Selective targeting of tumour neovasculature by a radiohalogenated human antibody fragment specific for the ED-B domain of fibronectin

Angiogenesis is a characteristic feature of many aggressive tumours and other disorders. Antibodies capable of binding to new blood vessels, but not to mature vessels, could be used as selective targeting agents for immunoscintigraphic and radioimmunotherapeutic applications. Here we show that scFv(L19), a recombinant human antibody fragment with sub-nanomolar affinity for the ED-B domain of fibronectin, a marker of angiogenesis, can be stably labelled with iodine-125 and astatine-211 with full retention of immunoreactivity, using a trimethyl-stannyl benzoate bifunctional derivative. Biodistribution studies in mice bearing two different types of tumour grafted subcutaneously, followed by ex vivo micro-autoradiographic analysis, revealed that scFv(L19) rapidly localises around tumour blood vessels, but not around normal vessels. Four hours after intravenous injection of the stably radioiodinated scFv(L19), tumour to blood ratios were 6:1 in mice bearing the F9 murine teratocarcinoma and 9:1 in mice bearing an FE8 rat sarcoma. As expected, all other organs (including kidney) contained significantly less radioactivity than the tumour. Since the ED-B domain of fibronectin has an identical sequence in mouse and man, scFv(L19) is a pan-species antibody and the results presented here suggest clinical utility of radiolabelled scFv(L19) for the scintigraphic detection of angiogenesis in vivo. Furthermore, it should now be possible to investigate scFv(L19) for the selective delivery of 211At to the tumour neovasculature, causing the selective death of tumour endothelial cells and tumour collapse.

Schedule-dependent therapeutic efficacy of L19mTNF-α and melphalan combined with gemcitabine

L19-tumor necrosis factor alpha (L19mTNF-α; L), a fusion protein consisting of mouse TNFα and the human antibody fragment L19 directed to the extra domain-B (ED-B) of fibronectin, is able to selectively target tumor vasculature and to exert a long-lasting therapeutic activity in combination with melphalan (M) in syngeneic mouse tumor models. We have studied the antitumor activity of single L19mTNF-α treatment in combination with melphalan and gemcitabine (G) using different administration protocols in two histologically different murine tumor models: WEHI-164 fibrosarcoma and K7M2 osteosarcoma. All responding mice showed significant reduction in myeloid-derived suppressor cells (MDSCs) and an increase in CD4⁺ and CD8⁺ T cells in the tumor infiltrates, as well as significant reduction in regulatory T cells (Treg) at the level of draining lymph nodes. What is important is that all cured mice rejected tumor challenge up to 1 year after therapy. Targeted delivery of L19mTNF-α synergistically increases the antitumor activity of melphalan and gemcitabine, but optimal administration schedules are required. This study provides information for designing clinical studies using L19mTNF-α in combination with chemotherapeutic drugs.

Targeted delivery of L19mTNF-α synergistically increases the antitumor activity of melphalan and gemcitabine, but optimal administration schedule requires a pretreatment with L19mTNF-α otherwise an antagonistic effect could occur. This study provides information for designing clinical studies using L19mTNF-α in combination with chemotherapeutic drugs.

Selective targeted delivery of the TNF-alpha receptor p75 and uteroglobin to the vasculature of inflamed tissues: a preliminary report

Background

Ligand-targeted approaches have proven successful in improving the therapeutic index of a number of drugs. We hypothesized that the specific targeting of TNF-alpha antagonists to inflamed tissues could increase drug efficacy and reduce side effects.

Results

Using uteroglobin (UG), a potent anti-inflammatory protein, as a scaffold, we prepared a bispecific tetravalent molecule consisting of the extracellular ligand-binding portion of the human TNF-alpha receptor P75 (TNFRII) and the scFv L19. L19 binds to the ED-B containing fibronectin isoform (B-FN), which is expressed only during angiogenesis processes and during tissue remodeling. B-FN has also been demonstrated in the pannus in rheumatoid arthritis. L19-UG-TNFRII is a stable, soluble homodimeric protein that maintains the activities of both moieties: the immuno-reactivity of L19 and the capability of TNFRII to inhibit TNF-alpha. In vivo bio-distribution studies demonstrated that the molecule selectively accumulated on B-FN containing tissues, showing a very fast clearance from the blood but a very long residence time on B-FN containing tissues. Despite the very fast clearance from the blood, this fusion protein was able to significantly improve the severe symptomatology of arthritis in collagen antibody-induced arthritis (CAIA) mouse model.

Conclusions

The recombinant protein described here, able to selectively deliver the TNF-alpha antagonist TNFRII to inflamed tissues, could yield important contributions for the therapy of degenerative inflammatory diseases.

Identification of a novel cell binding site of periostin involved in tumour growth

INTRODUCTION

Periostin (PN), a member of the fasciclin family of proteins, is a TGF-β-induced extracellular matrix protein involved in cell survival, angiogenesis, invasion and metastasis. It is considered a potent angiogenic factor and a marker of tumour progression in many types of human cancer. Many different kinds of cells bind to PN by means of the integrins αvβ3 and αvβ5, but the periostin epitope recognised by these integrins is not formally demonstrated. The aim of our study was to identify which domain of PN could be involved in cell adhesion and its potential role in tumour growth.

METHODS

We generated the monoclonal antibody OC-20 (mAb OC-20) by hybridoma technology. Different PN recombinant fragments were used to characterise the periostin epitope recognised by the mAb OC-20 and to localise a new cell binding site of the protein. A murine model of human melanoma was used in the preclinical in vivo experiments.

RESULTS

We formally demonstrate that the periostin epitope recognised by OC-20 is a new binding site for the integrins αvβ3 and αvβ5, localised in the second FAS1 domain (FAS1-2) of the protein. Moreover the in vivo use of this antibody significantly inhibits tumour growth and angiogenesis.

CONCLUSION

Our results show that the FAS1-2 domain of PN plays a role in tumour progression. Moreover this novel antibody may likewise prove to be very useful in clarifying the role of PN in angiogenesis and may contribute to the design of novel anti-angiogenesis drugs.

Therapy-induced antitumor vaccination in neuroblastomas by the combined targeting of IL-2 and TNFalpha

L19-IL2 and L19TNFalpha are fusion proteins composed of L19(scFv), specific for the angiogenesis-associated ED-B containing fibronectin isoform and IL-2 or TNFalpha. Because of the tumor targeting properties of L19, IL-2 and TNFalpha concentrate at therapeutic doses at the tumor vascular level. To evaluate the therapeutic effects of L19-IL2 and L19mTNFalpha in neuroblastoma (NB)-bearing mice, A/J mice bearing Neuro2A or NIE115 NB were systemically treated with L19-IL2 and L19mTNFalpha, alone or in combination protocols. Seventy percent of Neuro2A- and 30% of NIE115-bearing mice were cured by the combined treatment with L19-IL2 and L19mTNFalpha, and further rejected a homologous tumor challenge, indicating specific antitumor immune memory. The immunological bases of tumor cure and rejection were studied. A highly efficient priming of CD4(+) T helper cells and CD8(+) CTL effectors was generated, paralleled by massive infiltration in the tumor tissue of CD4(+) and CD8(+) T cells at day 16 after tumor cell implantation, when, after therapy, tumor volume was drastically reduced and tumor necrosis reached about 80%. The curative treatment resulted in a long-lasting antitumor immune memory, accompanied by a mixed Th1/Th2 type of response. Concluding, L19-IL2 and L19mTNFalpha efficiently cooperate in determining a high percentage of NB cure that, in our experimental models, is strongly associated to the generation of adaptive immunity involving CD4(+) and CD8(+) T cells.

