Treatment of human lung carcinoma xenografts with a combination of 131I-labelled monoclonal antibody Po66 and doxorubicin

 Po66, a mouse monoclonal antibody, is directed against an intracytoplasmic antigen present in human lung squamous cell carcinoma cells. In previous work it was found that the co-administration of ¹²⁵I-radiolabelled Po66 and doxorubicin strongly enhanced the uptake of radioactivity by the tumour. The present-work was designed to evaluate, in a tumour-bearing mouse model of lung carcinoma, the ability of ¹³¹I-labelled Po66 to retard tumour growth when injected alone, or in combination with doxorubicin (8 mg kg ^– 1 at 1-week intervals). A single dose of 550 μCi ¹³¹I-Po66 alone had no effect on tumour growth, whereas three fractionated doses of 250 μCi ¹³¹I-Po66 decreased it over two doubling times from 14.5±1.5 days for untreated control mice to 24.8±2.7 days. Mice treated with doxorubicin alone had a double tumour doubling time of 22.6±4.9 days, compared to 35.2±2.9 days (1.55-fold increase) in mice treated with doxorubicin and a single dose of 550 μ Ci ¹³¹I-Po66. Doxorubicin combined with three fractionated doses of 250 μCi ¹³¹I-Po66 provoked a twofold decrease in tumour growth compared to mice treated with doxorubicin alone. The administration of fractionated doses of ¹³¹I-Po66 simultaneously with doxorubicin resulted in a highly delayed mortality, which was not observed when ¹³¹I-Po66 was administered after doxorubicin. Thus, in a non-small-cell lung tumour model, a ¹³¹I-radiolabelled monoclonal antibody, directed against an intracellular antigen, significantly potentiated the effect of chemotherapy. Such a therapeutic approach could be used as an adjuvant therapy and improve the effect of chemotherapy on distant small metastases. Received: 20 June 1996 / Accepted: 3 October 1996     

Pretargeted radioimmunotherapy using 131I-labelled bivalent hapten-bearing peptides

Summary The advantages of bivalent hapten-bearing peptides for the detection of tumours pretargeted with bispecific antibodies have been demonstrated. This technology is now considered for radioimmunotherapy and bivalent haptens designed to target¹³¹I are needed. We thus synthesised a series of tyrosine-containing peptides bearing the histamine-hemisuccinate hapten. These molecules were tested for their ability to bind simultaneously two anti-hapten antibody molecules. One of these bivalent haptens, AG3.0, with a lysyl-d-tyrosyl-lysine connecting chain, was found to have optimal binding characteristics and was thus selected for further investigations. AG3.0 was shown to efficiently deliver radioactive iodine to human colorectal tumours grafted in nude mice using an anti-carcinoembryonic antigen×anti-histamine-hemisuccinate bispecific antibody. AG3.0 was also targeted to human B lymphoma cells pretargeted with a bispecific antibody specific for membrane IgM. In this system, bivalent ligands such as F(ab′)₂ or IgG are rapidly internalised and covalently linked radioactive iodine is released from target cells as a result of intracellular catabolism. With the pretargeted iodine-labelled bivalent hapten, a fivefold increase in the intracellular activity retention time as compared to¹²⁵I-labelled F(ab′)₂ and IgG was observed. The radiolabelled hapten did not undergo any degradation after internalisation. These results have been confirmed in vivo with an anti-BCL₁ IgM idiotype bispecific antibody and¹³¹I-labelled AG3.0. These reagents injected as a single 300 μCi dose, 7 days after inoculation of 10⁴ BCL₁ lymphoma cells in BALB/c mice, cured 14/16 of the animals and the treatment was well tolerated. Comparatively, the same dose of labelled IgG cured 13/16 of the mice but three mice died of haematologic toxicity. The same dose of labelled F(ab′)₂ or Fab′ was completely inefficient.¹³¹I-labelled bivalent haptens are now used in phase I radioimmunotherapy clinical trials.     

