticoid receptor. Method for purifying receptors associated with Mr ca. 90,000 heat-shock protein.

Chromatography of rabbit glucocorticoid-receptor complexes in the absence of sodium molybdate on a Mono Q anion-exchange column induces the transformation of the receptor and allows the resolution of the transformed and non-transformed molecular species. These abilities were used to design a new purification scheme for the glucocorticoid receptor from rabbit liver in its transformed state. Microgram amounts of receptor were obtained using this single-step procedure in less than 2 h. The purification yield was 50-60%. Immunoblot experiments showed that the glucocorticoid receptor was present as an Mr approximately 94,000 polypeptide in these preparations and represented 20-30% of the eluted proteins as determined by densitometric scanning analysis of silver-stained sodium dodecyl sulphate polyacrylamide gels. Finally, the purified receptor was able to interact quantitatively with bulk DNA.

[Microalbuminuria: evaluation of an immunoturbidimetric method and an immunonephelemetric method]. / Micro-albuminurie: évaluation d'une méthode immunoturbidimétrique et d'une méthode immunonéphélémétrique.

Two methods for measurement microalbuminuria are appraised to take the place of RIA. One is immunonephelemetry, using a "closed" immunochemistry analyzer of modest price. The other one is immunoturbidimetry on an "open" centrifugal analyzer, which is of a middle price. The results which are obtained by IN and IT are compared statistically to the RIA. These methods give satisfaction for practicability, precision and accuracy and can be used in any biological laboratory.

Occurrence of glucocorticoid binding sites in solubilized microsomes from rat liver.

Recent studies suggested the presence of specific glucocorticoid binding sites on rat liver microsomal membranes. We report here a new solubilization procedure which allows the physicochemical characterization of the microsomal glucocorticoid binding sites. Solubilization was achieved with 2 mM CHAPS in the presence of 5 mM benzamidine. Binding of [3H]cortisol showed a high affinity (Kd = 5.1 x 10(-9) M) and a limited capacity (0.72 pmol/mg of protein). The binding activity was abolished by elevated temperature and pronase. Competition experiments revealed that natural glucocorticoids and progesterone were highly potent competitors whereas dexamethasone and triamcinolone acetonide did not compete. Chromatography on DEAE Trisacryl and heparin Ultrogel confirmed that the solubilized protein is different from corticosteroid binding globulin and the cytosolic glucocorticoid receptor. Treatment of microsomal fractions with phosphatidyl inositol phospholipase C promoted the release of specific binding activity suggesting a putative glycosylphosphatidyl anchor for this protein. This finding may have interesting implications concerning the mechanism of glucocorticoid hormone action.

Application of high-performance ion-exchange chromatography to the analysis of cytosolic glucocorticoid receptor.

The use of high-performance ion-exchange chromatography (HPIEC) on a Mono Q column was investigated for the analysis of glucocorticoid receptor. In the presence of 10 mM sodium molybdate, both liganded and unliganded glucocorticoid receptor were eluted as a single and sharp peak (0.32 M NaCl). In the absence of molybdate and after exposure to heat and salt, another peak of specifically bound radioactivity was eluted with 0.08 M NaCl. When HPIEC was performed in the absence of molybdate, two molecular forms of the liganded receptor were detected which eluted with 0.08 M NaCl (Stokes' radius Rs = 5.1 nm, s20,w = 4.6 S, calculated mol. wt Mr approximately 100,000) and 0.32 M NaCl (Rs = 7.3 nm, S20,w = 9.0 S, calculated Mr approximately 280,000). Analysis of both forms with mini-columns of DNA-Ultrogel, DEAE-Trisacryl and hydroxylapatite (HA-Ultrogel) confirmed the identity of the two peaks with transformed and non-transformed glucocorticoid-receptor complexes. These results suggest that HPIEC may provide a useful tool for the rapid resolution and quantification of receptor molecular forms.

Affinity of corticosteroids for mineralocorticoid and glucocorticoid receptors of the rabbit kidney: effect of steroid substitution.

