Activated macrophages and antibodies against the plant lectin, GSI-B4, recognize the same tumor-associated structure (TAS)

Activated macrophages that were stabilized with either formalin or glutaraldehyde absorbed two polypeptides (Mr 100,000 and 60,000) from detergent extracts of all of the tumor cell lines tested, but not from detergent extracts of normal human peripheral blood lymphocytes. A major polypeptide (Mr 95,000) was retained from spent culture media of tumor cell lines. Polypeptides with molecular sizes of 100,000 and 60,000 daltons were also adsorbed by activated macrophages from detergent extracts of chicken embryo cell membranes, suggesting an oncofetal nature for these proteins. The 100,000 dalton polypeptide, but not the 60,000 dalton component, was found to be available to lactoperoxidase-catalyzed cell surface iodination. Polypeptides with identical molecular sizes could be adsorbed to immobilized galactopyranoside, indicating that they are vertebrate lectins. Activated macrophages and affinity adsorbents prepared by the covalent coupling of galactopyranoside to agarose also bind the plant lectin isolectin B4 prepared from the seeds of Griffonia simplicifolia. On the basis of these findings, we put forth the hypothesis that macromolecules of the same specificity, that is affinity to galactopyranosyl residues, must show homologies in their binding sites. We have predicted therefore that antisera prepared against this plant lectin should cross-react with galactopyranosyl-binding vertebrate lectins present on the surface of tumor cells. In this communication, we also report the generation of hybridomas that produce antibodies reactive with both the plant and vertebrate lectins. Inhibition experiments that make use of various mono- and disaccharides suggest that the specificities of these antibodies are for determinants intimately associated with the galactosyl binding site on the lectin molecule. Two of the antibodies were found to have moderate selectivity for tumor cells when tested in an immunohistochemical procedure that made use of fresh-frozen or paraffin-embedded sections of human biopsy material. These two antibodies on immunoblots of tumor cell membrane extracts reacted with a polypeptide with an apparent molecular size of 100,000 daltons.     

Domain structure of vaccinia virus mRNA capping enzyme. Activity of the Mr 95,000 subunit expressed in Escherichia coli

The D1 gene encoding the large subunit of vaccinia virus mRNA capping enzyme was expressed in Escherichia coli BL21(DE3) under the control of a bacteriophage T7 promoter. Guanylyltransferase activity (assayed as the formation of a covalent enzyme-guanylate complex) was detected in soluble lysates of these bacteria. Two major species of protein-GMP complex were formed, one of Mr 95,000 (corresponding in size to the D1 gene product) and one of Mr 60,000. Partial purification of the guanylyltransferase was effected by ammonium sulfate precipitation and ion-exchange chromatography. The expressed large subunit synthesized GpppA caps when provided with 5'-triphosphate-terminated poly(A) as a cap acceptor, but was unable to catalyze cap methylation in the presence of S-adenosylmethionine. Thus, the small capping enzyme subunit was shown to be dispensable for guanylylation, but required for cap methylation of RNA. The Mr 95,000 and Mr 60,000 protein-GMP forming activities were resolved during centrifugation in a glycerol gradient; the two forms sedimented at 5.5 S and 4.4 S, respectively, consistent with each enzyme form being a monomer. Either species catalyzed GMP transfer to an RNA acceptor. The isolated Mr 95,000 guanylyltransferase could be converted to an active Mr 60,000 form in vitro by limited proteolysis with trypsin. Expression of carboxyl-deleted forms of the D1 gene product in E. of carboxyl-deleted forms of the D1 gene product in E. coli further localized the guanylyltransferase domain to the amino two-thirds of the Mr 95,000 polypeptide.     

