Novel inhibitors of the urokinase-mediated plasminogen (plg) activation system are potentially of great clinical benefit as anticancer treatments. Using phage display, we identified DX-1000 a tissue factor pathway inhibitor-derived Kunitz domain protein which is a specific high-affinity inhibitor of plasmin (pln) (K(i) = 99 pM). When tested in vitro, DX-1000 blocks plasmin-mediated pro-matrix metalloproteinase-9 (proMMP-9) activation on cells and dose-dependently inhibits tube formation, while not significantly affecting hemostasis and coagulation. However, this low-molecular weight protein inhibitor ( approximately 7 kDa) exhibits rapid plasma clearance in mice and rabbits, limiting its potential clinical use in chronic diseases. After site-specific PEGylation, DX-1000 retains its activity and exhibits a decreased plasma clearance. This PEGylated derivative is effective in vitro, as well as potent in inhibiting tumor growth of green fluorescent protein (GFP)-labeled MDA-MB-231 cells. 4PEG-DX-1000 treatment causes a significant reduction of urokinase-type plasminogen activator (uPA) and plasminogen expressions, a reduction of tumor proliferation, and vascularization. 4PEG-DX-1000 treatment significantly decreases the level of active mitogen-activated protein kinase (MAPK) in the primary tumors and reduces metastasis incidence. Together, our results demonstrate the potential value of plasmin inhibitors as therapeutic agents for blocking breast cancer growth and metastasis.
A murine monoclonal antibody directed against carcinoembryonic antigen (CEA) was labeled with indium-111 (111In) by means of a benzylisothiocyanate derivative of diethylenetriamine penta-acetic acid (DTPA) and used for clinical radioimmunodetection studies. Twenty-one patients having a history of surgically resected colorectal cancer and rising serum CEA levels suggestive of tumor recurrence were studied. Patients were infused over 20 minutes with 5, 10, or 20 mg of the monoclonal antibody labeled with 5 mCi of 111In. The mean radiochemical purity was greater than 96%. No toxicity was seen. The stability of the radiolabel on antibody in patient serum was demonstrated by high-performance liquid chromatography (HPLC), sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) with autoradiography, and immunoprecipitation for up to 96 hours after infusion. Tumor sites were identified in 20 of 21 patients. Sites of antibody accumulation in 20 patients were confirmed as tumor either by resection at laparotomy (16 patients) or fine-needle biopsy (four patients). Nine patients who had the identified lesion resected or irradiated showed return of the serum CEA antigen level to normal or near normal values. In the absence of high levels of circulating CEA (greater than 500 ng/mL), the disappearance of radioactivity from patient serum demonstrated first order elimination kinetics, with a mean half-life of 38 hours. The serum half-life was not affected by the dose of antibody administered or by serum CEA titers below 500 ng/mL. Despite a mean liver uptake of 18% injected dose (ID) 24 hours after administration, hepatic metastases were easily visualized as areas of increased uptake of radioactivity. Radioimmunodetection of recurrent colorectal cancer, not detected by computed tomographic (CT) scans, appears achievable with this agent. This may allow successful clinical intervention in selected patients.
The pharmacokinetics of 111In-labeled 260F9, a murine monoclonal antibody directed against a breast-cancer-associated antigen, was determined in seven patients with advanced breast cancer. Six patients were administered 1 mg antibody containing 1 mCi 111In. The seventh patient was administered 20 mg unlabeled antibody followed by 1 mg 111In-labeled antibody all via a peripheral vein. Immunoprecipitation, HPLC and SDS-PAGE gels demonstrated the stability of radiolabel on the antibody. The serum clearance of the radiolabel closely fits (r2 greater than 0.95) a two-compartment model for the first six patients. The apparent volume of distribution of the radiolabel approximated to the plasma volume (31) and its mean residence time was 23.7 h. The radiolabel had an average t 1/2 beta of 22.9 +/- 12.21 h at the 1-mg dose. At the 20-mg dose one-compartment elimination kinetics were observed with the radiolabel and antibody showing similar mean residence times (36-41 h) and a t 1/2 beta of 26-28 h. Whole-body imaging showed that the blood-pool: liver ratio of radioactivity increased fourfold (at 48 h postinfusion) at the higher dose and the percentage of the injected dose of radioactivity in the liver decreased from 25% to 8% (24 h postinfusion). In one patient 7-14 times more radioactivity was localized in a breast tumor than in fat (normal breast). Over the first 25 h an average (cumulative) 7.5% of the total dose was excreted in urine. A study of 260F9 in CDF-1 mice demonstrated that the radiolabel remained associated with the antibody in serum. The antibody, however, cleared 60-fold slower in mice than in patients and showed an increased mean residence time of 191 h. The disparity in the pharmacokinetics of the antibody seen in the mouse and in the clinic, points to the different behavior shown by murine monoclonal antibodies in humans. This points to the need for preliminary studies of antibodies in patients for preclinical evaluations of their effectiveness as drug-targeting agents.
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