Alternative splicing of the angiogenesis associated extra-domain B of fibronectin regulates the accessibility of the B-C loop of the type III repeat 8

BACKGROUND

Fibronectin (FN) is a multi-domain molecule involved in many cellular processes, including tissue repair, embryogenesis, blood clotting, and cell migration/adhesion. The biological activities of FN are mediated by exposed loops located mainly at the interdomain interfaces that interact with various molecules such as, but not only, integrins. Different FN isoforms arise from the alternative splicing of the pre-mRNA. In malignancies, the splicing pattern of FN pre-mRNA is altered; in particular, the FN isoform containing the extra-domain B (ED-B), a complete FN type III repeat constituted by 91 residues, is undetectable in normal adult tissues, but exhibits a much greater expression in fetal and tumor tissues, and is accumulated around neovasculature during angiogenic processes, thus making ED-B one of the best markers and targets of angiogenesis. The functions of ED-B are still unclear; however, it has been postulated that the insertion of an extra-domain such as ED-B modifies the domain-domain interface and may unmask loops that are otherwise cryptic, thus giving FN new potential activities.

METHODOLOGY

We used the mAb C6, which reacts with ED-B containing FN, but not with ED-B-free FN and various recombinant FN fragments containing mutations, to precisely localize the epitopes recognized by the mAb C6.

CONCLUSION

We formally demonstrated that the inclusion of the alternatively spliced angiogenesis-associated ED-B leads to the unmasking of the FNIII 8 B-C loop that is cryptic in FN molecules lacking ED-B. Thus, the mAb C6, in addition to providing a new reagent for angiogenesis targeting, represents a new tool for the study of the potential biological functions of the B-C loop of the repeat FNIII 8 that is unmasked during angiogenic processes.

Use of uteroglobin for the engineering of polyvalent, polyspecific fusion proteins

We report a novel strategy to engineer and express stable and soluble human recombinant polyvalent/polyspecific fusion proteins. The procedure is based on the use of a central skeleton of uteroglobin, a small and very soluble covalently linked homodimeric protein that is very resistant to proteolytic enzymes and to pH variations. Using a human recombinant antibody (scFv) specific for the angiogenesis marker domain B of fibronectin, interleukin 2, and an scFv able to neutralize tumor necrosis factor-alpha, we expressed various biologically active uteroglobin fusion proteins. The results demonstrate the possibility to generate monospecific divalent and tetravalent antibodies, immunocytokines, and dual specificity tetravalent antibodies. Furthermore, compared with similar fusion proteins in which uteroglobin was not used, the use of uteroglobin improved properties of solubility and stability. Indeed, in the reported cases it was possible to vacuum dry and reconstitute the proteins without any aggregation or loss in protein and biological activity.

Reorganisation of the caecal extracellular matrix upon Salmonella infection--relation between bacterial invasiveness and expression of virulence genes

Interactions of Salmonella (S.) outer membrane structures with extracellular matrix (ECM) of host tissues seem to be crucial for bacterial adhesion and invasion. To evaluate the relationship between the ECM and bacterial invasiveness, the reorganisation of fibronectin, tenascin-C and laminin after Salmonella exposure in vivo, the Salmonella adhesiveness to ECM proteins in vitro and the virulence gene expression upon co-cultivation of salmonellae and ECM proteins were elucidated for two Salmonella strains with different capabilities to enter the intestinal mucosa. Immunohistochemistry and confocal microscopy showed that the infection of day-old chicks using either the highly invasive S. Enteritidis (SE) or the nearly non-invasive S. Infantis (SINF) strain was associated with an invasion-dependent reorganisation of fibronectin and tenascin-C in the caecal wall. Compared to SINF, clustered formations of SE were localised within and attached to the fibronectin and tenascin-C scaffold in the lamina propria indicating a relevance of ECM for bacterial dissemination in lower regions of the mucosa. In adhesion assays, SE was, indeed, significantly more adhesive to the matrix proteins than SINF. The attachment was accompanied by an increased fliC mRNA expression in SE demonstrated by microarray analysis as well as quantitative real-time RT-PCR. The data suggest a relationship between the capability of Salmonella serovars to interact with matrix proteins and to disseminate in gut mucosa perhaps in consequence of a matrix-mediated upregulation of the Salmonella motility gene fliC.

A high-affinity human monoclonal antibody specific to the alternatively spliced EDA domain of fibronectin efficiently targets tumor neo-vasculature in vivo

The alternatively spliced extra-domain B of fibronectin is one of the best characterized markers of tumor angiogenesis. Similarly, the extra-domain A (EDA), which can also be inserted in the fibronectin transcript by a mechanism of alternative splicing, has been shown to preferentially accumulate around new blood vessels in certain tumors, but this antigen has not been investigated so far as a target for antibody-based biomolecular intervention. We here describe the generation of 3 human monoclonal antibodies (named F8, B7 and D5), which recognize the same epitope of EDA, but which differ in terms of their dissociation constant to the human antigen (K(D) = 3.1, 16 and 17 nM, measured for monomeric preparations of the F8, B7 and D5 antibodies, respectively, in recombinant scFv format). When the 3 antibody fragments were cloned and expressed with a 5 amino acid linker, the 3 resulting homodimeric antibody preparations displayed comparable tumor: organ ratios in quantitative biodistribution studies, performed in immunocompetent 129SvEv mice, bearing subcutaneous syngeneic F9 murine tumors. The percent injected dose per gram (%ID/g) values in tumors 24 hr after intravenous injection were 9.3, 10.2 and 13 for F8, B7 and D5, respectively. The F8 antibody may serve as useful building block for the development of antibody-based targeted anti-cancer therapeutics. Preclinical and clinical investigations are facilitated by the fact that F8 recognizes the human and mouse antigen with comparable affinity, and by the observation that EDA over-expression is detectable not only in solid tumors, but also in hematological malignancies.

Therapy-induced antitumor vaccination by targeting tumor necrosis factor alpha to tumor vessels in combination with melphalan

Treatment of tumor-bearing mice with mouse (m)TNF-alpha, targeted to tumor vasculature by the anti-ED-B fibronectin domain antibody L19(scFv) and combined with melphalan, induces a therapeutic immune response. Upon treatment, a highly efficient priming of CD4+ T cells and consequent activation and maturation of CD8+ CTL effectors is generated, as demonstrated by in vivo depletion and adoptive cell transfer experiments. Immunohistochemical analysis of the tumor tissue demonstrated massive infiltration of CD4+ and CD8+ T cells 6 days after treatment and much earlier in the anamnestic response to tumor challenge in cured mice. In fact, the curative treatment with L19mTNF-alpha and melphalan resulted in long-lasting antitumor immune memory, accompanied by a mixed Th1/Th2-type response and significant in vitro tumor-specific cytolytic activity. Finally, the combined treatment reduced the percentage and absolute number of CD4+CD25+ regulatory T cells in the tumor-draining lymph nodes of mice responding to therapy, and this was associated with the establishment of protective immunity. These findings pave the way for alternative therapeutic strategies based on the targeted delivery of biological and pharmacological cytotoxic compounds that not only kill most of the tumor cells but, more importantly, trigger an effective and long-lasting antitumor adaptive immune response.