Matrix metalloproteinases and their endogenous regulators in squamous cervical carcinoma (A review of own results)

Own results of long-term studies of expression of matrix metalloproteinases (MMPs) and their endogenous regulators examined in fibroblasts transformed by oncogene E7 HPV16 (TF), immortalized fibroblasts (IF), cell lines associated with HPV16 and HPV18, and tumor tissue samples from patients with squamous cervical carcinoma (SCC) associated with HPV16 have been summarized. Transfection of fibroblasts with the E7 HPV16 oncogen was accompanied by induction of collagenase (MMP-1, MMP-14) and gelatinase (MMP-9) gene expression and the increase in catalytic activity of these MMP, while gelatinase MMP-2 expression remained unchanged. MMP expression correlated with the tumorigenic of transformed clones. Expression of MMP-9 was found only in TF. In TF expression mRNA TIMP-1 decreased, while expression of the genatinase inhibitor, TIMP-2, increased. Collagenase activity and expression of the MMP-14 (collagenase) mRNA increased, while gelatinase activity remained unchanged. The destructive potential of TF is associated with induction of collagenases, gelatinase MMP-9 and decreased levels of MMP inhibitors. MMP-9 may serve as a TF marker. Invasive potential of cell lines associated with HPV18 (HeLa and S4-1) was more pronounced than that of cell lines associated with HPV16 (SiHa and Caski). In most cell lines mRNA levels of collagenases MMP-1 and MMP-14 and the activator (uPA) increased, while gelatinase MMP-2 mRNA and tissue inhibitors mRNAs changed insignificantly. MMP-2 activity significantly increased in Caski and HeLa cell lines, while MMP-9 expression in these cell lines was not detected. The comparative study of expression MMP of and their endogenous regulators performed using SCC tumor samples associated with HPV16 has shown that the invasive and metastatic potentials of tumor tissue in SCC is obviously associated with increased expression of collagenases MMP-1, MMP-14 and gelatinase MMP-9, as well as decreased expression of inhibitors (TIMP-1 and TIMP-2), and to a lesser extent with increased expression of MMP-2. MMP-1 and MMP-9 can serve as markers of invasive and metastatic potential of the SCC tumor. The morphologically normal tissue adjacent to the tumor tissue is characterized by significant expression of MMP-1, MMP-2, and MMP-9. This also contributes to the increased destructive potential of the tumor.     

Abundance, relative gelation activity, and distribution of the 95,000- dalton actin-binding protein from Dictyostelium discoideum

We have studied the abundance, relative gelation activity, and distribution of the 95,000-dalton actin-binding protein in Dictyostelium discoideum amoebae. The 95,000-dalton protein was a prominent polypeptide as assessed using quantitative densitometry and radioimmunoassay. We estimated that this protein comprised approximately 1.2% of the protein in a soluble extract of amoebae. The molar ratio of the dimeric 95,000-dalton protein to actin in the soluble extract was 1:30. The apparent viscosities of actin mixtures with either the purified 95,000-dalton protein or the soluble extract were measured by falling ball viscometry in an attempt to assess the contribution of the 95,000-dalton protein to gelation of the soluble extract. The gelation of the soluble extract was significantly less than that expected from the contribution of the 95,000-dalton protein alone. Consequently, we questioned the validity of quantitative analyses of the contributions of specific actin-binding proteins to the gelation of cell extracts. The apparent distribution of the 95,000- dalton protein was observed in chemically fixed and extracted cells by immunofluorescence microscopy and compared with the distribution of cytoplasm and organelles visible using light microscopy. The 95,000- dalton protein was dispersed throughout the cytoplasm of fixed cells, was apparently excluded from prominent organelles, and displayed brightest fluorescence in regions of hyaline cytoplasm. These regions of hyaline cytoplasm that exhibited the brightest fluorescence were observed in the cortical region of rounded cells and in pseudopods of polarized cells. Thus, cell shape and polarity may also have influenced the apparent distribution of the 95,000-dalton protein observed by immunofluorescence microscopy. Study of the distribution of fluorescein- labeled ovalbumin injected into living cells supported the interpretation that the thickness of the cell and the distribution of organelles contributed to the apparent distribution of the 95,000- dalton protein observed in fixed cells using immunofluorescence microscopy. We suggest that the 95,000-dalton protein contributes to modulation of the consistency and contractility of the cytoplasm of D. discoideum amoebae, since it could cross-link actin filaments in vitro in a reversible process that was regulated by changes in the concentration of calcium and of protons, and since it was present in large quantity in the cytoplasm of these cells.     