Two monoclonal antibodies against small-cell lung cancer show existence of synergism in binding

Summary Murine IgG1 monoclonal antibodies (mAbs), ITK-2 and ITK-3, were generated against a small-cell lung cancer (SCLC) cell line. Enzyme-linked immunosorbent assay using a variety of established cell lines as substrates, immunoperoxidase staining of freshly frozen tissue sections, and fluorescence-activated cell sorter analysis of peripheral blood leukocytes showed that these mAbs recognize a part of the SCLC-associated cluster 1 antigen. In immunoprecipitation studies, both ITK-2 and ITK-3 bound to a 145-kDa glycoprotein of SCLC cell membrane extracts, as did MOC-1 and NKH-1, which both recognize the cluster 1 antigen. However, because the binding of¹²⁵I-labeled ITK-2 to SCLC cells was not inhibited by MOC-1 or NKH-1, the binding site of ITK-2 on SCLC cells appeared to be different from that of either MOC-1 or NKH-1. Unexpectedly, binding of¹²⁵I-labeled ITK-2 to SCLC cells increased in the presence of ITK-3. This ITK-3-induced increase in ITK-2 binding was due partly to an increase in the number of binding sites for ITK-2 on SCLC cells. Addition of ITK-3 may, therefore, improve the effectiveness of ITK-2-based tumor detection or therapy.     

Targetted localisation and imaging of a murine lymphoma using 131I-labelled monoclonal antibody

In vivo tumor targetting with radiolabelled monoclonal antibodies is a promising approach for the diagnosis and therapy of tumors. A specific monoclonal antibody (mAb), DLAB was generated to the Dalton's lymphoma associated antigen (DLAA) from Haemophilus paragallinarum-induced spontaneous fusion. In order to study the tumor localisation and biodistribution properties of the monoclonal antibody, scintigraphic studies were performed using the radiolabelled DLAB. 131-labelled DLAB was administered intravenously into Swiss mice bearing Dalton's lymphoma and external scintiscanning was performed at different time intervals. Clear tumor images were obtained which revealed selective and specific uptake of radiolabel and the results were compared with biodistribution data. The radioiodinated monoclonal antibody showed fast tumor uptake which increased significantly to 14.6% injected dose (ID)/g at 12 hr post-injection. Enhanced blood clearance of radioactivity resulted in higher tumor/blood ratio of 5.96 at 48 hr. 131I-labelled DLAB resulted in selective and enhanced uptake of the radioactivity by the tumor compared to the non-specific antibody and the results suggest the potential use of spontaneous fusion for producing specific monoclonal antibodies for tumor detection and therapy.     

Exploring the fate of inhaled monoclonal antibody in the lung parenchyma by microdialysis

Therapeutic antibodies (Abs) are emerging as major drugs to treat respiratory diseases, and inhalation may provide substantial benefits for their delivery. Understanding the behavior of Abs after pulmonary deposition is critical for their development. We investigated the pharmacokinetics of a nebulized Ab by continuous sampling in lung parenchyma using microdialysis in non-human primates. We defined the optimal conditions for microdialysis of Ab and demonstrated that lung microdialysis of Ab is feasible over a period of several days. The concentration-profile indicated a two-phase non-linear elimination and/or distribution of inhaled mAbX. Lung exposition was higher than the systemic one over a period of 33 hours and above MabX affinity for its target. The microdialysis results were supported by an excellent relationship with dosages from lung extracts.     

Antitumor effects of a novel monoclonal antibody with high binding affinity to ganglioside GD3

Ganglioside GD3, which is one of the major gangliosides expressed on the cell surface human tumors of neuroectodermal origin, has been studied as a target molecule for passive immunotherapy. We established ten kinds of anti-GD3 monoclonal antibodies (mAb) of the mouse IgG3 subclass by immunization with purified GD3 and melanoma cells. One of the established mAb, KM641, showed major reactivity with GD3 and minor reactivity with GQ1b out of 11 common gangliosides in an enzymelinked immunosorbent assay. Immunostaining of gangliosides, separated on thin-layer chromatography plates, using KM641 revealed that most of the melanoma cell lines contained immunoreactive GD3 and GD3-lactone at a high level, but only the adrenal gland and the urinary bladder out of 21 human normal tissues had immunoreactive GD3. In immunofluorescence, KM641 bound to a variety of living tumor cell lines especially melanoma cells, including some cell lines to which another anti-GD3 mAb R24, established previously, failed to bind. High-affinity binding of KM641 to a tumor cell line was quantified by Scatchard analysis (K _d = 1.9×10^–8 M). KM641 exerted tumor-killing activity in the presence of effector cells or complement against melanoma cells expressing GD3 at a high level. Not only natural killer cells but also polymorphonuclear cells were effective as the effector cells in antibody-dependent cellular cytotoxicity. Intravenous injection of KM641 markedly suppressed the tumor growth of a slightly positive cell line, C24.22 (7.2×10⁵ binding sites/cell), as well as a very GD3-positive cell line, G361 (1.9×10⁷ binding sites/cell), inoculated intradermally in nude mice. KM641, characterized by a high binding affinity for GD3, has the potential to be a useful agent for passive immunotherapy of human cancer.     

