Annalisa Siri

Production and characterization of monoclonal antibodies specific for different epitopes of human tenascin.

We have obtained and characterized 11 monoclonal antibodies (mAbs) specific for different domains of human tenascin (TN). Five of these mAbs reacted with epitopes contained in the TN area that undergoes alternative splicing and are thus able to recognize specific TN isoforms. These mAbs are a useful tool to study the expression and distribution of TN and its different isoforms in normal and pathological tissues.

Fibronectin: a chromatin-associated protein?

We have previously reported that chromatin preparations from human cultured fibroblasts contain a single homologous serum protein. In this paper we present evidence, based on immunological identity and physicochemical properties, that this serum protein is fibronectin. Furthermore, using a radioimmunoassay system, we have estimated that fibronectin represents about 0.7% of the total protein in both chromatin preparations and whole fibroblasts. Using a nitrocellulose filter assay system, we also show that fibronectin is a DNA-binding protein having an equilibrium constant of 4.6 x 10(-6) M. Equilibrium competition experiments have demonstrated that fibronectin has the ability to differentiate among nucleotides, indicating that fibronectin-DNA interaction is at least partially specific, and that a minimum polymer length of 12-18 nucleotides is required for effective binding to occur. Fibronectin has been isolated readily from plasma using DNA-affinity chromatography. We do not have direct evidence that fibronectin is an actual nonhistone chromosomal protein, but fibronectin is a DNA-binding protein (at least under in vitro assay conditions) and appears to be a normal constituent of chromatin as chromatin is currently isolated from cell nuclei.

Lack of specificity of endoglin expression for tumor blood vessels

A monoclonal antibody (MAb; A11) has been raised following mouse immunization with cultured human microvascular endothelial cells. The MAb showed a strong positivity within tumor vessels in glioblastoma and breast carcinoma samples, and the distribution was consistent with antigen association with vascular endothelial cells. A purification procedure of the antigen was developed starting from DG‐RSV‐LT‐2, an immortalized human endothelial cell line. Molecular mass, N‐terminal sequence of the purified antigen and localization on endothelial cell surface allowed identification with human endoglin (CD105). Flow cytometry analysis of a group of normal and transformed cell lines showed that, besides endothelial cells and myelocytic leukemia cells already shown to be positive, fetal fibroblasts, choriocarcinoma, fibrosarcoma and rhabdomyosarcoma cell lines were also positive for this antigen. Immunohistochemic analysis of several normal adult tissues revealed a more extensive presence of the antigen in normal vessels compared to that described with previously characterized antibodies. In fact, even though the staining was weaker than in tumor tissues, all tissues were found to be positive, at least in microvessels, except for normal breast. Moreover, in some tissues (glands and reproductive tract) a positive reaction was observed in the stroma. Since endoglin has been proposed as a possible target for antiangiogenic therapy in tumor patients and our data demonstrate a sizable amount of endoglin in normal vessels and stroma, its clinical use should be carefully reevaluated.

A simplified procedure for the preparation of antibodies to serum fibronectin

In the present paper we describe in detail a simple procedure for the preparation of monospecific antisera to human and mouse serum fibronectin. A similar procedure could also be used to prepare antibodies to fibronectin from other species. The procedure, based on the recently reported affinity of fibronectin for gelatin, essentially consists of two steps (1) Immunization of rabbits with fibronectin purified from serum by affinity chromatography using gelatin coupled to CNBr-activated Sepharose 4B. (2) Absorption of the antiserum obtained by an immunoabsorbent prepared using fibronectin-free serum proteins that remained after absorbing serum with gelatin-Sepharose. The antisera obtained were monospecific, as determined by immunoelectrophoresis and did not show any difference with respect to antisera prepared by different procedures.

Large-scale procedure for the purification of fibronectin domains

Human plasma fibronectin is composed of at least seven distinct domains, with affinities for different macromolecules and cell surfaces. Here we describe in detail a simple high-yield procedure for the purification of large amounts of fibronectin domains. This involves thermolysin digestion of the fibronectin molecule followed by the purification of the domain using mainly hydroxyapatite chromatography columns. This procedure represents a great simplification over those previously reported.

Regulation of cell growth and the expression of extracellular matrix proteins in colorectal adenocarcinoma: a fibroblast-tumor cell coculture model to study tumor-host interactions in vitro.