The effects of deoxycholate and trypsin on the cross-linking of rabbit skeletal muscle sarcoplasmic reticulum proteins.

Dithiobis (succinimidyl propionate) has been used to cross-link sarcoplasmic reticulum microsome proteins. Although the 100,000 dalton calcium stimulated ATPase and the 60,000 dalton calcium-binding protein calsequestrin were readily cross-linked to form homopolymers, no heteropolymer formation between these two proteins were detected. The 90,000 dalton protein A1 which is always observed in our preparations appeared to preferrentially form dimers on cross-linking. When calsequestrin was solubilized using 0.1 mg deoxycholate/mg protein, this protein was not cross-linked even at dithiobis(succinimidyl propionate) concentrations ten times those used to cross-link this protein in the intact membrane. In a similar manner the deoxycholate-solubilized ATPase (0.5 mg deoxycholate/mg protein) was not cross-linked by dithiobis (succinimidyl propionate). These results suggest that the state of aggregation of the sarcoplasmic reticulum proteins may be modified when solubilized in detergents such as deoxycholate. When the 100,000 dalton ATPase polypeptide was cleaved with trypsin to two fragments with molecular weights of approximately 55,000, these could be readily cross-linked. The fragments were capable of forming polymers with either other 55,000 dalton fragments or with the 100,000 dalton ATPase. The 29,000 and 22,000 dalton fragments, produced by further tryptic cleavage of the 55,000 dalton fragments, were not cross-linked at dithiobis (succinimidyl propionate) concentrations which readily cross-linked the 55,000 dalton fragments. Thus tryptic cleavage of the ATPase to fragments smaller than 55,000 dalton altered associations made by the ATPase in the membrane.     

Multimeric structure of the tumor necrosis factor receptor of HeLa cells

The tumor necrosis factor (TNF) receptor of HeLa cells was solubilized in Triton X-100 and characterized by gel filtration, affinity labeling, and ligand blotting studies. Receptors solubilized with Triton X-100 eluted in gel filtration as a major peak of Mr = 330,000 and retained high affinity binding (KD = 0.25 nM). Affinity labeling of soluble receptor/125I-TNF complexes using the reversible, bifunctional bis[2-(succinimidooxycarbonyl-oxy)ethyl] sulfone resulted in the formation of cross-linked species of Mr = 310,000, 150,000-175,000, 95,000, and 75,000. The formation of these complexes was competitively inhibited by unlabeled TNF. Partial reversal of cross-linking in these complexes and their analysis by two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) resolved 125I-TNF dimers cleaved from the 95,000 band and 125I-TNF monomer cleaved from the 75,000 band, providing evidence for a Mr approximately 60,000 subunit. In addition, the 95,000 and 75,000 bands were resolved as components of larger complexes (Mr = 150,000-175,000), which presumably contain two receptor subunits. The Mr 95,000 and 75,000 bands were also released from the Mr 310,000 complex by reduction with dithiothreitol, suggesting a role for disulfide bond stabilization. To investigate the association of the putative receptor subunits, Triton X-100 extracts from HeLa membranes were fractionated by SDS-PAGE without reduction and transferred electrophoretically to nylon membranes for TNF binding assays. Only two bands of Mr = 60,000 and 70,000 specifically bound TNF, and higher Mr binding activity was not observed. These results indicate that TNF receptors in HeLa cells are high molecular weight complexes containing Mr = 60,000 and 70,000 subunits each capable of binding TNF and that the complexes are primarily stabilized by non-covalent, hydrophobic interactions.     