Bevacizumab (Avastin), a humanized anti-VEGF monoclonal antibody for cancer therapy

Vascular endothelial growth factor (VEGF) is an endothelial cell-specific mitogen in vitro and an angiogenic inducer in vivo. The tyrosine kinases Flt-1 (VEGFR-1) and Flk-1/KDR (VEGFR-2) are high affinity VEGF receptors. VEGF plays an essential role in developmental angiogenesis and is important also for reproductive and bone angiogenesis. Substantial evidence also implicates VEGF as a mediator of pathological angiogenesis. Anti-VEGF monoclonal antibodies and other VEGF inhibitors block the growth of several tumor cell lines in nude mice. Clinical trials with VEGF inhibitors in a variety of malignancies are ongoing. Recently, a humanized anti-VEGF monoclonal antibody (bevacizumab; Avastin) has been approved by the FDA as a first-line treatment for metastatic colorectal cancer in combination with chemotherapy. Furthermore, VEGF is implicated in intraocular neovascularization associated with diabetic retinopathy and age-related macular degeneration.     

A rat monoclonal antibody that catalyses the hydrolysis of a nitrophenyl-beta-lactam

We report the first example of a monoclonal antibody-catalysed hydrolysis of a beta-lactam where the antibodies were generated by a simple transition-state analogue. A rat monoclonal antibody (1/91c/4d/26) generated by using an acyclic 4-nitrophenylphosphate immunogen catalysed the hydrolysis of corresponding 4-nitrophenyl carbonates but, more importantly, also catalysed the hydrolysis of N-(4-nitrophenyl)-azetidinone at pH 8 with k(cat)=8.7 x 10(-6)s(-1) and K(M)=35 microM. This is the first example of a rat monoclonal catalytic antibody.     

Techno-economic analysis of a transient plant-based platform for monoclonal antibody production

Plant-based biomanufacturing of therapeutic proteins is a relatively new platform with a small number of commercial-scale facilities, but offers advantages of linear scalability, reduced upstream complexity, reduced time to market, and potentially lower capital and operating costs. In this study we present a detailed process simulation model for a large-scale new “greenfield” biomanufacturing facility that uses transient agroinfiltration of Nicotiana benthamiana plants grown hydroponically indoors under light-emitting diode lighting for the production of a monoclonal antibody. The model was used to evaluate the total capital investment, annual operating cost, and cost of goods sold as a function of mAb expression level in the plant (g mAb/kg fresh weight of the plant) and production capacity (kg mAb/year). For the Base Case design scenario (300 kg mAb/year, 1 g mAb/kg fresh weight, and 65% recovery in downstream processing), the model predicts a total capital investment of $122 million dollars and cost of goods sold of $121/g including depreciation. Compared with traditional biomanufacturing platforms that use mammalian cells grown in bioreactors, the model predicts significant reductions in capital investment and >50% reduction in cost of goods compared with published values at similar production scales. The simulation model can be modified or adapted by others to assess the profitability of alternative designs, implement different process assumptions, and help guide process development and optimization.     

Design and operation of an automated high-throughput monoclonal antibody facility

Monoclonal antibodies now form a key part of the biochemist’s toolbox, and are important reagents for therapeutic applications. This has resulted in a need for high-throughput production to satisfy the demand from the global community. Manual production involves overwhelming amounts of tissue culture and associated liquid handling steps to achieve high-throughput operation. By contrast, automated systems can readily cope with the numbers required. In this review, we address the development of automated systems, and discuss the pros and cons of their operation.     

Radioimmunotherapy for breast cancer: treatment of a patient with I-131 L6 chimeric monoclonal antibody.