A quantitative co-localization analysis of large unspliced tenascin-C(L) and laminin-5/gamma2-chain in basement membranes of oral squamous cell carcinoma by confocal laser scanning microscopy

BACKGROUND

A structural interaction of the oncofetal large tenascin-C splice variants (Tn-C(L)) and the gamma2-chain of laminin-5 (Ln-5/gamma2) was recently demonstrated in oral squamous cell carcinoma (OSCC). In situ different patterns of co-localization and co-deposition of both proteins could be detected. Especially the co-localization in re-established basement membrane (BM) structures seemed to be biologically meaningful within the process of tumour progression.

METHODS

The amount of Tn-C(L) incorporated in reorganized OSCC BM structures at the tumour margins was investigated by a laser scanning microscopy-based quantitative co-localization analysis.

RESULTS

In the BM of normal oral mucosa no Tn-C(L) could be detected. In dysplastic and neoplastic oral mucosa a distinct co-localization of Tn-C(L) and Ln-5/gamma2 in the BM region could be observed. The extent of Tn-C(L) arrangement into reorganized BM structures correlated with malignancy grade.

CONCLUSIONS

The results suggest at first, a modulation of carcinomatous BM structures by the inclusion of oncofetal matrix proteins during tumour progression and secondly, the BM incorporation of the adhesion-modulating molecule Tn-C(L) as a pre-invasive structural phenomenon in OSCC.

Differential expression of tenascin-C splicing domains in urothelial carcinomas of the urinary bladder

PURPOSE

Through alternative splicing of the extracellular matrix protein tenascin-C (Tn-C) primary transcript nine type III homology repeats can be independently included or omitted. Large, low spliced Tn-C variants (Tn-C(L)) are preferentially expressed during tissue remodelling processes like tumour invasion to modulate cell migration. The study was aimed to evaluate the differential expression of Tn-C splicing domains in urinary bladder carcinoma with respect to the invasive behaviour.

METHODS

The deposition and synthesis of the Tn-C splicing domains A1-D was analysed in 34 urinary bladder carcinomas by semiquantitative immunohistochemistry using domain specific antibodies and by RT-PCR. Results were correlated to tumour stage and grade.

RESULTS

There is a significant increase of Tn-C(L) with higher tumour stage and grade. Immunohistochemistry revealed a more restricted distribution pattern of A1, B, and/or D domain containing Tn-C variants to invasive tumours, tumour vessels, and to destructed muscle. The mRNA expression patterns of the domains A1-A3 are similar among the different carcinomas. Stronger differences exist in the region from the B to D domain. In general, the domains AD1/C are rarely expressed. AD1 domain expression seems to be connected with compact invasion pattern.

CONCLUSION

In urinary bladder carcinoma a differential expression of Tn-C splicing variants exists in dependence of tumour type, vascularization, and invasive behaviour. Therefore, the detection of different Tn-C splicing domains could be useful for assessment of muscle invasion, tumour surveillance, as well as target structures for antibody based tumour detection and therapy.

Targeted Delivery of Tumor Necrosis Factor-α to Tumor Vessels Induces a Therapeutic T Cell–Mediated Immune Response that Protects the Host Against Syngeneic Tumors of Different Histologic Origin

PURPOSE

We sought to demonstrate that a single systemic administration of L19mTNFalpha (a fusion protein constituted by the scFv L19 specific for the oncofetal ED-B domain of fibronectin and tumor necrosis factor alpha, TNFalpha) in combination with melphalan induced complete and long-lasting tumor eradication in tumor-bearing mice and triggered the generation of a specific T cell-based immune response that protects the animals from a second tumor challenge, as well as from challenges with syngeneic tumor cells of different histologic origin.

EXPERIMENTAL DESIGN AND RESULTS

Treatment with L19mTNFalpha, in combination with melphalan, induced complete tumor regression in 83% of BALB/c mice with WEHI-164 fibrosarcoma and 33% of animals with C51 colon carcinoma. All cured mice rejected challenges with the same tumor cells and, in a very high percentage of animals, also rejected challenges with syngeneic tumor cells of different histologic origin. In adoptive immunity transfer experiments, the splenocytes from tumor-cured mice protected naive mice both from C51 colon carcinoma and from WEHI-164 fibrosarcoma. Similar results were also obtained in adoptive immunity transfer experiments using severely immunodepressed mice. Experiments using depleted splenocytes showed that T cells play a major role in tumor rejection.

CONCLUSIONS

The results show that the selective targeting of mTNFalpha to the tumor enhances its immunostimulatory properties to the point of generating a therapeutic immune response against different histologically unrelated syngeneic tumors. These findings predicate treatment approaches for cancer patients based on the targeted delivery of TNFalpha to the tumor vasculature.

Complex formation of the laminin-5 γ2 chain and large unspliced tenascin-C in oral squamous cell carcinoma in vitro and in situ: implications for sequential modulation of extracellular matrix in the invasive tumor front

Invasion and metastasis in oral squamous cell carcinoma (OSCC) are associated with changes in the extracellular matrix (ECM). We have previously shown an extracellular co-deposition of laminin-5 (Ln-5) and large unspliced tenascin-C (Tn-C(L)) in OSCC. Using a co-culture model of hTERT-BJ1 fibroblasts and the OSCC cell line PE/CA-PJ15, we demonstrate in the present study that Ln-5 and Tn-C(L) are not only co-deposited, but also form a physical complex which can be recovered by co-immunoprecipitation. In agreement with these results, examination of OSCC tissue specimens of different malignancy grade by means of confocal laser scanning microscopy revealed different patterns of Ln-5 and Tn-C(L) co-localization implicating complex formation also in vivo. A ribbon like co-localization was detected in subepithelial basement membranes around well differentiated OSCC parts and tumor clusters. Furthermore, a fibrillar Ln-5 gamma2 chain/Tn-C(L) co-localization occurred in the carcinoma stroma beneath tumor clusters. Additionally, at the site of ruptured basement membranes there were dot or strand like co-deposits of both molecules, but co-localizations were only rarely detectable. These different patterns may reflect a sequential modulation and reorganization of the ECM in the tumor/stroma interface as it occurs in different stages of OSCC invasion.