Resolution and properties of a protein kinase catalyzing the phosphorylation of a wheat germ cytokinin-binding protein

The major cytokinin binding protein of wheat germ (CBP) was extensively purified employing chromatography on Cibacron F3GA-Sepharose CL6B and concanavalin A-agarose as key purification steps. The major polypeptides present in the purified CBP preparations have molecular weights of 60,000 ± 4,000, 42,000 ± 3,000, and 37,000 ± 3,000, respectively. A protein kinase that catalyzes the phosphorylation of CBP (CBP kinase) was extensively purified from wheat germ by affinity chromatography on casein-Sepharose 4B and CBP-Sepharose 4B. The purification procedure resolves CBP kinase from an abundant casein kinase that does not phosphorylate CBP. CBP kinase catalyzes the phosphorylation of casein, phosvitin, CBP, and the wheat germ cyclic AMP-binding protein cABPII. CBP kinase phosphorylates the major 60,000 dalton subunit of CBP as well as 16,000 to 18,000 dalton polypeptides present in CBP preparations. CBP fractions with differing activities as substrates for CBP kinase were partly resolved by gel filtration and by chromatography on DEAE-Sephacel.     

Specific expression of the human voltage-gated proton channel Hv1 in highly metastatic breast cancer cells, promotes tumor progression and metastasis

The newly discovered human voltage-gated proton channel Hv1 is essential for proton transfer, which contains a voltage sensor domain (VSD) without a pore domain. We report here for the first time that Hv1 is specifically expressed in the highly metastatic human breast tumor tissues, but not in poorly metastatic breast cancer tissues, detected by immunohistochemistry. Meanwhile, real-time RT-PCR and immunocytochemistry showed that the expression levels of Hv1 have significant differences among breast cancer cell lines, MCF-7, MDA-MB-231, MDA-MB-468, MDA-MB-453, T-47D and SK-BR-3, in which Hv1 is expressed at a high level in highly metastatic human breast cancer cell line MDA-MB-231, but at a very low level in poorly metastatic human breast cancer cell line MCF-7. Inhibition of Hv1 expression in the highly metastatic MDA-MB-231 cells by small interfering RNA (siRNA) significantly decreases the invasion and migration of the cells. The intracellular pH of MDA-MB-231 cells down-regulated Hv1 expression by siRNA is obviously decreased compared with MDA-MB-231 with the scrambled siRNA. The expression of matrix metalloproteinase-2 and gelatinase activity in MDA-MB-231 cells suppressed Hv1 by siRNA were reduced. Our results strongly suggest that Hv1 regulates breast cancer intracellular pH and exacerbates the migratory ability of metastatic cells.     

Characterization of interferon induced in murine macrophage cultures by 10-carboxymethyl-9-acridanone

Pure murine macrophages were induced by 10-carboxymethyl-9-acridanone to produce interferon. The supernatants were partially purified by a three-column procedure including a DEAE-Biogel A, a CM-Biogel A, and a CH-Sepharose 4B column. The specific activity achieved was about 10(5) IU/mg. Two different activities were detected after the third step and designated activity 1 and activity 2. The determination of the molecular weight was in the range of 24,000-27,000 dalton for activity 1 and in the range of 32,000-34,000 dalton for activity 2. Both were neutralized by antibodies against mouse interferon-beta, indicating that two different moieties were produced both representing interferon-beta. When macrophages were induced in the presence of tunicamycin, only one activity of a molecular weight of about 19,000 dalton was found which again was neutralized by anti-interferon-beta.     

Induction of 103-kDa gelatinase/type IV collagenase by acidic culture conditions in mouse metastatic melanoma cell lines.

