Laminin alpha 5, a major transcript of normal and malignant rat liver epithelial cells, is differentially expressed in developing and adult liver.

The laminin family of extracellular matrix glycoproteins plays a major role in cell migration and differentiation and in tumor cell invasion. As previously shown, the laminin deposited by normal and malignant rat liver epithelial cells in their extracellular matrix (ECM) and into their ECM migration tracks does not contain a typical (EHS-like) alpha 1 heavy chain. By RT-PCR screening we have now identified two alpha chains among a total of five additional laminin chains produced by these cells. Three of the newly identified chains were not previously known for the rat. Their sequences have been deposited in the EMBL nucleotide sequence data bank. The alpha 5 chain now identified is expressed at comparably high levels by both the normal and the malignant liver epithelial cells. The chain is also expressed in fetal liver together with the alpha 2 and beta 2 chains, but it is only vestigially expressed in the mature organ as shown by RT-PCR. These results suggest for alpha 5 a role in development and production of the chain by only a small subset of cells in adult liver. At the level of detection used, no changes were observed in regenerating liver after partial hepatectomy. In addition to the alpha 5 chain, the cultured cells express the beta 1 and beta 2 light chains, indicating the expression of more than one laminin isoform by the same cell line. The expression of the alpha 5 chain and of the other new non-EHS isoform chains was also analyzed in various tissues. The malignant liver epithelial cells, but not their nontumorigenic parental cells, also express, in addition to the alpha 5 chain the alpha 2 chain, which is expressed at high level by the NBT II bladder carcinoma cell line, suggesting a relationship with malignancy.

Quick and easy molecular weight determination with Macintosh computers and public domain image analysis software.

The program "molecular weights" allows a fast and easy estimation of molecular weights (M(r)), isoelectric point (pI) values and band intensities directly from scanned, polyacrylamide gels, two-dimensional protein patterns and DNA gel images. The image coordinates of M(r) and pI reference standards enable the program to calculate M(r) and pI values in a real time manner for any cursor position. The program requires NIH-Image for Macintosh computers and includes automatic band detection coupled with a densitometric evaluation.

Hormone- and endotoxin-modulated gene expression of a long-term organ culture system of adult rat liver.

Precision-cut slices of normal adult rat liver maintained in serum-free medium remain hormone- and endotoxin-responsive for at least 48 h. They respond to glucocorticoid (dexamethasone) with the induction of the gluconeogenic enzyme tyrosine aminotransferase (TAT), as determined by enzymatic activity and by the increase in enzyme protein. Furthermore, endotoxin (LPS) induced nitric oxide synthase II (i-NOS), and this induction is repressed, similarly to the in vivo situation, by dexamethasone (DEX). All increases are inhibited by cycloheximide (CHX). The length of the period of responsiveness suggests that this organ culture system might be generally useful for studying the modulation of liver gene expression by physiological and pathological influences.

Constitutively migrating malignant rat liver epithelial cells produce a migration-stimulating activity for epithelial cells (eMSA).

Constitutively migrating malignant rat liver epithelial cells obtained by Ha ras transformation exhibit a fibroblastoid phenotype in vitro. The cells deposit the anti-adhesive extracellular matrix (ECM) protein tenascin into their ECM migration tracks. The serum-free medium conditioned by these constitutively migrating cells contains an epithelial migration-stimulating activity (eMSA) that is neither cell-type-, nor species-specific. This eMSA fractionates in the range of 30 to 50 kDa and binds to Mono-Q, Mono-S, and with low affinity to heparin-Sepharose. The conditioned medium also induces the expression of the serine proteinase inhibitor PAI-1. Both migration and expression of PAI-1 are inhibited by cyclic AMP, as previously shown for the migration of the non-transformed liver epithelial cells induced by several growth factors that act through tyrosine kinase receptors. These results suggest that the eMSA might act through signal transduction pathways similar to those of the growth factors previously studied. It is postulated that the eMSA, through both autocrine and paracrine mechanisms, is at least partially responsible for the malignant phenotype of the transformants.

Plasminogen activator inhibitor type 1 in rat spermatozoa: localisation in the tail, in the acrosome and on the surface of the head.