Analysis of activated EGFR signalling pathways and their relation to laminin-5 gamma2 chain expression in oral squamous cell carcinoma (OSCC)

Overexpression of epidermal growth factor receptor (EGFR) was shown for the majority of squamous cell carcinomas. The EGFR expression correlates to tumour size, stage and cytoplasmic accumulation of the laminin-5 gamma2 chain (Ln-5/gamma2), which is known as a marker of invading tumour cells. There is only limited knowledge if and how EGFR signalling pathways are important for invasion-associated processes and for the regulation of Ln-5/gamma2. Therefore the distribution of phosphorylated Erk1/2, p38 MAPK and Akt was immunohistochemically defined in oral squamous cell carcinoma (OSCC) of different histological grade and compared to histological criteria of invasion and cytoplasmic Ln-5/gamma2 deposition. With raising histological grade, there is a slight increase in nuclear pErk1/2-stained tumour cells (P=0.398) and a loss of nuclear (P=0.593) and increased cytoplasmic staining (P=0.144) of pAkt mainly in invading OSCC cells. Nuclear pp38 MAPK could only be sporadically detected in few cases. In case of pErk1/2 and pAkt, only a partial co-localisation could be revealed in cases with abundant kinases and Ln-5/gamma2. Among the investigated kinases, only pAkt shows a relation to histological grade and invasion in OSCC. pErk1/2, pp38 MAPK and pAkt do not represent a direct link between EGFR and Ln-5 synthesis. Therefore, enhanced Ln-5/gamma2 may be a secondary phenomenon of EGFR-induced tumour cell proliferation and dissemination.

Influence of Various Cytokines on Adhesion and Migration of the Colorectal Adenocarcinoma Cell Line HRT-18

The stroma of colorectal adenocarcinoma contains both abundant extracellular matrix (ECM) and an inflammatory cell infiltrate. The latter is the source of various cytokines, present in different concentrations in the tumor cell microenvironment. The aim of the present study was to investigate whether cytokines act as motility factors for HRT-18 rectal carcinoma cells and if this effect depends on the ECM. The main result of our study is that cytokines affect tumor cell motility in a matrix-dependent manner, and that stimulatory and inhibitory effects may depend on the composition of the ECM. Hepatocyte growth factor/scatter factor was the strongest migration factor for HRT-18 cells independent of the ECM. On the other hand, IL-6 was a strong migration stimulator for cells on Tenascin-C but was inhibitory on collagen type V. Therefore, different degrees of invasiveness at the tumor-host interface are not necessarily related to specific genetic alterations but might be related to different environmental conditions as well.

mRNA expression and protein distribution of the unspliced tenascin-C isoform in prostatic adenocarcinoma

The inclusion or omission of the alternatively spliced region in the tenascin-C (Tn-C) mRNA gives rise to the large (Tn-C(L)) or small (Tn-C(S)) variant, respectively. Tn-C(L) is thought to be a typical component of provisional extracellular matrices (ECMs) and is expressed during tumour stroma remodelling in cancer. Tn-C(L) mRNA expression and protein distribution have been studied in 44 prostatic adenocarcinomas using RNA/RNA in situ hybridization supplemented by reverse transcriptase-polymerase chain reaction (RT-PCR), and immunohistochemistry (clone BC-2). While the Tn-C(L) protein was demonstrated within tumour stroma, Tn-C(L) mRNA expression was mainly observed in carcinoma cells, regardless of the histological grade of the tumour. Carcinoma cells containing Tn-C(L) mRNA were particularly localized at the tumour invasion front. Tn-C(L) mRNA was also identified in benign prostatic hyperplasia, where it was present exclusively in the basal cell layer, and in prostatic intraepithelial neoplasia in which there was partial loss of positive basal cells and increasing positivity of luminal cells. Furthermore, newly formed tumour blood vessels and inflammatory and stromal cells take part in the expression of Tn-C(L) and are involved in the formation of a provisional tumour matrix. It is concluded that deposits of Tn-C(L) indicate rebuilding processes in non-neoplastic as well as in neoplastic prostatic tissues. In respect of the Tn-C(L) synthesis in budding prostatic carcinoma cells, the results demonstrate that tumour cells can directly produce the ECM components of carcinoma stroma, creating conditions that facilitate the process of invasion.

Expression of fibronectin splice variants and oncofetal glycosylated fibronectin in the synovial membranes of patients with rheumatoid arthritis and osteoarthritis

OBJECTIVE

The aim of this study was to define and compare the expression of fibronectin (Fn) isoforms in synovial tissue of patients with rheumatoid arthritis (RA) and osteoarthritis (OA).

METHODS

Using monoclonal antibodies specific for total Fn, extra domain (ED)-A Fn, ED-B Fn, and oncofetal glycosylated Fn, we studied the expression of the Fn isoforms in synovium. Furthermore, in situ hybridization for the detection of ED-B Fn mRNA including a double labeling technique for the detection of cell type was applied.

RESULTS

Strong expression of total Fn, ED-A Fn, oncofetal glycosylated Fn and, to a lesser extent, ED-B Fn could be demonstrated in the synovial lining layer in both RA and OA. Stromal and vessel expression of Fn isoforms was more prominent in RA tissue. Pannus tissue showed strong labeling with ED-B Fn.

CONCLUSION

The expression of alternatively spliced isoforms of Fn is associated with tissue remodeling and, as a partial process of this phenomenon, with neovascularization rather than underlying disease, X-ray status, or parameters of acute inflammation. In the lining layer, Fn expression correlates with hyperplasia associated with cell recruitment but not with proliferative status. Most remarkably, the expression of ED-B Fn in pannus tissue seems to be associated with the invasive phenotype described in RA tissue.

Selective targeted delivery of TNFalpha to tumor blood vessels

We sought to enhance the selective toxicity of tumor necrosis factor alpha (TNFalpha) to permit its systemic use in cancer therapy. Because ligand-targeted therapeutics have proven successful in improving the selective toxicity of drugs, we prepared a fusion protein (L19mTNFalpha) composed of mouse TNFalpha and a high-affinity antibody fragment (L19 scFv) to the extradomain B (ED-B) domain of fibronectin, a marker of angiogenesis. L19mTNFalpha was expressed in mammalian cells, purified, and characterized. L19mTNFalpha was an immunoreactive and biologically active homotrimer. Radiolabeled L19mTNFalpha selectively targeted tumor neovasculature in tumor-bearing mice, where it accumulated selectively and persistently (tumor-to-blood ratio of the percentage of injected dose per gram [%ID/g] of 700, 48 hours from injection). L19mTNFalpha showed a greater anticancer therapeutic activity than both mTNFalpha and TN11mTNFalpha, a control fusion protein in which an antibody fragment, irrelevant in the tumor model used, substituted for L19. This activity was further dramatically enhanced by its combination with melphalan or the recently reported fusion protein L19-IL2. In conclusion, L19mTNFalpha allows concentrating therapeutically active doses of TNFalpha at the tumor level, thus opening new possibilities for the systemic use of TNFalpha in cancer therapy.