Gelatinases/type IV collagenases have been shown to be involved in tumor invasion and metastasis. In this study, we examined the effect of culture medium pH on the secretion of the gelatinases from mouse B16 melanoma cell lines and human tumor cell lines using zymography analysis. The highly metastatic clone F10 of B16 melanoma did not secrete any gelatinase in neutral culture media (pH 7.1-7.3), whereas it secreted a high level of a 103-kDa gelatinase in an initial pH range of 5.4-6.1. The addition of an excess amount of glucose into a neutral culture medium also induced the gelatinase secretion from the cells by decreasing the medium pH during incubation. The extent of the acid-induced gelatinase secretion by the B16 melanoma cell lines was in the order of BL6 greater than F10 greater than F1 much greater than the parent B16 line, in good agreement with the order of their metastatic potentials. Two human cell lines (A549 and HT1080) secreted a higher level of a 90-kDa gelatinase at pH 6.8 compared with pH 7.3. The acid-induced gelatinase secretion from B16-F10 cells was blocked by cycloheximide, indicating that the enzyme induction was due to de novo synthesis. When in vitro tumor cell invasion was assayed in Boyden chambers, B16-F10 cells incubated in an acidic medium exerted a more active migration through type IV collagen gel than those in a neutral medium. These results suggest that the acidic environment formed around tumor tissues may be an important factor in invasion and metastasis of some types of tumors.     

Characterization of Small Plaque Mutants of Mouse Hepatitis Virus,JHM Strain

Two small plaque mutants designated as 1a and 2c were isolated from DBT cells persistently infected with the JHM strain of mouse hepatitis virus. Unlike the wild type JHM, these two mutant viruses grew more slowly with no prominent cell fusion. The buoyant densities of the mutants were slightly lower and 2c was revealed to have fewer peplomers than JHM by electron microscopy. The purified JHM contained five polypeptides with molecular weights (M.W.) of 260,000, 105,000 (GP105), 65,000, 60,000 (P60), and 23,000 (GP23). In addition to two polypeptides, P60 and GP23, which were common to JHM and the mutants, 1a was found to contain three other specific polypeptides with M.W. of 180,000 (GP160), 110,000, and 95,000 (GP95), while 2c had GP180, GP105, GP95, and one with a M.W. of 175,000. All of these polypeptides were shown to be glycosylated except for P60. After bromelain treatment, all these viruses lost the peplomers and contained P60 and another new 18,000 dalton polypeptide.     

Tumor antigens of human ad5 in transformed cells and in cells infected with transformation-defective host-range mutants

We have studied the polypeptides associated with the expression of the transforming region of the Ad5 genome by immunoprecipitating antigens (using the double antibody and protein A-Sepharose techniques) from cells infected with wild-type (wt) Ad5 or transformation-defective host range (hr) mutants and from cells transformed by Ad5. Three different antisera were used: P antiserum specific for early viral products (Russell et al., 1967) and two different hamster tumor antisera. Immunoprecipitation of antigens from wt-infected KB cells followed by SDS-polyacrylamide gel electrophoresis of precipitated proteins revealed that a major polypeptide having a molecular weight of approximately 58,000 was detected with all three antisera and with both the double antibody and the protein A-Sepharose techniques, while P antiserum also precipitated polypeptides of molecular weights 72,000, 67,000 and 44,000, which probably represent the DNA binding protein and related polypeptides, respectively. With the double antibody technique, in addition to the proteins mentioned above, P antiserum and the hamster tumor antisera precipitated a 10,500 dalton polypeptide which was not detected when the protein A-Sepharose procedure was used. Using either the double antibody or the protein A-Sepharose technique, we found that hr mutants from complementation group II failed to induce the synthesis of the 58,000 dalton protein, whereas mutants from complementation group I produced normal or near normal amounts. Using the double antibody technique, we found that the 10,500 dalton protein was absent or made in reduced amounts by group I mutants. A 58,000 dalton protein was detected in a number of different Ad5-transformed cell lines, including the 293 human line, the 14b hamster line and several transformed rat cell lines. This observation and the fact that transformation negative group II mutants fail to induce the synthesis of a 58,000 dalton polypeptide suggest that this protein is one of the Ad5-specific products necessary for cell transformation.     

Modulation of gelatinase activity correlates with the dedifferentiation profile of regenerating salamander limbs.