We report the first treatment of metastatic breast cancer by systemic radioimmunotherapy. The serial therapy doses were chosen based on quantitative imaging data in a treatment planning approach. A terminally ill patient with aggressive, locally advanced breast cancer who had failed radiation treatment and chemotherapy was injected intravenously with radiolabeled I-131 chimeric L6, a human-mouse chimeric lgG1 monoclonal antibody to adenocarcinoma. Initially, an imaging 10 mCi dose of I-131 chimeric L6 (dose 1) deposited 8.8% of the injected dose in her chest wall tumor at 48 hours. Ten days later the patient was given a 150 mCi I-131 chimeric L6 dose (dose 2) followed three weeks later by a 100 mCi dose (dose 3). Tumor uptake and retention were comparable for doses 1 and 2, and decreased for dose 3. Following dose 3 the patient developed a manageable thrombocytopenia and transient Grade IV granulocytopenia. The tumor was observed to decrease in size with peak tumor regression occurring two weeks after dose 3. This partial response (PR) was achieved by radioimmunotherapy at a time when conventional therapy had been unable to impact the growth of the patient's massive and aggressive tumor.     

Preparation and functional evaluation of new doxorubicin immunoconjugates containing an acid-sensitive linker on small-cell lung cancer cells

 The anthracycline doxorubicin (DOX) is one of the most effective drugs for the treatment of small-cell lung cancer (SCLC), but its clinical application is limited by unspecific side-effects like cardiotoxicity. In the present study doxorubicin was conjugated to the monoclonal antibodies (mAb) SEN7, MOC31, and SWA11 via a novel acid-sensitive hydrazone linker. These mAb recognize SCLC-associated antigens of cluster 1 (NCAM), cluster 2 (EGP-2/GA733-2), and cluster 4 (CD24) respectively. To assess their potential therapeutic use against SCLC, the antigen-binding activities, the rates of internalization and the cytotoxic effects of the immunoconjugates were examined on tumour cell lines. The preparation procedure preserved the antigen-binding activities of the mAb and yielded immunoconjugates with average drug : mAb ratios of 7 : 1. The hydrazone linker was found to be stable at neutral pH but to release doxorubicin under acidic conditions. In contrast to SEN7-DOX, MOC31-DOX and SWA11-DOX were rapidly internalized into SCLC target cells upon binding to their specific cell-surface antigens. Accordingly, both immunoconjugates proved to be highly cytotoxic agents, inhibiting thymidine incorporation by 50% at concentrations between 0.5 μM and 1 μM and were 100-fold more selective than free doxorubicin. The results suggest that binding to selective cell-surface antigens, rapid internalization and efficient release of doxorubicin from the mAb by acid hydrolysis are required for the selective and potent function of the immunoconjugates. In particular, the use of MOC31-DOX for targeted cytotoxic therapy might be promising because of the limited cross-reactivity of the mAb with normal human tissues and its recently demonstrated tumour localization potential in SCLC patients. Received: 22 September 1995 / Accepted: 23 November 1995     

Monoclonal antibody uptake in B-cell lymphomas: Experimental studies in nude mouse xenografts

Accumulation of radiolabelled monoclonal antibodies (mAb) in human B-lymphoma xenografts was found to result in two distinct patterns. The basic elements leading to these patterns were elucidated by autoradiographic and immunohistological analysis applied to the nude mouse xenografts BJAB and OCI.LY1. With BJAB, accumulation occurred exclusively in peripheral cell layers of the lymphoma nodule, while central areas were not accessible irrespective of mAb dose. This feature was the consequence of an inefficient transport across intratumoral vessels together with peripheral mAb supply through a subcapsular pseudosinus. With OCI.LY1, intratumoral vessels showed generalized leakiness. Furthermore, interstitial transport was operative to a fair extent, such that in early images multiple sites of mAb extravasation were obvious, which coalesced during the course of prolonged uptake. The pattern of peripheral mAb uptake resulted in a low overall tumour uptake, while multifocal uptake yielded substantial accumulation values.     