Isolated seminiferous tubules of rat testis contain considerable urokinase-inhibiting activity. An immunohistological analysis revealed the presence of plasminogen activator inhibitor type 1 (PAI-1) in the basement membrane as well as in the interior of the tubules. Distribution and intensity of the intratubular immunoreactivity depends on the stage of the seminiferous cycle. A relatively weak signal is present around elongated nuclei of spermatids at the beginning of chromatin condensation. The signal intensity increases in the course of differentiation until a maximum is reached at stages VII-VIII. In these stages PAI-1 immunoreactivity is localised around the nuclei of the late spermatids as well as along their tails. Spermatozoa in the ductus epididymis also strongly react with the PAI-1-specific antiserum, suggesting that the inhibitor remains associated with the germ cells after spermiation and during maturation in the epididymis. In intact mature spermatozoa isolated from epididymis cauda by "swimming-up' in non-capacitation medium, PAI-1 antigen is localised on the plasma membrane surrounding the head. In addition, in fixed and permeabilised cells the immunoreactivity is detectable in the acrosome and in the tail. Possible functions of PAI-1 in spermatogenesis, sperm motility and sperm-egg interaction are discussed.

The EGF-inducible protein EIP-1 of migrating normal and malignant rat liver epithelial cells is identical to plasminogen activator inhibitor 1 and is a component of the ECM migration tracks.

Induction of rat liver epithelial cell migration by epidermal growth factor (EGF) changes the expression pattern of secreted proteins. The expression of the early induced glycoprotein EGF-inducible protein No. 1 (EIP-1) correlates with the migratory behavior of both normal and Ha-ras-transformed, tumorigenic cells and is deposited into the ECM migration tracks. The sequence of two clones from a cDNA library of EGF-induced cells and the amino terminal sequence of the purified protein revealed that EIP-1 is identical to rat plasminogen activator inhibitor 1 (PAI-1). Based on the migration-linked expression pattern of EIP-1/PAI-1 it is proposed that the inhibitor is required for the migration of these cells, but not sufficient to stimulate it.

The epidermal growth factor-induced migration of rat liver epithelial cells is associated with a transient inhibition of DNA synthesis.

Epidermal growth factor (EGF) is a potent mitogen for most cultured cells and has previously been shown to induce the migration of rat liver epithelial cells. We have now demonstrated that under migration-inducing conditions EGF does not stimulate cell proliferation, but causes instead a transient inhibition of DNA synthesis. Analysis at the single-cell level by [3H]thymidine autoradiography indicated that in 40-50% of the EGF-treated cell population the entry into S phase is delayed. The simultaneous demonstration of migration tracks by laminin immunofluorescence revealed that the transient inhibition of DNA synthesis is not restricted to the migratory cells. The effect is also observed with the stationary subpopulation and appears, therefore, to be independent of the induction of migration. The independence of both processes was further supported by showing that induction of migration by EGF proceeds undisturbed in cells blocked in S phase by aphidicolin. These results indicated that for rat liver epithelial cells the induction of migration by EGF has priority over cell proliferation. The data also emphasize the need for a time-course analysis when studying factors that stimulate or inhibit DNA synthesis or cell proliferation.

Laminin synthesized by stationary and migrating rat liver epithelial cells lacks the A chain.

The expression of laminin chains was analyzed in normal and Ha-ras1-transformed rat liver epithelial cells. The normal, nontumorigenic cells were induced to migrate by epidermal growth factor, whereas the Ha-ras1-transformed, malignant derivatives migrate constitutively. None of these cells express a typical (EHS-like) laminin A chain. Immunoprecipitation of [35S]-methionine-labeled liver cell lysates with an antibody against EHS-laminin revealed B1 and B2 chains and, in addition, two high Mr polypeptides. These polypeptides were not recognized by the antibody in immunoblots, suggesting that they might constitute alternative laminin A chains. Analysis of the expression of all three laminin chains at the RNA and protein level revealed that the pattern of expression of the stationary cells does not differ from that of the migratory ones and is also not influenced by epidermal growth factor. These results indicate that expression of a typical laminin A chain by rat liver epithelial cells is not required for the secretion and deposition of the protein in the extracellular matrix. The data also indicate that an EHS-like laminin A chain is not required for the migration of these epithelial cells.