The production of abundant connective tissue within malignant tumors, the so-called desmoplastic stromal reaction, is a hallmark of colorectal adenocarcinomas. This stroma is produced to a large extent by myofibroblasts and contains various amounts of collagens (type I, III, and V), chondroitin sulfate proteoglycan, hyaluronic acid, fibronectin, and tenascin-C. In this study we have established a monolayer coculture model between two different colorectal adenocarcinoma cell lines (HRT-18, and CX-2) and colonic fibroblasts (CCD-18) to investigate the mechanisms regulating (i) the production of extracellular matrix (ECM) components, (ii) the induction of myofibroblastic differentiation, and (iii) cellular proliferation. We found that TGFbeta1 and FGF-2 stimulated ECM synthesis of fibroblasts. Myofibroblastic differentiation was stimulated by TGFbeta1 but suppressed by FGF-2. There was a mutual stimulation of proliferation between fibroblasts and carcinoma cells. The analogies with ECM components expressed in cocultures and colorectal adenocarcinoma samples suggest that the coculture model used in this study is useful to study tumor cell-fibroblast interactions.

Fibronectin concentrations in pleural effusions of patients with malignant and non-malignant diseases

We have determined the amount of fibronectin in pleural fluids and plasma of 131 patients suffering from pleurisy of malignant and non-malignant etiology. We observed a significantly higher concentration of fibronectin in pleural fluids of a few patients with mesothelioma as compared with that found in pleural fluids of patients with pleurisies of different etiology. In these patients the pleural fluid fibronectin concentration was higher than that measured in plasma, suggesting local synthesis of fibronectin.

Differences in domain structure between pericellular matrix and plasma fibronectins as revealed by domain-specific antibodies combined with limited proteolysis and S-cyanylation: A preliminary note☆

Differences in domain structure between human fibronectins obtained from pericellular matrix and plasma have been revealed by limited proteolysis and S-cyanylation, followed by identification of each domain with domain-specific antibodies. Although the overall domain structure is similar between pericellular and plasma fibronectins, the fragments derived from the COOH-terminal region of these fibronectins, which were defined by specific antibodies, exhibited clear differences in their molecular weights and protease susceptibility, suggesting that the structure near the COOH-terminal region is significantly different between these two proteins.

THE HUMAN TENASCIN-R GENE

The human tenascin-R gene encodes a multidomain protein belonging to the tenascin family, until now detected only in the central nervous system. During embryo development, tenascin-R is presumed to play a pivotal role in axonal path finding through its adhesive and repulsive properties. Recently, the primary structure of human tenascin-R has been elucidated (Carnemolla, B., Leprini, A., Borsi, L., Querzé, G., Urbini, S., and Zardi, L. (1996) J. Biol. Chem. 271, 8157-8160). As a further step to investigate the role of human tenascin-R, we defined the structure of its gene. The gene, which spans a region of chromosome 1 approximately 85 kilobases in length, consists of 21 exons, ranging in size from 90 to >670 base pairs. The sequence analysis of intron splice donor and acceptor sites revealed that the position of introns in human tenascin-R are precisely conserved in the other two tenascin family members, tenascin-C and tenascin-X. The determination of intronic sequences flanking the exon boundaries will allow investigation of whether mutations may be responsible for altered function of the gene product(s) leading to central nervous system development defects.

Adhesion and migration of HRT-18 colorectal carcinoma cells on extracellular matrix components typical for the desmoplastic stroma of colorectal adenocarcinomas.

Colorectal carcinomas belong to the group of desmoplastic carcinomas which are characterized by an extensive connective tissue stromal component containing a variety of extracellular matrix (ECM) molecules. The biological importance of desmoplasia is still under discussion. Formerly, it has been regarded as walling off, thus being an obstacle for tumor cell invasion. In contrast, ECM may serve as a migratory substrate for tumor cells providing an advantage for invasion. Therefore, we have performed an in vitro investigation of the role of collagen types I, III, and V, fibronectin, and two variants of tenascin-C on adhesion and migration of the colorectal carcinoma cell line HRT-18. The data indicate that migration and adhesion strongly depend on both the composition and the concentration of ECM molecules. Even discrete changes in matrix composition can significantly modulate tumor cell migration, indicating that various degrees of invasiveness, e.g. at the tumor-host interface of colorectal carcinomas, can be attributed to environmental modifications.