Biosynthesis of two subunits of type IV procollagen and of other basement membrane proteins by a human tumor cell line

The major collagenous component secreted into the medium of cultured HT-1080 tumor cells was identified as type IV procollagen by specific antibodies and characteristic ratios of incorporated labeled 3-hydroxyproline and 4-hydroxyproline. The disulfide-bonded molecules consisted of two subunits, pro-alpha 1(IV) and pro-alpha 2(IV) chains with apparent molecular weights of 180 000 and 165 000. No conversion of the procollagen to collagen or to procollagen intermediates was detected in the cell cultures. The two subunits apparently represent different gene products, since enzymatic digestion of the separated chains produced quite different peptide maps. Pepsin degraded native type IV procollagen successively into several fragments, some still disulfide-linked, giving rise to a complex set of polypeptide chains (Mr = 30 000-140 000). This agrees with similar diverse patterns produced by pepsin from authentic type IV collagens. The ratio between the pro-alpha 1(IV) and pro-alpha 2(IV) chains varied in several experiments between 1.3 and 1.8, suggesting that the two chains belong to different triple-helical molecules. The cells also produced distinct amounts of fibronectin (subunit Mr = 230 000) and of the basement membrane glycoprotein laminin. The latter showed three subunits with Mr = 220 000, 210 000, and 400 000. A further disulfide-bonded, non-collagenous polypeptide (Mr = 160 000) was detected but not yet identified. Immunofluorescence demonstrated these proteins within the cells but not in a pericellular matrix. The production of basement membrane components by HT-1080 cells and lack of interstitial collagens disagree with the original classification of the cell line as a fibrosarcoma.     

Comparison of non-collagenous type IV collagen components in the human glomerulus and EHS tumor

A method for the isolation of the NC1 domain of type IV collagen has been developed using the EHS sarcoma, a basement membrane-producing mouse tumor. This NC1 domain has been compared to the NC1 of human glomerular basement membrane (hGBM) to assess its usefulness in the biochemical characterization of the Goodpasture antigen which is associated with NC1. Both NC1 isolates appeared to migrate by gel filtration as hexamers (Mr 160,000) and in SDS-polyacrylamide gel electrophoresis as dimers and monomers (Mr 54,000 and 26,000), and were shown to share biochemical identity by amino acid analysis. The hGBM NC1 showed greater complexity in the monomer region, and when compared by two-dimensional gel electrophoresis was found to contain more components in both regions than EHS NC1. Anti-GBM autoantibodies from patients with Goodpasture's syndrome reacted with the EHS NC1 by immunoblotting of two-dimensional gels. The EHS NC1 isolated by reverse phase HPLC partially inhibited the reactivity of the anti-GBM autoantibodies against hGBM NC1 by inhibition ELISA assay. Reverse phase HPLC elution of EHS and hGBM NC1 showed differences in subunit composition and interaction; complete dissociation of the EHS monomers and dimers in 0.1% trifluoroacetic acid was observed, whereas hGBM monomers and dimers eluted together. Rotary shadowing of hGBM NC1 domains revealed size heterogeneity of globular domains, compared with greater uniformity of EHS NC1 hexamers. We conclude that EHS NC1 contains an epitope(s) that is reactive with human autoantibodies to hGBM NC1. However, the immune response in Goodpasture's syndrome may involve antibodies directed against epitopes which are present in greater density and on a more complex array of peptides in the hGBM NC1 than in EHS NC1.     

The localization and secretion of type IV collagen in synovial capillaries by immunohistochemistry using a monoclonal antibody against human type IV collagen

The localization and the secretion of type IV collagen in synovial capillaries have been investigated by detecting the antigenic determinant of the major triple helix of human type IV collagen. Type IV collagen was indicated to be localized mainly in the lamina densa of basement membranes (BM) and to be secreted by both endothelial cells and pericytes. The pericytes secreted this collagen to both surfaces facing endothelial cells and the interstitial connective tissue. On the contrary, the direction of type IV collagen secretion by the endothelial cells was strictly confined to one side, namely towards the surface facing the BM. The absence of the antigenic determinant in rough endoplasmic reticulum and Golgi apparatus of the endothelial cells and pericytes indicated that the major triple helix of type IV collagen is mainly formed in the secretory vesicles after budding from the Golgi apparatus.     

Non-helical type IV collagen polypeptides in human placenta

Our previous reports showed that cultured human cells secrete non-disulfide-bonded non-helical alpha1(IV) and alpha2(IV) chains under physiological conditions. In the present report we show that the alpha(IV) chains in non-helical form were reactive to lectin ABA (Agaricus bisporus agglutinin), whereas the alpha(IV) chains secreted in triple-helical form were not. These results indicate that ABA could be used to distinguish the two conformational isomers of type IV collagen polypeptides. An alpha1(IV) chain isolated from human placenta with an antibody-coupled column showed a positive reaction to ABA, indicating that gelatin form of the type IV collagen alpha1(IV) chain is produced and retained in the tissue in vivo. A possible significance of the gelatin form is discussed from the finding that the non-helical alpha1(IV) chain purified with EDTA-free buffer contained degraded polypeptides including NC1-size domain and showed an apparent inhibition against activated pro-MMP-9. This is the first report to show that a gelatin form of protein exists in vivo.     