The epidermal growth factor-induced cell migration and expression of the 47,000 Mr secreted glycoprotein EIP-1 of rat liver epithelial cells are down-modulated by cyclic AMP.

The migration of rat liver epithelial cells induced by epidermal growth factor (EGF) was inhibited by cyclic AMP (cAMP) and cholera toxin, but not by cGMP, cAMP and cholera toxin also inhibited the expression of the EGF/transforming growth factor (TGF) alpha-inducible protein EIP-1 (Mr 47,000), but not that of other proteins induced by the growth factor. cAMP therefore specifically and selectively represses the EGF-induced expression of this protein, which by synthesis in the presence of tunicamycin and by enzymatic treatments was shown to be N-glycosylated and sialylated. The close correlation of the expression of EIP-1 with the growth factor-induced migration suggests that this glycoprotein is involved in the cellular translocation process. Modulation of cell migration and of EIP-1 expression through increased intracellular concentrations of cAMP indicate that factors operating through this signal system can modulate the phenotypic and gene expression changes mediated by the EGF-receptor. Identification of the ligand(s) that can cause the cAMP-mediated effects might be an important step towards understanding the regulation of liver cell migration in vivo.

Minute amounts of RNA are synthesized from several regions of the bacteriophage Mu DNA during the lysogenic state.

The transcription of phage Mu DNA during the lysogenic state has been quantitatively analysed. For this purpose pulse-labelled RNA from two lysogens and from their nonlysogenic parental strains were hybridized to non-overlapping Mu DNA restriction fragments covering the whole phage genome. The data revealed that all regions of the prophage are transcribed at low rates and that phage promoters are involved in this transcription. For this study an improved assay for quantitative filter hybridization was employed. The high sensitivity and reproducibility that can be obtained with the assay make it suitable for the quantitative analysis of minute amounts of mRNA.

Cellular fibronectin is induced by epidermal growth factor, but not by dexamethasone or cyclic AMP in rat liver epithelial cells.

Epidermal growth factor (EGF) induces fibronectin (FN) and FN mRNA in rat liver epithelial cells, under conditions where the factor also induces the cells to migrate. Newly synthesized protein is secreted into the medium and deposited as substratum-bound extracellular matrix. The levels of mRNA and the amount of protein synthesized are not influenced by cyclic AMP or dexamethasone, factors that have been found to modulate FN expression in other cells. However, the cells are sensitive to the factors, suggesting a cell-specific regulation. The EGF-induced RNA contains the sequences EIIIA and EIIIB characteristic of cellular fibronectin.

Liver epithelial cell migration induced by epidermal growth factor or transforming growth factor alpha is associated with changes in the gene expression of secreted proteins.

Rat liver epithelial cells are induced to migrate by epidermal growth factor (EGF) or transforming growth factor alpha (TGF-alpha) in serum-free medium supplemented with insulin. Immunohistological staining of the migration tracks containing laminin and fibronectin has allowed a quantitative analysis of the process. The growth factor-induced migration is relatively slow, but very efficient. Between 24 and 48 h after exposure to EGF (or TGF-alpha), 50 to 70% of the cells have migrated away from their site of initial attachment and spreading. This delayed effect of the interaction of the receptor with its ligands is associated with changes in gene expression, but is not associated with a stimulation of cell proliferation. In serum-free medium supplemented with insulin, the cells secrete six major proteins, as revealed by SDS-polyacrylamide gel electrophoresis. The media of cultures supplemented with insulin plus EGF (or TGF-alpha) contain in addition two new proteins and an increased amount of fibronectin. One secreted protein is synthesized in significantly reduced amounts. The most conspicuously EGF-induced protein (EIP-1; Mr 47,000) is detected within 2 h, depends on the continued presence of the growth factor, and has not been detected as bound to the substratum. The stringent regulation of EIP-1 suggests that this gene product might participate in the modulation of the changes induced by the growth factor. The system is being used for the further analysis of the regulation of gene expression by EGF and of the migration of normal and neoplastically transformed epithelial cells.