Remodeling of extracellular matrix (ECM) is one of the key events in many developmental processes. In the present study, a temporal profile of gelatinase activities in regenerating salamander limbs was examined zymographically. In addition, the effect of retinoic acid (RA) on these enzyme activities was examined to relate the pattern-duplicating effect of RA in limb regenerates with gelatinase activities. During regeneration, various types of gelatinase activities were detected, and these activities were at their maximum levels at the dedifferentiation stage. Upon treatment with chelating agents EDTA and 1,10-phenanthroline, the enzyme activities were inhibited indicating that those enzymes are likely matrix metalloproteinases (MMPs). Considering the molecular sizes and the decrease of molecular sizes by treatment with p-aminophenylmercuric acetate, an artificial activator of proMMP, some of the gelatinases expressed during limb regeneration are presumed to be MMP-2 and MMP-9. In RA-treated regenerates, overall gelatinase activities increased, especially the MMP-2-like gelatinase activity which increased markedly. These results suggest that MMP-2-like and MMP-9-like gelatinases play a role in ECM remodeling during regeneration, and that gelatinases are involved in the excessive dedifferentiation after RA treatment.     

Detection of a novel lymphocyte protein-tyrosine kinase by renaturation in polyacrylamide gels

Protein kinase activity, including activity specific for the phosphorylation of tyrosine residues, can be detected among particulate fraction proteins of T cell lymphomas after separation by SDS-polyacrylamide gel electrophoresis. Putative protein kinases are detected by renaturation of enzyme activity directly within the gel following removal of detergent. LSTRA, a cell line that exhibits elevated levels of protein-tyrosine kinase activity, was found to express a predominant protein-tyrosine kinase of molecular weight 30,000. This same enzyme was present in T lymphocytes and other T lymphoid cell lines. Studies involving rapid preparation of protein fractions, limited proteolysis and one-dimensional peptide mapping did not demonstrate a direct relationship between the phosphorylated 30,000 dalton protein and the predominant 56,000 dalton phosphotyrosine containing protein that is observed following phosphorylation of LSTRA cell particulate fractions in vitro.     

Identification and characterization of gelatin-cleavage activities in the apically located extracellular matrix of the sea urchin embryo.

We have identified and partially characterized several gelatinase activities associated with the sea urchin extraembryonic matrix, the hyaline layer. A previously identified 41-kDa collagenase/gelatinase activity was generally not found to be associated with isolated hyaline layers but was dissociated from the surface of 1-h-old embryos in the absence of Ca2+ and Mg2+. While hyaline layers, freshly prepared from 1-h-old embryos, were devoid of any associated gelatinase activities, upon storage at 4 degrees C for 4 days, a number of gelatin-cleavage activities appeared. Comparative analysis of these activities with the 41-kDa collagenase/gelatinase revealed that all species were inhibited by ethylenediamine tetraacetic acid but were refractory to inhibition with the serine protease inhibitors, phenylmethyl sulfonyl fluoride and benzamidine. In contrast, the largely Zn2+ specific chelator 1,10-phenanthroline had markedly different effects on the gelatinase activities. While several of the storage-induced, hyaline-layer-associated gelatinase activities were inhibited, the 41-kDa collagenase/gelatinase was refractory to inhibition as was a second gelatinase species with an apparent molecular mass of 45 kDa. We also examined the effects of a series of divalent metal ions on the gelatin-cleavage activities. In both qualitative and quantitative assays, Ca2+ was the most effective activator while Mn2+, Cu2+, Cd2+, and Zn2+ were all inhibitory. In contrast, Mg2+ had a minimal inhibitory effect on storage-induced gelatinase activities but significantly inhibited the 41-kDa collagenase/gelatinase. These results identify several distinct gelatin-cleavage activities associated with the sea urchin extraembryonic hyaline layer and point to diversity in the biochemical nature of these species.     