Inhibition of tumor cell growth by a human B-cell line

An Adenocarcinoma cell line (Breast-M) and an Epstein-Barr virus (EBV)-infected B-cell line (Hairy-BM) were established from breast tumor tissue. The Hairy-BM was CD20⁺, CD25 (Tac)+ and surface immunoglobulin (sIg)+. Hairy-BM suppressed the in vitro proliferation of Breast-M in a time and a dose-dependent manner. The suppression was also found in 5 different human tumor targets showing tumor-Hairy-BM binding, but not; in 2 murine tumor targets showing no significant tumor-Hairy-BM binding. Lytic activity of Hairy-BM was found only against Breast-M.Abbreviations sIg Surface immunoglobulin - CTL Cytotoxic T-cells - NK Natural killer - IL2 Interleukin 2 - LAK Lymphokine activated killer - CSN Culture supernatant - MTT 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazoolium bromide - PCR Polymerase chain reaction - TIL Tumor-infiltrating lymphocytes - HCL Hairy cell leukemia - TNF Tumor necrosis factor     

Posttranslational modifications in human plasma MBL and human recombinant MBL

Mannan-binding lectin (MBL) is a complex serum protein that plays an important role in innate immunity. In addition to assuming several different oligomeric forms, the polypeptide itself is highly heterogeneous. This heterogeneity is due to post-translational modifications, which help to stabilize the intact protein in its active conformation. For the first time, positions and occupation frequency of partial hydroxylations and partial glycosylations are reported in MBL. Hydroxylation and glycosylation patterns of both recombinant and plasma derived MBL were determined, using a combination of mass spectrometry on reduced MBL and on enzyme cleaved MBL. Variations in the degree of hydroxylation and glycosylation seem to be an indigenous characteristic of collectins. In addition to these already known modifications, a new post-translational modification was identified. Cys(216) (and occasionally also Cys(202)) was modified in trace amounts to dehydroalanine, as detected by a 34 Da mass loss. This impairs the formation of a disulphide bond in the carbohydrate recognition domain. The dehydroalanine was identified in similar small amounts in both recombinant and plasma-derived MBL.     

Growth factor production by a human megakaryocytic tumor cell line

A recently described human megakaryocytic tumor cell line was analyzed for the presence of growth factor activity and was found to produce large quantities of transforming growth factor beta-like (TGF-beta) and basic fibroblast growth factor-like (bFGF) activities. Growth factor activities were identified using a radioreceptor assay for the TGF-beta-like activity, a heparin-binding assay for the b-FGF-like activity, and a demonstration of distinct biological activities for each type of factor. Tumor poly-A+ RNA revealed strong signals when probed with complementary DNA corresponding to bovine basic FGF and human TGF-beta and weak signals when probed with cDNA corresponding to epidermal growth factor (EGF) and TGF-alpha. The levels of EGF and TGF-alpha produced in the tumor line were too low to be detected by radioreceptor assays. Relative levels of messenger RNA encoding each of the growth factors reflected the relative levels of each of the respective factors tested. These data represent the first definitive identification of FGF-like activities in megakaryocytic-like cell lines. Interestingly, the line displayed little activity similar to platelet-derived growth factor (PDGF) when assayed either biochemically or by poly-A+ RNA analysis.     

Proliferation of a human epidermal tumor cell line stimulated by urokinase

Several tumor cells secrete significantly increased amounts of the plasminogen activator urokinase, a trypsinlike serine protease, whose biological function in tumor biology is unclear. In this study we report that cells of the human epidermal tumor cell line CCL 20.2 express about 80,000 high-affinity urokinase receptors per cell that bind active as well as diisopropylfluorophosphate-treated high-molecular-weight (HMW) urokinase. Low-molecular-weight (LMW) urokinase is not bound to the receptor. Occupation of these receptors by active HMW urokinase stimulates cell proliferation independently in the presence of plasminogen in the culture medium. LMW urokinase has again no effect on cell proliferation. Calculated on a molar basis, this effect is about 28% of that of epidermal growth factor. Active HMW urokinase might therefore provide an autocrine receptor-mediated growth-promoting mechanism for tumor cells similar to those described for other growth factors.     

Posttranslational modifications to human bone sialoprotein determined by mass spectrometry.

