Mitogen-activated protein kinase kinase signaling promotes growth and vascularization of fibrosarcoma.

We hypothesized that signaling through multiple mitogen-activated protein kinase (MAPK) kinase (MKK) pathways is essential for the growth and vascularization of soft-tissue sarcomas, which are malignant tumors derived from mesenchymal tissues. We tested this using HT-1080, NCI, and Shac fibrosarcoma-derived cell lines and anthrax lethal toxin (LeTx), a bacterial toxin that inactivates MKKs. Western blots confirmed that LeTx treatment reduced the levels of phosphorylated extracellular signal-regulated kinase and p38 MAPK in vitro. Although short treatments with LeTx only modestly affected cell proliferation, sustained treatment markedly reduced cell numbers. LeTx also substantially inhibited the extracellular release of angioproliferative factors including vascular endothelial growth factor, interleukin-8, and basic fibroblast growth factor. Similar results were obtained with cell lines derived from malignant fibrous histiocytomas, leiomyosarcomas, and liposarcomas. In vivo, LeTx decreased MAPK activity and blocked fibrosarcoma growth. Growth inhibition correlated with decreased cellular proliferation and extensive necrosis, and it was accompanied by a decrease in tumor mean vessel density as well as a reduction in serum expression of angioproliferative cytokines. Vital imaging using high-resolution ultrasound enhanced with contrast microbubbles revealed that the effects of LeTx on tumor perfusion were remarkably rapid (<24 h) and resulted in a marked reduction of perfusion within the tumor but not in nontumor tissues. These results are consistent with our initial hypothesis and lead us to propose that MKK inhibition by LeTx is a broadly effective strategy for targeting neovascularization in fibrosarcomas and other similar proliferative lesions.

Nuclear imaging of Met-expressing human and canine cancer xenografts with radiolabeled monoclonal antibodies (MetSeek).

PURPOSE: Met, an oncogene product and receptor tyrosine kinase, is a keystone molecule for malignant progression in solid human tumors. We are developing Met-directed imaging and therapeutic agents, including anti-Met monoclonal antibodies (MetSeek). In this study, we compared two antibodies, Met5 and Met3, for nuclear imaging of human and canine Met-expressing tumor xenografts in nude mice. EXPERIMENTAL DESIGN: Xenografts representing cancers of three different human tissue origins and metastatic canine prostate cancer were raised s.c. in host athymic nude mice. Animals were injected i.v. with I-125-Met5 or I-125-Met3, posterior total body gamma camera images were acquired for several days postinjection, and quantitative region-of-interest activity analysis was done. RESULTS: PC-3, SK-LMS-1/HGF, and CNE-2 xenografts imaged with I-125-Met5 were compared with PC-3, SK-LMS-1/HGF, and DU145 xenografts imaged with I-125-Met3. Nuclear imaging contrast was qualitatively similar for I-125-Met5 and I-125-Met3 in PC-3 and SK-LMS-1/HGF host mice. However, by region-of-interest analysis, the set of human tumors imaged with I-125-Met3 exhibited a pattern of rapid initial tumor uptake followed by a continuous decline in activity, whereas the set of human tumors imaged with I-125-Met5 showed slow initial uptake, peak tumor-associated activity at 1 day postinjection, and persistence of activity in xenografts for at least 5 days. GN4 canine prostate cancer xenografts were readily imaged with I-125-Met5. CONCLUSIONS: We conclude that radioiodinated Met3 and Met5 offer qualitatively similar nuclear images in xenograft-bearing mice, but quantitative considerations indicate that Met5 might be more useful for radioimmunotherapy. Moreover, canine prostate cancer seems to be a suitable model for second-stage preclinical evaluation of Met5.

Construction of human naïve Fab library and characterization of anti-met Fab fragment generated from the library.