Initial experience with treatment of human B cell lymphoma with anti-CD19 monoclonal antibody

Summary Six patients with progressive B cell non-Hodgkin's lymphoma have been treated with an IgG2a mouse monoclonal antibody (mAb) against the B cell differentiation antigen CD19, with total doses varying from 225 mg to 1000 mg. Free mAb was detected in the serum after doses of 15–30 mg. After the mAb infusions the number of circulating tumour cells was temporarily reduced, but in some cases antibody-coated cells remained in the circulation for several days. mAb penetrated to extravascular tumour sites; in general higher doses were required to saturate cells in the lymph nodes than to sensitize tumour cells in the bone marrow. mAb doses of up to 250 mg were given i.v. over 4 h without major toxicity. One patient twice achieved a partial remission after two periods of mAb treatment with an 8-month interval; the second remission lasted for 9 months. One patient showed a minor response. None of the patients made antibodies against the mouse immunoglobulin. Serum immunoglobulin levels were followed as a measure of the function of the normal B cell compartment; no significant changes were seen up to 6 months after mAb treatment.Supported by the Dutch Cancer Society (grant NKI 84-14)     

Immunohistochemical characterisation of the monoclonal antibody BLCA-38 for the detection of prostate cancer

Background: Monoclonal antibodies (MAbs) can be used to detect, image and treat cancers. This study aimed to characterise the binding of BLCA-38 MAbs to human prostate cancer cell lines, human prostate cancer biopsy samples and normal tissues to enable future targeted studies. Methods: BLCA-38 antigen expression on cancer lines was determined by flow cytometry; that on patient specimens from normal tissues and cancers was tested by immunohistochemistry using fresh frozen tissues or paraffin-embedded tissues that had undergone antigen retrieval. Results: Cell surface BLCA-38 antigen expression was seen on DU-145, PC-3, PC-3 M and PC-3 M-MM2 prostate cancer lines, but LNCaP, MDA PCa 2a or MDA PCa 2b lines were negative. Other human lines, including 8/12 bladder cancer and A431 vulval epidermoid cells, but not breast cancer lines, expressed BLCA-38 antigen. Staining occurred in glandular epithelial cells in the majority of frozen, and paraffin-embedded prostate cancer tissues and was occasionally seen in prostatic intraepithelial neoplasia (PIN). No staining was observed in normal cadaver tissues or in benign areas from various other cancer tissues. Conclusions: The BLCA-38 antibody binds to the majority of human prostate cancers but not to normal cells, and has potential for targeting novel therapies in patients with this disease.     

Establishment of internal-image anti-idiotype monoclonal antibodies to a human antibody to lung cancer

 Internal-image anti-idiotype antibodies are expected to enhance anticancer effector mechanisms in vivo. The objective of this study was to establish hybridomas producing anti-idiotype monoclonal antibodies against a human monoclonal antibody (hmAb) 4G12 that reacts strongly with lung squamous cell carcinomas. BALB/c female mice 6 weeks old were immunized with 4G12. Splenocytes were hybridized with P3U1 cells and hybrid cells secreting anti-4G12 hmAb were cloned. Two clones reacted with 4G12 hmAb but not with 3H12 IgM hmAb, human IgM, human serum or fetal calf serum. These two Ab2 antibodies (IgG1κ) 2B12 and 2H1 demonstrated 91.5% and 90.3% inhibition in their reactivity with radiolabelled 4G12 on PC10 cells, indicating that 2B12 and 2H1 antibodies were of the Ab2β type. In criss-cross inhibition assays, the binding of 2B12 or 2H1 to 4G12 was not inhibited by 2H1 or 2B12. Thus 2B12 and 2H1 were thought to recognize the different epitopes on the antigen-binding sites. Antisera against 2B12 and 2H1 demonstrated specific reactivity to PC10 cells. The two Ab2β antibodies, 2B12 and 2H1, express internal images of lung squamous cell carcinoma recognized by the 4G12 antibody and may be useful for cancer immunotherapy. Received: 20 September 1996 / Accepted: 2 January 1997     

Production of a monoclonal antibody specific for a Flavobacterium species isolated from soil

Abstract Hybridomas secreting monoclonal antibodies (MABs) specific for a soil Flavobacterium species (P25) were isolated. The MAB (D10) was used to target P25 using an enzyme-linked immunosorbant assay (ELISA) and indirect immunofluorescence. Cross-reactivity of the MAB with other Gram-negative bacteria (including Flavobacterium spp.) and a number of Gram-positive bacteria was investigated but none were found. Cross-reactivity with other orange/yellow pigmented Gram-negative rods ( Pseudomonas/Flavobacterium type) isolated from the soil into which P25 has been introduced in field experiments was also assessed using a modified colony blotting procedure. None of the indigenous species tested were recognised by the monoclonal antibody, thereby allowing unambiguous identification of P25 in soil. The MAB D10 was shown to recognise P25 growth under low-nutrient or stored under starvation conditions, suggesting that the antigen is a constitutive component of the cell and that the microorganism should be detected in oligotrophic environments such as soil. The pattern of fluorescence of P25 gave a clear indication of the localisation of the antigen in the outer membrane/cell wall region, and this was confirmed by immunogold labelling. Preliminary studies on the limits of detection of P25 using immunofluorescence suggest that densities as low as 20 bacteria g⁻¹ soil can be enumerated.     