Bone sialoprotein (BSP) is an acidic 301 amino acid protein expressed by osteoblasts and at a low level by hypertrophic chondrocytes. Its expression is highest during early stages of bone formation, and it is particularly abundant in the cells lining the surface of newly formed trabeculae. BSP contains numerous substituents which are anionic in nature and apparently essential for the function of the protein. Thus, the proposed role of BSP in hydroxyapatite nucleation and growth may depend on such modifying groups. The posttranslational modifications include several acidic oligosaccharides as well as phosphate and sulfate groups. This work combines matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrometry with selective enzyme treatment of BSP to provide new information on the precise distribution and structure of oligosaccharides, sulfate, and phosphate groups in BSP isolated from human bone. The results provide a high level of detail in the location of these modifying groups toward the end of providing a basis for further understanding the function of BSP in bone nucleation.     

Characterization of a simian virus 40-transformed human podocyte cell line producing type IV collagen and exhibiting polarized response to atrial natriuretic peptide.

Biology of glomerular visceral epithelial cells ("podocytes") and their role in inflammatory process remain obscure, partly because of the lack of well-differentiated podocyte cultures. We have established a human cell line by transfecting with a replication-defective SV40 plasmid (pSVHB1), a primary culture of podocytes derived from an enriched preparation of unencapsulated glomeruli free of tubule and Bowman's capsule contaminants. Podocyte specificity of the primary culture was assessed by a dual immunomorphological and functional approach. The resulting cell line (HGVEC.SV1) was cloned and the clonal cells were adapted to hormonally defined medium supplemented with only 2% newborn bovine serum. Clone A4 has been exhibiting over 35 passages, a combination of markers unique to podocytes, including expression of vimentin, podocalyxin, ectoenzymes (CALLA antigen and mRNA), heparan-sulfate proteoglycans (molecular mass of core protein = 75 kDa), and production of type IV collagen (alpha 1 and alpha 5 chains) established by immunoprecipitation and Northern blot analysis. Cytokeratin was detected in rare cellular foci and the search of Von Willebrand factor was negative. This clonal cell line has been used to demonstrate: (1) that human podocytes are highly sensitive to atrial natriuretic peptide (ANP) which induced a dose-dependent increase in cGMP production (x20 at 0.5 microM ANP), and (2) that secretion of ANP-stimulated cGMP is dramatically polarized as 93% of extracellular cGMP were released in the apical medium when filter-grown HGVEC. SV1A4 cells were stimulated at their basal pole.     

Isolation of a type IV collagen binding protein from human platelets.

In order to study the molecular basis of platelet interaction with collagen IV of the basement membrane separating the arterial endothelium from the underlying subendothelial connective tissue, the possibility of presence of platelet membrane protein with affinity to type IV collagen was examined by subjecting the platelet membrane extract to affinity chromatography on collagen IV-sepharose. Urea (4 M) eluate was found to contain a protein with an apparent mol. wt of 68 kDa. The radioiodinated protein was isolated and used to test its specificity. By dot blot assay on nitrocellulose disks and solid-phase assays, the 68 kDa protein was found to bind with high affinity to collagen IV. Lack of significant binding to fibronectin and laminin when compared to albumin control indicated its high specificity for collagen. The radioiodinated protein was inserted into egg yolk lecithin liposomes. While these liposomes attached to microtitre plates coated with collagen IV, there was no significant binding to fibronectin or laminin coated wells, suggesting the membrane associated character of the protein as well as its specificity for collagen. These results indicate that presence of a 68 kDa protein in platelet membrane which interacts with very high specificity to collagen IV.     

Crystals of the NC1 domain of human type IV collagen

Crystals of the non-collagenous C-terminal region (NC1) of type IV collagen have been obtained from human placenta. These crystals diffract to 2.0 A, and belong to space group P22(1)2(1), with cell dimensions a = 81 A, b = 158 A, c = 138 A, alpha = beta = gamma = 90 degrees. The crystals contain one hexamer in the asymmetric unit; they are very stable with respect to X-rays.     

Basal lamina glycoproteins laminin and type IV collagen are assembled into a fine-fibered matrix in cultures of a teratocarcinoma-derived endodermal cell line

Extracellular matrix glycoproteins synthesized and deposited by a mouse teratocarcinoma-derived endodermal cell line (PYS-2) in culture were analysed by metabolic labelling and immunochemical methods, and the matrix structure was studied by immunofluorescence and electron microscopy. PYS-2 cells secreted two major high-molecular weight glycoproteins, laminin and type IV collagen, which were deposited in apparently unprocessed form under the cells into a lamellar matrix composed of a loose network of fine fibrils and attached dense grains. The cells did not synthesize detectable amounts of fibronectin, but the matrix was found to bind fibronectin from the culture medium. The matrix structure was sensitive to bacterial collagenase indicating a role for type IV collagen in matrix integrity. The PYS-2 matrix which contains defined basal lamina glycoproteins provides possibilities for in vitro studies on the organization of deposited basal lamina components.     