Corticosteroid derivatives coupled in the C3, C7 or C17 position with a long aliphatic chain were synthesized in order to select a suitable ligand for the preparation of a biospecific affinity adsorbent for mineralocorticoid receptor purification. The affinity of these derivatives for mineralocorticoid receptors (MR) and glucocorticoid receptors (GR) was explored in rabbit kidney cytosol. In this model, aldosterone bound to a single class of receptors with high affinity (Kd 1 nM) and mineralocorticoid specificity. RU26988, a highly specific ligand for GR, did not compete for these sites. The C7 and C17 positions were found to be of crucial importance in the steroid's interaction with the mineralocorticoid receptors, since the linkage of a long side chain in these positions induced complete loss of affinity. Hence, deoxycorticosterone no longer bound to MR after 17 beta substitution with a 9-carbon aliphatic chain. This loss of affinity was not observed for glucocorticoids. The 17 beta nonylamide derivative of dexamethasone still competed for GR. Increasing the length of the C7 side of the spirolactone SC26304 suppressed its affinity for MR. Finally, C3 was an appropriate position for steroid substitution. The 3-nonylamide of carboxymethyloxime deoxycorticosterone bound to MR but not to GR, and therefore constitutes a suitable ligand for the preparation of a mineralocorticoid adsorbent.

Cross-reactivity of a monoclonal antiglucocorticoid receptor antibody BuGR1 with glucocorticoid and mineralocorticoid receptors of various species.

The reactivity of a monoclonal antibody BuGR1, raised against glucocorticoid receptors of rat liver, with glucocorticoid and mineralocorticoid receptors of mammalian (rabbit) and amphibian (A6 cells) origin was examined. The glucocorticoid receptors of rabbit kidney and liver and of A6 cells were labeled with tritiated dexamethasone. The mineralocorticoid receptors were labeled with tritiated aldosterone in the presence or absence of RU26988, depending on whether aldosterone was bound to glucocorticoid receptors (A6 cells) or not (rabbit kidney), in addition to its binding to mineralocorticoid receptors. BuGR1 did not recognize mineralocorticoid receptors of A6 cells and rabbit kidney. BuGR1 cross-reacted with glucocorticoid receptors of rabbit liver and kidney but not of A6 cells, suggesting that the domain of glucocorticoid receptors recognized by BuRG1 could be present only in the mammalian species. The findings indicate that BuGR1 shows species differences as well as receptor class specificity.

Interaction of rat liver glucocorticoid receptor with lectins: is the glucocorticoid receptor a glycoprotein?

Although glucocorticoid receptors have been extensively studied in a variety of tissues, the precise nature of the receptor protein still remains unknown. To further characterize this protein we assessed the effects of various lectins on [3H]dexamethasone binding to prepurified preparations of rat liver glucocorticoid receptor. Among the lectins tested only Ulex europeus and Lens culinaris induced a concentration-related decrease in [3H]dexamethasone binding. Following Ulex europeus or Lens culinaris exposure Scatchard analysis showed that these lectins led to a 3-fold reduction in receptor affinity without influencing the concentration of binding sites. These results provide new experimental evidence that rat liver glucocorticoid receptor would possess alpha-L-fucosyl and alpha-D-mannopyranoside residues in close proximity to the glucocorticoid receptor binding domain.

Nontransformed rabbit liver glucocorticoid receptor: purification, characterization and transformation.