Differential in vivo and in vitro expression of ED-B+ fibronectin in adult human hematopoiesis

Fibronectin in general is involved in adhesion and maturation of the erythroid lineage, in megakaryopoiesis and in the differentiation of human multipotent hematopoietic progenitor cells. However, little information exists about the expression of the oncofetal fibronectin isoform containing the ED-B domain (ED-B+ fn) in adult human hematopoiesis. The study was aimed to analyze the ED-B+ fn expression in normal human bone marrow cells by immunocytochemistry, flow cytometry and reverse-transcriptase polymerase chain reaction. The in vivo results were compared to ED-B+ fn expression in human long-term bone marrow cultures (LTBMC), cytokine supported expansion cultures of CD34+ peripheral blood progenitor cells (PBPC) and in leukemic cell lines with megakaryocytic characteristics (K562, CMK). ED-B+ fn protein was immunocytochemically demonstrated in normal bone marrow megakaryocytes as well as in megakaryocytic progenitor/precursor cells generated ex vivo from PBPC but we failed to detect ED-B+ fn mRNA. It was strongly expressed in LTBMC (RNA and protein). Analysis of human bone marrow mononuclear cells by flow cytometry and confocal microscopy revealed only cytoplasmic ED-B+ fn. The SCF/TPO induced megakaryocytic differentiation of ED-B+ fn negative CMK cells is associated with an increase of large megakaryocytes followed by an intracellular accumulation of ED-B+ fn mRNA and protein. We conclude that in normal human hematopoiesis ED-B+ fn protein expression and intracellular accumulation is restricted to differentiation of megakaryocytes. Low-abundant synthesis, intracellular accumulation and failure of membrane exposure might be due to a function during early events of wound healing (formation of a platelet-rich provisional extracellular matrix).

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.

Synergistic therapeutic effects of a tumor targeting antibody fragment, fused to interleukin 12 and to tumor necrosis factor alpha

The potent antitumor activity of certain cytokines is often achieved at the expense of unacceptable toxicity. One avenue to improve the therapeutic index of cytokines in cancer therapy consists of fusing them to monoclonal antibodies capable of a selective localization at the tumor site. We have constructed fusion proteins of interleukin-12 (IL-12) and tumor necrosis factor (TNF-alpha) with L19, an antibody fragment specific to the extradomain B of fibronectin which has been shown to target tumors in animal models and in patients with cancer. These fusions display a potent antitumor activity in several immunocompetent murine models of cancer but do not lead to complete remissions of established aggressive tumors. In this article, we have evaluated the tumor-targeting properties and the anticancer activities of combinations of the two antibody-cytokine fusion proteins, as well as of a triple fusion protein between IL-12, L19, and TNF-alpha. Although all fusion proteins were active in vitro, the triple fusion protein failed to localize to tumors in vivo and to show significant therapeutic effects. By contrast, the combination of IL-12-L19 and L19-TNF-alpha displayed potent synergistic anticancer activity and led to the eradication of F9 teratocarcinomas grafted in immunocompetent mice. When cured mice were rechallenged with tumor cells, a delayed onset of tumor growth was observed, indicating the induction of a partial antitumor vaccination effect. Potent anticancer effects were achieved at doses of IL-12-L19 and L19-TNF-alpha (2 micro g + 2 micro g/mouse), which were at least 5-fold lower than the maximal-tolerated dose. The combined administration of the two fusion proteins showed only a modest increase in toxicity, compared with treatments performed with the individual fusion proteins. These results show that the targeted delivery of cytokines to the tumor environment strongly potentiates their antitumor activity and that the combination treatment with IL-12-L19 and L19-TNF-alpha appears to be synergistic in vivo.

Immunoscintigraphic detection of the ED-B domain of fibronectin, a marker of angiogenesis, in patients with cancer

PURPOSE

ED-B fibronectin is expressed only during angiogenic processes and in tissues undergoing growth and/or extensive remodeling. We demonstrated previously the possibility to target and selectively deliver therapeutic substances to tumor vasculature in experimental animal models using a human recombinant antibody fragment, L19, specific for the ED-B domain of fibronectin. Here we evaluate the possibility of targeting primary tumors and metastatic lesions in cancer patients through immunoscintigraphy using (123)I-labeled dimeric L19 [L19(scFv)(2)].

EXPERIMENTAL DESIGN

Twenty patients (34-79 years of age) with lung, colorectal, or brain cancer, whose tumors had been confirmed by imaging techniques and/or histologically, were admitted to the immunoscintigraphic investigation.

RESULTS

The dimeric L19 antibody selectively localized in tumor lesions in aggressive types of lung cancer and colorectal cancer. Because ED-B fibronectin is expressed only during angiogenic processes and in tissues undergoing growth and/or extensive remodeling, L19(scFv)(2) is able to distinguish between quiescent and actively growing lesions. No side effects were observed.

CONCLUSIONS

The ability of L19(scFv)(2) to target tumors in patients provides the foundations for new therapeutic applications, in which the L19 antibody is engineered to selectively deliver bioactive molecules to primary tumors as well as to metastases.

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.

An antibody-calmodulin fusion protein reveals a functional dependence between macromolecular isoelectric point and tumor targeting performance

PURPOSE

Human monoclonal antibodies are promising agents for the development of improved anticancer therapeutics, because, unlike low-molecular-weight chemotherapeutic agents, they can selectively localize to solid tumors. In particular, the scFv(L19) antibody fragment, specific for the EDB domain of fibronectin, a marker of angiogenesis, has demonstrated an impressive tumor targeting performance in a variety of tumor-bearing animals and in patients with cancer. The purpose of this study was to develop a tumor pretargeting strategy, based on a novel anti-EDB fusion protein.

METHODS AND MATERIALS

We have fused the scFv(L19) to calmodulin, a small acidic protein for which specific binding peptides with a dissociation constant in the picomolar range are available. The resulting fusion protein has been expressed in mammalian cells and purified to homogeneity, before being characterized by quantitative biodistribution analysis in mice bearing the F9 murine teratocarcinoma.

RESULTS

Surprisingly, we have found that the fusion of scFv(L19) to calmodulin completely abrogated the tumor targeting ability of the antibody in vivo, although both scFv(L19) and calmodulin moieties within the fusion protein retained unaltered binding affinities toward their respective ligand. Furthermore, a systematic analysis of 13 derivatives of scFv(L19) recently produced in our laboratories showed that the 10 derivatives that retain the tumor targeting ability of the parental antibody have isoelectric points (pI) between 5.0 and 9.0, whereas scFv(L19)-calmodulin (pI = 4.49) and two other derivatives of scFv(L19) with pI >9.0 were unable to target tumors in vivo.

CONCLUSIONS

Because the EDB domain of fibronectin is a component of the modified extracellular matrix, predominantly located at the abluminal side of tumor blood vessels, our data suggest that extreme pI values of antibody-based pharmaceuticals may inhibit protein extravasation, perhaps by virtue of electrostatic interactions with endothelial cells and/or components of the extracellular matrix.

Differentiation between high- and low-grade astrocytoma using a human recombinant antibody to the extra domain-B of fibronectin

Different fibronectin (FN) isoforms are generated by the alternative splicing of the primary FN transcript. We previously demonstrated that the isoform containing the extra domain B sequence of fibronectin (B-FN), a complete type-III-homology repeat, is a marker of angiogenesis that accumulates around neovasculature only during angiogenic processes. We produced a single-chain human recombinant antibody (scFv), L19, which reacts specifically with B-FN and selectively targets tumor vasculature in vivo. We used this scFv and an antibody against a pan-endothelial marker (Factor VIII) in a double-staining procedure on specimens of low- and high-grade astrocytomas to determine the percentage of B-FN-positive vessels, (denominating the resulting value angiogenic index [AI]). Compared to vascular density and proliferative activity (evaluated using antibodies to Factor VIII and Ki67, respectively), AI correlated better with tumor grade (1.6 +/- 2.6% and 92.0 +/- 8.7% of B-FN-positive vessels in low- and high-grade astrocytomas, respectively) and was a more precise diagnostic tool than either of the two conventional methods. In fact, discriminating analysis using these three parameters showed that only AI accurately classified 100% of the cases studied, compared to 64% and 89% correctly diagnosed by vascular density and of proliferating cells, respectively.