High throughput production of mouse monoclonal antibodies using antigen microarrays

Recent advances in proteomics research underscore the increasing need for high-affinity monoclonal antibodies, which are still generated with lengthy, low-throughput antibody production techniques. Here we present a semi-automated, high-throughput method of hybridoma generation and identification. Monoclonal antibodies were raised to different targets in single batch runs of 6-10 wk using multiplexed immunisations, automated fusion and cell-culture, and a novel antigen-coated microarray-screening assay. In a large-scale experiment, where eight mice were immunized with ten antigens each, we generated monoclonal antibodies against 68 of the targets (85%), within 6 wk of the primary immunization.     

Human anti-(murine Ig) antibody responses in patients with hepatocellular carcinoma receiving intrahepatic arterial131I-labeled Hepama-1 mAb. Preliminary results and discussion

Human anti-(murine Ig) antibody (HAMA) responses were monitored in 32 patients with unresectable hepatocellular carcinoma (HCC) undergoing radioimmunotherapy using¹³¹I-labeled anti-HCC monoclonal antibody (Hepama-1 mAb) intrahepatic arterial infusion. Dosages of Hepama-1 mAb ranged from 5 mg to 20 mg and the mAb was radiolabeled with 0.74–4.00 GBq (20–108 mCi)¹³¹I (4–6 mCi/mg). T lymphocyte subsets were examined before and after radioimmunotherapy in 24 patients. In this series, 34.4% (11/32) of patients developed HAMA within 2–4 weeks after the infusion. All patients with a negative HAMA response (n=14). had CD4⁺ T lymphocyte subsets (T helper/inducer) much lower than those of the HAMA-positive (n=10) patients and the control group (n=40) (P<0.01) prior to infusion. The sequential resection and survival rates in the HAMA-negative group were also lower than that of the HAMA-positive group. Thus, the determination of T lymphocyte subsets might help to predict the HAMA response in HCC patients during radioimmunotherapy.     

Studies of a tumor-associated antigen,COX-1, recognized by a monoclonal antibody

Summary Monoclonal antibodies against an ovarian tumor cell line, OC-3-VGH, were generated using modified hybridoma technology. Among the seven that were selected for their high specificity and affinity to ovarian cancer cells and low cross-reactivity to most normal human tissues, RP 215 was shown to react specifically with a tumor-associated antigen, COX-1, from certain ovarian/cervical cancer cell lines. By Western blot assay, COX-1 was shown to have a subunit molecular mass of about 60 kDa and exist as an aggregate in the native state. COX-1 could also be detected in the shed medium of certain cultured tumor cells. A solid-phase sandwich enzyme-immunoassay procedure was designed for quantitative determinations of COX-1 in the shed medium or in patients' sera using RP 215 for both well-coating and the signal detection. Highly purified COX-1 was obtained from the shed medium of cultured OC-3-VGH tumor cells mainly by hydroxyapatite and immunoaffinity chromatography with RP 215 as the affinity ligand. At neutral pH, purified COX-1 also exists as an aggregate and is relatively stable at temperatures below 50°C. Its immunoactivity was found to decrease with time in the presence of trypsin. However, the immunoactivity of COX-1 was not affected upon incubation with carbohydrate-digestive enzymes or concanavalin A and only partially inactivated in the presence of NaIO₄ or iodoacetamide. Treatments of COX-1 with dithiothreitol and guanidine thiocyanate resulted in a complete loss of activity. Furthermore, rabbit antisera raised against purified COX-1 exhibited similar immunospecificity to that of RP 215. The results of this study suggest that COX-1 is a glycoprotein consisting of a 60 kDa subunit, which is recognized by RP 215 through its peptide determinant. Preliminary retrospective clinical studies were performed to assess the utility of a COX-1 enzyme immunoassay kit for detection and monitoring of patients with ovarian and cervical cancers.