The molybdate-stabilized nontransformed form of the glucocorticoid receptor from rabbit liver has been purified approximately 8,000-fold by a three-step procedure. The first step involved protamine sulfate precipitation which allowed a 5-6-fold purification with 85% yield. The second step, affinity chromatography using a N-(12-dodecyl-amino) 9 alpha-fluoro-16 alpha-methyl-11 beta, 17 alpha-dihydroxy-3-oxo-1,4-androstadiene-17 beta-carboxamide substituted Sepharose gel, purified the receptor 1,500-2,000-fold as calculated by specific radioactivity. The third step involved high performance liquid chromatography resulting in overall purification near 8,000-fold. The final glucocorticoid receptor appeared about 60% pure. The purified nontransformed glucocorticoid receptor had a sedimentation coefficient of 9 S in 0.16 M phosphate containing 5-20% sucrose gradients and the Stokes radius was 6.1-6.3 nm as determined by low pressure gel filtration and HPLC. Binding specificity of the purified receptor was identical to that previously reported in crude rabbit liver cytosol. Isoelectricfocusing and ion-exchange chromatography showed that the purification procedure affected the net charge of the receptor protein. This phenomenon could be related to interactions between the glucocorticoid receptor and cytosolic factors. SDS polyacrylamide gel electrophoresis showed a major Mr = 94,000 protein band which is in good agreement with previously reported values for glucocorticoid receptors. Transformation of the purified receptor was achieved after removal of molybdate by exposure at 25 degrees C to 0.4 M KCl. Characterization of the molecular forms was performed by means of incorporation into isolated nuclei, affinity towards polyanionic exchangers and high pressure size exclusion chromatography. Results show that about 40% of the receptor is in the transformed state.

Influence of molybdate, ionic strength and pH on ligand binding to the glucocorticoid receptor.

The addition of molybdate to rabbit liver cytosol increased significantly the affinity of the glucocorticoid receptor for [3H] dexamethasone without influencing the concentration of binding sites. This effect was concentration dependent. Analysis of the binding data by curve-fitting and Scatchard plot revealed the occurrence of a complex binding process in the presence of molybdate. The pH-dependence curve of the binding was shifted towards alkaline values by the oxyanion. Taken together, these data suggest that molybdate exerts its effects via an interaction with the receptor molecule.

Resolution of the molecular forms of rat liver glucocorticoid receptor by affinity chromatography on immobilized heparin.

Rat liver cytosolic glucocorticoid receptor labelled with [3H] dexamethasone and stabilized with molybdate was bound to heparin-ultrogel and eluted with NaCl or heparin as a single peak of radioactivity. After heat exposure of cytosol, two steroid receptor complexes could be separated by NaCl or heparin. Characterization of the two forms was performed by means of affinity towards isolated nuclei, sucrose gradient centrifugation and gel exclusion high performance liquid chromatography. The results presented here suggest that the two forms eluted from heparin-agarose correspond to the untransformed and transformed states of the glucocorticoid receptor complex. Taken together, these observations argue in favor of heparin-ultrogel as a suitable procedure to study the mechanism of glucocorticoid-receptor transformation.

Physicochemical characterization and transformation of the cytosolic glucocorticoid receptor from rabbit liver.

Characterization of the glucocorticoid receptor from rabbit liver cytosol was studied in vitro. Binding of [3H]-dexamethasone showed a high affinity (KD = 2.4 . 10(-9)M) and a concentration of binding sites of 0.3 . 10(-12) mol/mg proteins. Association and dissociation rate constants for [3H]-dexamethasone were respectively 1.6 . 10(5)M-1 . min-1 and 2.5 . 10(-4) min-1. Competition experiments showed that dexamethasone and triamcinolone acetonide were the most effective competitors while progesterone and aldosterone competed very poorly. The stabilities of bound and unbound forms were investigated with and without molybdate and other oxyanions. Calibrated gel filtration gave a stokes radius of 5.6 nm and an apparent mol. wt of 280,000. The untransformed complex sedimented at 9 s in 5-20% sucrose density gradients and the transformed species sedimented near 4 s. The behaviour of the three forms of receptor, untransformed, transformed and molybdate-stabilized was studied on ionic exchangers. Transformation of the [3H]-dexamethasone--receptor complex was shown to occur both with high ionic strength and elevated temperature. The transformation step was almost completely inhibited by tungstate and molybdate while vanadate revealed a very slight inhibitory effect.

[Biosynthesis of long chain fatty acids and alkanes in Saccharomyces cerevisiae]. / Biosynthèse des acides gras à très longue chaîne et des alcanes chez Saccharomyces cerevisiae

Cell-free extracts of Saccharomyces cerevisiae catalyse the formation of very long chain fatty acids with an even number of carbon atoms. These acids may be alpha-oxidated leadint to odd-chain acids. Both even and odd chain acids may be subjected to reductive decarboxylation giving rise to alkanes with respectively odd or even aliphatic chains.