Selective targeting of tumoral vasculature: comparison of different formats of an antibody (L19) to the ED-B domain of fibronectin

We recently demonstrated that a human recombinant scFv, L19, reacting with the ED-B domain of fibronectin, a marker of angiogenesis, selectively targets tumoral vasculature in vivo. Using the variable regions of L19, we constructed and expressed a human "small immunoprotein" (SIP) and a complete human IgG1 and performed biodistribution studies in tumor-bearing mice to compare the blood clearance rate, in vivo stability and performance in tumor targeting of the 3 L19 formats [dimeric scFv (scFv)(2), SIP and IgG1]. The accumulation of the different antibody formats in the tumors studied was a consequence of the clearance rate and in vivo stability of the molecules. Using the SIP, the %ID/g in tumors was 2-5 times higher than that of the (scFv)(2), reaching a maximum 4-6 hr after injection. By contrast, the accumulation of IgG1 in tumors constantly rose during the experiments. However, due to its slow clearance, the tumor-blood ratio of the %ID/g after 144 hr was only about 3 compared to a ratio of 10 for the (scFv)(2) and 70 for the SIP after the same period of time. The different in vivo behavior of these 3 completely human L19 formats could be exploited for different diagnostic and/or therapeutic purposes, depending on clinical needs and disease. Furthermore, the fact that ED-B is 100% homologous in human and mouse, which ensures that L19 reacts equally well with the human and the murine antigen, should expedite the transfer of these reagents to clinical trials.

Enhancement of the antitumor properties of interleukin-2 by its targeted delivery to the tumor blood vessel extracellular matrix

Angiogenic processes depend on the precise coordination of different cell types and a complex exchange of signals, many of which derive from new specific components of the provisional, angiogenesis-related, extracellular matrix (ECM). Angiogenesis-associated ECM components thus represent appealing targets for the selective delivery of therapeutic molecules to newly forming tumor vessels. Results of a previous study indicated that a high affinity recombinant antibody (L19) to ED-B, a domain contained in the angiogenesis-associated isoform of fibronectin (B-FN), selectively and efficiently targets tumor vessels. The present study shows that a fusion protein between L19 and interleukin 2 (L19-IL-2) mediates the selective delivery and concentration of IL-2 to tumor vasculature, thereby leading to a dramatic enhancement of the therapeutic properties of the cytokine. By contrast, IL-2 fused to an irrelevant recombinant antibody used as a control fusion protein showed neither accumulation in tumors nor therapeutic efficacy. Tumors in mice treated with L19-IL-2 were significantly smaller compared to those in animals treated with saline, the control fusion protein, or IL-2 alone (P =.003,.003, and.002, respectively). Moreover, no significant differences in size were observed among the tumors from the different control groups (using the control fusion protein, a mixture of IL-2 and L19, or saline alone). Immunohistochemical analysis of tumor infiltrates demonstrated a significantly higher number of T lymphocytes, natural killer cells, and macrophages, as well as increased interferon-gamma (IFN-gamma) accumulation, in tumors from animals treated with L19-IL-2 compared to tumors from control groups. The fact that ED-B is 100% homologous in human and mouse, thus ensuring that L19 reacts equally well with human and murine antigen, should ultimately expedite transfer of this reagent to clinical trials.

Fibrillary co-deposition of laminin-5 and large unspliced tenascin-C in the invasive front of oral squamous cell carcinoma in vivo and in vitro

PURPOSE

Invasion of oral squamous cell carcinoma (OSCC) is associated with laminin-5 (Ln-5) synthesis, focal Ln-5 loss from the basement membrane (BM), and Ln-5 depositions in the stroma beneath invading carcinoma cell complexes.

METHODS

The study is focused on the laminin-5 matrix reorganisation within the stroma of the OSCC invasive front outside the basement membrane region as well as in OSCC-fibroblast co-culture in relation to unspliced tenascin-C (Tn-CL) and ED-B+ fibronectin (ED-B+ fn) using confocal laser scanning microscopy.

RESULTS

In vivo, Ln-5 was demonstrated as fibrillary deposition in the invasive front. It was co-localised to Tn-CL. In pure OSCC cultures, Ln-5 was synthesised and deposited as a spot-like matrix. Fibrillary structures were not found. In contrast, in the OSCC-fibroblast co-culture, a fibrillary Ln-5 matrix organisation was revealed within the interface of OSCC cell-fibroblast complexes exclusively in co-distribution with Tn-CL and ED-B+ fn.

CONCLUSION

At least in vitro, a carcinoma cell-stroma fibroblast interaction is indispensable for fibrillary Ln-5/Tn-CL matrix organisation. Behind the parallels to the initial basement membrane formation in organotypic cultures, the fibrillary multiprotein complexes at the OSCC cell-fibroblast interface are suggested as provisional basement membrane fragments with a possible supportive role for invasive tumour behaviour.

Rat tenascin-R gene: structure, chromosome location and transcriptional activity of promoter and exon 1

Tenascin-R is an extracellular matrix protein expressed exclusively in the central nervous system where it is thought to play a relevant role in regulating neurite outgrowth. We have i) cloned the cDNA of the rat tenascin-R 5' region; ii) defined its genomic organization, obtaining the sequence of two novel untranslated exons; iii) mapped the gene to rat chromosome 13q23 and suggested a previously unreported synteny between rat chromosome 13q23, human chromosome 1q24, and mouse chromosome 4E; and iv) sequenced and characterized the elements responsible for its neural cell-restricted transcription. We found that two discrete regions of the rat gene (the first in the proximal promoter, the second in the first exon) are independently able to activate to a high degree the transcription of a reporter gene in either human or rat neuroblastoma cell lines but not in other cell lines. Based on this observation, we re-evaluated the arrangement of transcriptionally active regions in the human tenascin-R gene we recently cloned and found that the human gene also contains an exon sequence able to initiate and sustain transcription independently of promoter sequences.