Inappropriate expression of the receptor tyrosine kinase Met and its ligand hepatocyte growth factor (HGF)/scatter factor (SF) is usually associated with an aggressive solid tumor phenotype (angiogenesis, invasiveness, and metastasis) and poor clinical prognosis. We report here the design and construction of a large, human naïve antigen-binding fragment (Fab) phage-display library with a diversity of 2.0 x 109, which allows rapid isolation of antigen-specific human antibody fragments. A Fab fragment specifically against Met (designated hFab-Met-1) was successively selected from this library by using biopanning on Met-transfected cell line S114. The specificity of hFab-Met-1 was characterized by immunoprecipitation, Western blotting, and flow cytometry. The results demonstrate that hFab-Met-1 reacts with the extracellular domain of Met in its native conformation. Moreover, functional analysis by Madine-Darby canine kidney cell scattering and urokinase-type plasminogen activator assays demonstrated that hFab-Met-1 is not an agonist to HGF/Met signaling compared with a murine intact monoclonal antibody (MAb) Met5. To confirm that hFab-Met-1 interacts with Met-expressing tumors in vivo, I-125-labeled hFab-Met-1 was nuclear-imaged in a mouse xenograft of Met- and HGF/SF-expressing human leiomyosarcoma. Total body scintigrams were obtained between 1 and 48 h postinjection (PI). Tumor-associated activity was imaged as early as 1 h PI, and remained visible in some animals as late as 24 h PI. As expected, activity was highest in the kidneys in early images, whereas thyroid activity became predominant in later images. In conclusion, hFab-Met-1 interacts with Met both in vitro and in vivo, and is a promising candidate for clinical diagnosis and therapeutics.

Radioimmunoscintigraphy of human met-expressing tumor xenografts using met3, a new monoclonal antibody.

PURPOSE: Inappropriate expression of the receptor tyrosine kinase Met and its ligand is associated with an aggressive phenotype and poor clinical prognosis for a wide variety of solid human tumors. We are developing imaging and therapeutic agents that target this receptor-ligand complex. In this study, we evaluated the ability of radioiodinated anti-Met monoclonal antibodies from a single hybridoma clone to image human Met-expressing tumor xenografts. EXPERIMENTAL DESIGN: Xenografts of four different tissue origins were raised s.c. in host athymic nude mice. Animals received i.v. injections of I-125-Met3, posterior total body gamma camera images were acquired for several days after injection, and quantitative region-of-interest activity analysis was performed. RESULTS: The autocrine Met-expressing tumors S-114 and SK-LMS-1/HGF and the paracrine Met-expressing human prostate carcinoma PC-3 were satisfactorily imaged with I-125-Met3. By region-of-interest analysis, mean initial tumor-associated activities in S-114, SK-LMS-1/HGF, and PC-3 were 18.6 +/- 2.1, 7.2 +/- 2.2, and 5.4 +/- 2.6% estimated injected activity, and the mean ratios of tumor:total body activity at 3 days after injection were 0.32 +/- 0.13, 0.15 +/- 0.06, and 0.10 +/- 0.04, respectively. Human melanoma xenografts, however, accounted for < or =3% of injected or total body activity. We observed a direct rank order correlation between relative levels of Met3-derived radioactivity in xenografts and relative quantities of Met expressed by the respective cultured tumor cell lines. CONCLUSIONS: We conclude that I-125-Met3 is effective for imaging human Met-expressing xenografts of different tissue origins, and we infer that I-125-Met3 distinguishes human tumor xenografts according to their levels of Met expression.

Radioimmunoscintigraphy of tumors autocrine for human met and hepatocyte growth factor/scatter factor.

Inappropriate expression of the c-met-protooncogene product (Met) and/or of its ligand, hepatocyte growth factor/scatter factor (HGF/SF), has been correlated with poor prognosis in a variety of human solid tumors. We are developing animal models for nuclear imaging of Met and HGF/SF expression in tumors in vivo. We radioiodinated a mixture of monoclonal antibodies (MAbs) that bind to human HGF/SF and to the external ligand-binding domain of human Met, and then injected the I-125-MAb mixture intravenously into mice bearing tumors either autocrine for human HGF/SF and human Met or autocrine-paracrine for murine HGF/SF and murine Met. Serial total body gamma camera images were obtained, and regional activity was determined by quantitative region-of-interest (ROI) analysis. Tumors autocrine for human HGF/SF and Met demonstrated significantly more rapid uptake and more rapid clearance of the I-125-MAb mixture than tumors expressing one or both murine homologues, reaching a mean tumor to total body activity ratio of > 0.3 by 1 day postinjection. We conclude that radioimmunodetection of tumors autocrine for human HGF/SF and Met is feasible with an I-125-MAb mixture reactive against the ligand-receptor pair.