Biosynthesis of the epidermal growth factor receptor in human squamous cell carcinoma lines: secretion of the truncated receptor is not common to epidermal growth factor receptor-hyperproducing cells

The biosynthesis of the EGF receptor was examined in the epidermoid carcinoma cell line A431 and five novel cell lines from human squamous cell carcinomas possessing high numbers of EGF receptors. Newly synthesized EGF receptors were visualized by labeling with [35S]methionine and immunoprecipitation with a monoclonal anti-EGF receptor antibody. In addition, the processing of the EGF receptor and its intracellular transport was analyzed by distinguishing cell surface receptors from intracellular receptors and by treating cells with inhibitors such as tunicamycin, monensin and brefeldin A. These analyses revealed that in all the tumor cell lines the EGF receptor is synthesized as a glycosylated protein of Mr 160,000 which is converted to the receptor of Mr 170,000 through posttranslational glycosylation. The receptors of Mr 160,000 and 170,000 appeared to possess high mannose type oligosaccharide chains because endoglycosidase H treatment reduced their molecular weights by approximately 30,000. A431 was the only tumor cell line studied that secreted the truncated EGF receptor of Mr 110,000. In A431 cells, the truncated EGF receptor was generated from a protein of Mr 60,000 through tunicamycin- and monensin-sensitive glycosylation. A431 cells treated with monensin secreted the truncated receptor as a Mr 95,000 form.     

Structure of the Mouse Mammary Tumor Virus: Polypeptides and Glycoproteins

The polypeptide and glycoprotein compositions of the mouse mammary tumor virus virion from primary monolayer cultures of BALB/cfC3H mouse mammary tumor cells were studied by polyacrylamide gel electrophoresis by using internal and external labeling and Coomassie blue and periodic acid Schiff (PAS) staining. Twelve polypeptides were reproducibly resolved by the combined methods. Five major polypeptides were demonstrable with estimated molecular weights of 52,000, 36,000, 28,000, 14,000, and 10,000. Seven minor polypeptides were also consistently detected and had estimated molecular weights of 70,000, 60,000, 46,000, 38,000, 30,000, 22,000, and 17,000. Carbohydrate was associated with five of these polypeptides as measured by PAS stain or [(3)H] glucosamine labeling, or both. These glycoproteins had estimated molecular weights of 70,000, 60,000, 52,000, 36,000 and 10,000. The majority of the PAS stain and glucosamine was found in the 52,000 and 36,000 dalton peaks.     

Human hepatoma cells produce an 85 kDa gelatinase regulated by phorbol 12-myristate 13-acetate

Several human cell lines were studied for the production of gelatinases. Diploid fibroblasts, the melanoma cell line Bowes, the MG-63 osteosarcoma cell line and the human hepatoma cell line Malavu all constitutively produced a 67 kDa gelatinase. Gelatinolytic enzymes were quantified by a sensitive zymographic substrate conversion assay. Upon induction with phorbol 12-myristate 13-acetate (PMA), the human hepatoma cell line secreted considerable amounts of an 85 kDa gelatinase activity. The induction process was time- and dose-dependent. It represented a true increase in production per individual cell and was associated by a marked change of the cell morphology. The effect of various proteinase inhibitors and the maximal activity of the enzyme near neutral pH demonstrate that it is a neutral metalloproteinase. Characterization studies showed the 85 kDa gelatinase to be transformed to lower molecular weight, active forms by treatment with p-aminophenylmercuric acetate (APMA) or trypsin.     

Comparison of in vivo and in vitro translation of Cowpea Mosaic Virus RNAs

The translation products from Cowpea Mosaic Virus (CPMV) RNAs obtained in two different cell-free systems were compared with the viral polypeptides synthesized in CPMV-infected cowpea protoplasts. It was shown that in both the wheat germ system and the rabbit reticulocyte lysate CPMV M component RNA was translated into two polypeptides of 105,000 and 95,000 dalton, which were not detected in CPMV-infected protoplasts. B component RNA however, gave different products depending on the system used. In the reticulocyte system this RNA was translated into a 200,000 dalton polypeptide which was further cleaved to give 170,000 and 32,000 dalton polypeptides. In the wheat germ system this processing step was lacking as only the 200,000 dalton product was formed. Since the 170,000 and 32,000 dalton polypeptides were also found in CPMV-infected protoplasts the two in vitro systems used apparently represent different stages of the expression of the B component RNA, thus providing a tool to study the mechanism of CPMV gene expression in vivo.