Synthesis and protein distribution of the unspliced large tenascin-C isoform in oral squamous cell carcinoma

The inclusion or omission of the alternatively spliced region in the tenascin-C (Tn-C) mRNA gives rise to the large (Tn-C(L)) or small (Tn-C(S)) variant, respectively. Tn-C(L) is thought to be a typical component of provisional extracellular matrices (ECMs) and is expressed during tumour stroma remodelling. Tn-C(L) synthesis has been studied using RNA/RNA in situ hybridization, and Tn-C(L) protein distribution, using immunohistochemistry (clone BC-2), in 18 oral squamous cell carcinomas (OSCCs) of different grades of malignancy. While the Tn-C(L) protein was demonstrated within the whole stromal compartment regardless of grade of malignancy, the majority of the Tn-C(L) mRNA signal-bearing cells were carcinoma cells. Only a few stromal myofibroblasts were able to synthesize Tn-C(L), as revealed by alpha-smooth muscle actin double staining. In well-differentiated carcinomas (G1), the Tn-C(L) synthesizing carcinoma cells were localized as a single positive cell layer in the tumour stroma interface, particularly in invasive areas. A higher grade of malignancy (G2/G3) is associated with a significantly increased number of Tn-C(L) synthesizing carcinoma cells randomly distributed within the invading tumour areas. Double-staining experiments (Tn-C(L) mRNA ISH/BC-2 immunohistochemistry) indicate that these cells are capable of organizing and depositing a three-dimensional Tn-C(L) matrix. Even though an instructive and/or inductive role of the carcinoma cells in tumour stroma formation cannot be excluded, these results demonstrate that carcinoma cells can directly produce the ECM components of tumour stroma.

Distribution of laminin and fibronectin isoforms in oral mucosa and oral squamous cell carcinoma

The expression of laminin and fibronectin isoforms varies with cellular maturation and differentiation and these differences may well influence cellular processes such as adhesion and motility. The basement membrane (BM) of fetal oral squamous epithelium contains the laminin chains, alpha2, alpha3, alpha5, beta1, beta2, beta3, gamma1 and gamma2. The BM of adult normal oral squamous epithelium comprises the laminin chains, alpha3, alpha5, beta1, beta3, gamma1 and gamma2. A re-expression of the laminin alpha2 and beta2 chains could be shown in adult hyperproliferative, dysplastic and carcinomatous lesions. In dysplasia and oral squamous cell carcinoma (OSCC), multifocal breaks of the BM are present as indicated by laminin chain antibodies. These breaks correlate to malignancy grade in their extent. Moreover, in the invasion front the alpha3 and gamma2 chain of laminin-5 can immunohistochemically be found outside the BM within the cytoplasm of budding carcinoma cells and in the adjacent stroma. The correlation between the morphological pattern of invasive tumour clusters and a laminin-5 immunostaining in the adjacent stroma may suggest, first, that a laminin-5 deposition outside the BM is an immunohistochemical marker for invasion and second, that OSCC invasion is guided by the laminin-5 matrix. Expression of oncofetal fibronectins (IIICS de novo glycosylated fibronectin and ED-B fibronectin) could be demonstrated throughout the stromal compartment. However, the ED-B fibronectin synthesizing cells (RNA/RNA in situ hybridization) are confined to small stroma areas and to single stroma and inflammatory cells in the invasion front. A correlation of the number of ED-B fibronectin synthesizing cells to malignancy grade could not be seen. ED-B fibronectin mRNA-positive cells seem to be concentrated in areas of fibrous stroma recruitment with a linear alignment of stromal fibro-/myofibroblasts (desmoplasia). Double staining experiments (ED-B fibronectin in situ hybridization and alpha-smooth muscle actin immunohistochemistry) indicated that the stroma myofibroblasts are a preferential source of ED-B fibronectin. In conclusion, in OSCC, a fetal extracellular matrix conversion is demonstrable. Tumour cells (laminin alpha2 and beta2 chain) and recruited stromal myofibroblasts (oncofetal ED-B fibronectin) contribute to the fetal extracellular matrix milieu.

A high-affinity human antibody that targets tumoral blood vessels

Angiogenesis is a characteristic feature of many aggressive tumors and of other relevant disorders. Molecules capable of specifically binding to new-forming blood vessels, but not to mature vessels, could be used as selective vehicles and would, therefore, open diagnostic and therapeutic opportunities. We have studied the distribution of the ED-B oncofetal domain of fibronectin, a marker of angiogenesis, in four different tumor animal models: the F9 murine teratocarcinoma, SKMEL-28 human melanoma, N592 human small cell lung carcinoma, and C51 human colon carcinoma. In all of these experimental models we observed accumulation of the fibronectin isoform containing the ED-B domain around neovascular structures when the tumors were in the exponentially growing phase, but not in the slow-growing phase. Then we performed biodistribution studies in mice bearing a subcutaneously implanted F9 murine teratocarcinoma, using a high-affinity human antibody fragment (L19) directed against the ED-B domain of fibronectin. Radiolabeled L19, but not an irrelevant anti-lysozyme antibody fragment (D1.3), efficiently localizes in the tumoral vessels. The maximal dose of L19 accumulated in the tumor was observed 3 hours after injection (8.2% injected dose per gram). By virtue of the rapid clearance of the antibody fragment from the circulation, tumor-to-blood ratios of 1.9, 3.7, and 11.8 were obtained at 3, 5, and 24 hours, respectively. The tumor-targeting performance of L19 was not dose-dependent in the 0.7 to 10 microg range of injected antibody. The integral of the radioactivity localized in tumoral vessels over 24 hours was greater than 70-fold higher than the integral of the radioactivity in blood over the same time period, normalized per gram of tissue or fluid. These findings quantitatively show that new-forming blood vessels can selectively be targeted in vivo using specific antibodies, and suggest that L19 may be of clinical utility for the immunoscintigraphic detection of angiogenesis in patients.

Identification of a glioblastoma-associated tenascin-C isoform by a high affinity recombinant antibody

Tenascin-C exists in several polymorphic isoforms due to alternative splicing of nine fibronectin-like type III repeats. Large Tenascin-C isoforms are present in almost all normal adult tissues but are upregulated in fetal, regenerating, and neoplastic tissues. Here, we report a human antibody fragment, TN11, derived from a phage library with high affinity for the spliced repeat C and demonstrate that this repeat is undetectable in normal adult tissues, barely detectable or undetectable in breast, lung and gastric carcinomas, meningioma, and low grade astrocytoma, but extremely abundant in high grade astrocytoma (grade III and glioblastoma), especially around vascular structures and proliferating cells. The antibody appears to have potential for development of a therapeutic agent for patients with high grade astrocytoma.

The fibronectin domain ED-A is crucial for myofibroblastic phenotype induction by transforming growth factor-beta1

Transforming growth factor-beta1 (TGFbeta1), a major promoter of myofibroblast differentiation, induces alpha-smooth muscle (sn) actin, modulates the expression of adhesive receptors, and enhances the synthesis of extracellular matrix (ECM) molecules including ED-A fibronectin (FN), an isoform de novo expressed during wound healing and fibrotic changes. We report here that ED-A FN deposition precedes alpha-SM actin expression by fibroblasts during granulation tissue evolution in vivo and after TGFbeta1 stimulation in vitro. Moreover, there is a correlation between in vitro expression of alpha-SM actin and ED-A FN in different fibroblastic populations. Seeding fibroblasts on ED-A FN does not elicit per se alpha-SM actin expression; however, incubation of fibroblasts with the anti-ED-A monoclonal antibody IST-9 specifically blocks the TGFbeta1-triggered enhancement of alpha-SM actin and collagen type I, but not that of plasminogen activator inhibitor-1 mRNA. Interestingly, the same inhibiting action is exerted by the soluble recombinant domain ED-A, but neither of these inhibitory agents alter FN matrix assembly. Our findings indicate that ED-A-containing polymerized FN is necessary for the induction of the myofibroblastic phenotype by TGFbeta1 and identify a hitherto unknown mechanism of cytokine-determined gene stimulation based on the generation of an ECM-derived permissive outside in signaling, under the control of the cytokine itself.