Cross-linking in type IV collagen.

Type IV collagen could not be extracted from human placenta using 6M-urea containing 10mM-dithiothreitol, indicating that the type IV molecule is stabilized within the basement membrane by covalent cross-links. However, various forms of type IV collagen molecule were extractable by means of increasingly severe proteolytic conditions. Type IV collagen tetramers ('spiders') lacking only the C-terminal globular region (NC1) were further digested to the 'long-form' 7S fragment and an assortment of helical rod-like molecules derived from the 'leg' region. These molecules were separated by salt fractionation and examined by rotary-shadowing electron microscopy. Isolation of these fractions from placenta which had been reduced with NaB3H4 revealed that both the 7S (N-terminal) and C-terminal regions contained significant proportions of reducible lysine-derived cross-links. These cross-links were shown to be exclusively the stable oxo-imine hydroxylysino-5-oxonorleucine. The number of the cross-links per molecule was significantly lower than might be expected in order to fully stabilize the molecule. These results suggest that the keto-imine cross-links in type IV collagen have been stabilized in part by conversion into an unknown non-reducible form, although a sensitive immunoassay failed to show the presence of any pyridinoline. Comparison with the fibrous collagen from placenta suggested that the rate of this conversion is much greater in basement-membrane collagen.     

Heparin type IV collagen interactions: equilibrium binding and inhibition of type IV collagen self-assembly

Interactions between type IV collagen and heparin were examined under equilibrium conditions with rotary shadowing, solid-phase binding assays, and affinity chromatography. With the technique of rotary shadowing and electron microscopy, heparin appeared as thin, short strands and bound to the following three sites: the NC1 domain, and in the helix, at 100 and 300 nm from the NC1 domain. By solid-phase binding assays the binding of [3H]heparin in solution to type IV collagen immobilized on a solid surface was found to be specific, since it was saturable and could be displaced by an excess of unlabeled heparin. Scatchard analysis indicated three classes of binding sites for heparin-type IV collagen interactions with dissociation constants of 3, 30, and 100 nM, respectively. Furthermore, by the solid-phase binding assays, the binding of tritiated heparin could be competed almost to the same extent by unlabeled heparin and chondroitin sulfate side chains. This finding indicates that chondroitin sulfate should also bind to type IV collagen. By affinity chromatography, [3H]heparin bound to a type IV collagen affinity column and was eluted with a linear salt gradient, with a profile exhibiting three distinct peaks at 0.18, 0.22, and 0.24 M KCl, respectively. This suggested that heparin-type IV collagen binding was of an electrostatic nature. Finally, the effect of the binding of heparin to type IV collagen on the process of self-assembly of this basement membrane glycoprotein was studied by turbidimetry and rotary shadowing. In turbidity experiments, the presence of heparin, even in small concentrations, drastically reduced maximal aggregation of type IV collagen which was prewarmed to 37 degrees C. By using the morphological approach of rotary shadowing, lateral associations and network formation by prewarmed type IV collagen were inhibited in the presence of heparin. Thus, the binding of heparin resulted in hindrance of assembly of type IV collagen, a process previously described for interactions between various glycosaminoglycans and interstitial collagens. Such regulation may influence the assembly of basement membranes and possibly modify functions. Furthermore, qualitative and quantitative changes of proteoglycans which occur in certain pathological conditions, such as diabetes mellitus, may alter molecular assembly and possibly permeability functions of several basement membranes.     

Secretion of antileucoprotease from a human lung tumor cell line

Two human tumor cell lines were analyzed for the production of human antileucoprotease (ALP). One of them, a human squamous lung carcinoma cell line (HS-24) synthesized, as confirmed by Western blot analysis, high amounts of ALP in serum-free medium. The supernatant inhibited elastase, chymotrypsin and trypsin. Northern blot analysis with an 18-mer radiolabelled oligonucleotide, derived from an ALP specific cDNA clone, revealed a specific mRNA of about 700-800 nucleotides in HS-24 tumor cells. In contrast, a secondary human lung tumor cell line (SB-3), derived from the adrenal cortex, did not synthesize ALP when assayed under identical conditions. The supernatant inhibited only trypsin and chymotrypsin.     

Ultrastructure of double minutes from a human tumor cell line

Double minutes (dm) have been isolated from human tumor cells by zonal centrifugation and by differential pelleting of chromosome suspsension. These methods allowed collection of dm in sufficient quantity and purity for visualization with electron microscopy. Ultrastructurally, the chromatin fibers in dm resemble thrance fragments was found. When the two isolation protocols were compared, differential pelleting was shown to increase purity twofold to 85% dm by mass. The differential pelleting procedure enables easy collection of dm in sufficient quantity and purity for chemical analysis.