Transcriptional mapping of the bacteriophage Mu DNA.

The transcription of temperate phage Mu throughout lytic development was analysed quantitatively by hybridization of pulse-labelled RNA to full-length Mu DNA and to plasmids that define Mu DNA segments covering the whole phage genome. The transcription rate (i.e. binding data corrected for the incorporation rate of the radioactive precursor, for the size of the DNA template, and for the number of phage genomes present in the bacterium at the time of analysis) revealed three defined phases of Mu transcription: early (0 to 9 min), intermediate (between 9 and the interval 14 to 17 min) and late (from the interval 14 to 17 min onward). The analysis also revealed that the region comprising the genes involved in phage morphogenesis was organized into two independent 'late' transcription units.

Inhibition of bacterial segregation by early functions of phage mu and association of replication protein B with the inner cell membrane.

Infection of Mu-sensitive bacteria with a recombinant lambda phage that carries the EcoRI.C fragment from the immunity end of wild type Mu DNA causes filamentous growth. Transmission electron microscopy revealed that the cell-division cycle was inhibited at, or prior to, the initiation of septation. The filamentation does not occur after infection of Mu-immune bacteria or after infection with a phage carrying the same EcoRI.C fragment, but with an IS1 insertion in gene B of Mu, showing that either gpB and/or some non-essential functions (e.g. kil) mapping downstream from the insertion are required for the inhibition of cell division. These data and previously published evidence suggest that in the "killing" of E. coli K12 by early Mu functions expressed from the cloned EcoRI.C fragment, two components have to be distinguished: one, a highly efficient elimination of plasmid DNA carrying the early Mu genes, and second, a series of interactions with host functions conducent to an inhibition of cell division. It is suggested that functions normally involved in the SOS reaction participate in the inhibition of cell division by early Mu functions. Infected bacteria synthesize the replication protein B (MR 33000) of Mu, which was found by cell fractionation experiments to be associated with the inner cell membrane. The role of this association for filamentous growth and for the integrative replication of the phage is discussed. The recombinant phage might be useful as a tool for the study of the E. coli cell division cycle.

Extracellular matrix (ECM) modulates the EGF-induced migration of liver epithelial cells in serum-free, hormone-supplemented medium.

The influence of the extracellular matrix (ECM) glycoproteins collagen IV, laminin (LN), and fibronectin (FN) on the in vitro migration of epithelial cells was studied using the ECM migration track method (4) with preparations immunostained for LN and FN. The locomotion of rat liver epithelial cells stimulated to migrate in serum-free medium by epidermal growth factor (EGF) in the presence of insulin is inhibited by substratum-bound FN. The inhibition is concentration-dependent up to 0.7 microgram of the protein per cm2. Neither LN nor collagen IV decreased the number of migrating cells, indicating that the inhibition is a specific effect of fibronectin. The data also indicate that the FN-mediated inhibition of migration is an additional and not alternative mechanism to the well-established contact inhibition of locomotion (1) which also occurs in liver epithelial cell cultures. The system is being used for a further analysis of the factors that influence migration of normal and neoplastic epithelial cells and the biochemical mechanisms underlying the migration reaction.

Origin and binding specificity of protein(s) coded for by Mu prophages.

Crude extracts of bacteria lysogenic for temperature phage Mu contain proteins that retain specifically Mu DNA on nitrocellulose filters. The amount of binding protein is directly proportional to the number of Mu prophages per E. coli genome. Specificity of the binding reaction could be demonstrated by using heterologous DNAs as substrate and by a competition experiment. By using hybrid plasmids containing different amounts of the immunity end and extending to various degrees into MuDNA, it was found that the binding activity is coded for by the left 1,000 nucleotide-pair HindIII fragment. When using these hybrid plasmids as binding substrate, two different binding sites for the immunity product were detected. Joining of the MucI gene to the left lambda early promoter resulted in increased production of immunity protein at elevated temperature. A possible explanation for the relatively low amounts of immunity protein in all of the different strains studied is discussed.