Preparation of phage antibodies to the ED-A domain of human fibronectin

The fibronectin (FN) isoform containing the alternative spliced ED-A domain is much more expressed in fetal, tumoral, and regenerating tissues than in normal adult tissues. The ED-A containing FN is up-regulated by numerous cytokines, such as TGF-beta, and, although in normal adult liver the ED-A domain is undetectable, in regenerating rat liver the expression of ED-A is increased and mediates the conversion of fat storing cells to myofibroblasts. Here we describe the selection from a phage display library and the characterization of human antibody fragments directed against the ED-A sequence of FN. As they can be easily radiolabeled with 32P, these antibodies are very highly sensitive reagents for the determination of ED-A levels in tissues and biological fluids; in fact, use of these scFv induced a more than 10-fold increase in sensitivity with respect to the murine monoclonal IST-9. The possibility of preparing a range of human engineered antibodies should facilitate the development of antibody reagents with suitable pharmacokinetics, valency, functional affinity, and effector functions and that could be useful for clinical purposes.

Evidence of ED-B+ fibronectin synthesis in human tissues by non-radioactive RNA in situ hybridization. Investigations on carcinoma (oral squamous cell and breast carcinoma), chronic inflammation (rheumatoid synovitis) and fibromatosis (Morbus Dupuytren)

The splicing variant of fibronectin containing the ED-B domain (oncofoetal fibronectin) occurs in foetal tissues, reparative processes, organ fibrosis and in tumour tissues. Consequently, a supportive effect of ED-B+ fibronectin for tissue remodelling and tumour progression is assumed. A non-radioactive RNA-RNA in situ hybridization protocol for the investigation of ED-B+ fibronectin synthesis applicable in human tissues is introduced. The ED-B+ fibronectin synthesis was investigated in human disease processes, for which the occurrence of ED-B+ fibronectin is well demonstrated by immunohistochemistry (rheumatoid arthritis, oral squamous cell carcinoma, invasive ductal carcinoma of the breast and nodular palmar fibromatosis). The ED-B+ fibronectin synthesis could be shown in lining cells and in endothelial cells of synovial villi in rheumatoid arthritis, in stromal cells of oral squamous cell carcinoma and invasive ductal carcinoma and in fibro-/myofibroblasts in the proliferative and early involutional phase of nodular palmar fibromatosis. By means of double labelling (alpha-smooth muscle actin immunostaining - ED-B+ fibronectin in situ hybridization), the ED-B+ fibronectin synthesis could be shown to be a typical feature of myofibroblasts. In contrast to the often diffuse ED-B+ fibronectin immunostaining, only a few synthetically active stromal cells were observed focally accentuated within the tumour, which were interpreted as hot spots of tumour-stroma interaction.

Extracellular pH controls pre-mRNA alternative splicing of tenascin-C in normal, but not in malignantly transformed, cells

In cultured normal human fibroblasts, 2 main tenascin-C (TN-C) isoforms are generated by alternative splicing of the single TN-C primary transcript, 8 type III repeats being included or omitted in the mRNA. In these cultured cells, small pH variations of the culture medium (from 7.2 to 6.8) strikingly modify the alternative splicing pattern of the TN-C primary transcript. We report that malignantly transformed cells do not respond to extracellular pH variations as normal cells do. Indeed, malignantly transformed cells kept in culture media at pH values from 6.6 to 7.6 show no variations in the splicing pattern of the TN-C primary transcript and accumulate almost exclusively the large TN-C mRNA. These observations may explain the preferential accumulation in vivo of the large TN-C isoform in the extracellular matrix of different types of neoplasia.

Human tenascin-R. Complete primary structure, pre-mRNA alternative splicing and gene localization on chromosome 1q23-q24

We have established the primary structure of human tenascin-R (TN-R), a component of the extracellular matrix of the central nervous system, by sequencing cDNA clones which cover its complete coding region. The deduced amino acid sequence of human TN-R (1358 amino acids) showed a homology to chicken and rat TN-R of 75 and 93%, respectively. By reverse transcriptase-polymerase chain reaction we have studied the existence of TN-R isoforms generated by pre-mRNA alternative splicing in various human astrocytomas and meningiomas. Our findings demonstrate the existence of a human isoform in which one fibronectin-like repeat is omitted. Northern blot analysis of the poly(A)-rich RNA from different tissues showed two mRNAs having sizes of about 10 and 11 kilobases. Using DNA from a panel of human-hamster and human-mouse somatic cell hybrids and by fluorescence in situ hybridization, we have assigned the gene for human TN-R to the region 1q23-q24. The mouse mutation loop-tail (Lp), which has been proposed as a model for human neural tube defects, maps to region of mouse chromosome 1 syntenic with human 1q23-q24.

Extracellular matrix proteins in colorectal carcinomas. Expression of tenascin and fibronectin isoforms

BACKGROUND

Interactions of tumor cells and extracellular matrix (ECM) components are crucial determinants of tumor cell spreading and metastatic activity. Particularly tenascin (TN) as a member of the adhesion modulating family of ECM and its alternatively spliced isoforms became the matter of interest in ECM changes associated with malignancy.

EXPERIMENTAL DESIGN

We analyzed the composition of the stromal- and basement membrane-associated ECM of colorectal adenomas and carcinomas using indirect immunofluorescence. Tenascin was investigated by immunoblot of snap frozen tumor specimens.

RESULTS

Fibronectin (FN), TN, and chondroitin sulfate proteoglycan were the major components of the tumor stroma. Normal basement membrane components like laminin (LM), collagen type IV, and heparan sulfate proteoglycan were down-regulated. In the center of the tumor, tumor glands were surrounded by discontinuous basement membranes. At the tumor-host interface and in solid, poorly differentiated tumors, no immunoreactivity with normal basement membrane components was found. However, in cases with pericellular anti-LM staining, LM immunoreactivity was also found at the tumor-host interface. An alternatively spliced isoform of TN with a molecular weight of 330 kDa was found in seven of 15 carcinomas. In four of these cases, an alternatively spliced isoform of FN containing the ED-B segment was present.

CONCLUSIONS

The coexpression of alternative splicing of FN and TN suggests that there may be common regulation mechanisms. The matrix composition found in the present study resembles that of healing wounds and probably favors the invasive spread of tumor cells.

The alternative splicing pattern of the tenascin-C pre-mRNA is controlled by the extracellular pH

Alternative splicing of primary transcripts is an ubiquitous and reversible mechanism for the generation of multiple protein isoforms from single genes. Here we report that in cultured normal human fibroblasts, small pH variations of the culture medium (from 7.2 to 6.9) strikingly modify the alternative splicing pattern of the tenascin-C primary transcript. Since such extracellular pH variations occur in many normal and pathological conditions, microenvironmental pH may be an important element for the regulation of RNA alternative splicing in vivo.