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ABSTRACT: BACKGROUND: Trifunctional bispecific antibodies (trAb) are a special class of bispecific molecules recruiting and activating T cells and accessory immune cells simultaneously at the targeted tumor. The new trAb Ektomab that targets the melanoma-associated ganglioside antigen GD2 and the signaling molecule human CD3 (hCD3) on T cells demonstrated potent T-cell activation and tumor cell destruction in vitro. However, the relatively low affinity for the GD2 antigen raised the question of its therapeutic capability. To further evaluate its efficacy in vivo it was necessary to establish a mouse model. METHODS: We generated the surrogate trAb Surek, which possesses the identical anti-GD2 binding arm as Ektomab, but targets mouse CD3 (mCD3) instead of hCD3, and evaluated its chemical and functional quality as a therapeutic antibody homologue. The therapeutic and immunizing potential of Surek was investigated using B78-D14, a B16 melanoma transfected with GD2 and GD3 synthases and showing strong GD2 surface expression. The induction of tumor-associated and autoreactive antibodies was evaluated. RESULTS: Despite its low affinity of approximately 107 M-1 for GD2, Surek exerted efficient tumor cell destruction in vitro at an EC50 of 70ng/ml [0.47nM]. Furthermore, Surek showed strong therapeutic efficacy in a dose-dependent manner and is superior to the parental GD2 mono-specific antibody, while the use of a control trAb with irrelevant target specificity had no effect. The therapeutic activity of Surek was strictly dependent on CD4+ and CD8+ T cells, and cured mice developed a long-term memory response against a second challenge even with GD2-negative B16 melanoma cells. Moreover, tumor protection was associated with humoral immune responses dominated by IgG2a and IgG3 tumor-reactive antibodies indicating a Th1-biased immune response. Autoreactive antibodies against the GD2 target antigen were not induced. CONCLUSION: Our data suggest that Surek revealed strong tumor elimination and anti-tumor immunization capabilities. The results warrant further clinical development of the human therapeutic equivalent antibody Ektomab.
Journal of Translational Medicine 11/2012; 10(1):219. · 3.41 Impact Factor
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ABSTRACT: Trifunctional antibodies (trAbs) are promising novel anticancer biologics with a particular mode of action capable of linking innate with adaptive immunity. Based on their unique structure, trifunctional IgG-like heterodimeric antibodies, consisting of nonhuman mouse and rat immunoglobulin halves are able to redirect T lymphocytes, as well as accessory cells, to the tumor site. This recruitment of immune cells is accompanied by cellular activation events elicited by anti-CD3, as well as Fcγ-receptor engagement of trAbs supported by a proinflammatory Th1-biased cytokine milieu. All necessary immunological factors required for long-term vaccination-like effects are stimulated along trAb-mediated therapeutic interventions. Thus, the concerted interplay of antibody-dependent cellular cytotoxicity plus the polyclonal T-cell cytotoxicity and Fcγ-receptor-driven induction of long-lasting immune responses after the initial tumor cell elimination represent the major hallmarks of trAb-mediated treatment of malignant diseases.
Future Oncology 01/2012; 8(1):73-85. · 3.16 Impact Factor
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Michael Jäger,
Alexandra Schoberth,
Peter Ruf,
Juergen Hess,
Michael Hennig,
Barbara Schmalfeldt,
Pauline Wimberger,
Michael Ströhlein,
Bettina Theissen,
Markus M Heiss, Horst Lindhofer
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ABSTRACT: Patients with malignant ascites secondary to primary carcinomas benefit from intraperitoneal therapy with the trifunctional antibody catumaxomab (anti-EpCAM × anti-CD3). Here, we report the analysis of peritoneal fluid samples from 258 patients with malignant ascites randomized to catumaxomab or control groups to investigate the molecular effects of catumaxomab treatment. In the catumaxomab group, tumor cell numbers and peritoneal levels of VEGF decreased, whereas the activation status of CD4(+) and CD8(+) T-cell populations increased more than two-fold after treatment. Notably, CD133(+)/EpCAM(+) cancer stem cells vanished from the catumaxomab samples but not from the control samples. In vitro investigations indicated that catumaxomab eliminated tumor cells in a manner associated with release of proinflammatory Th1 cytokines. Together, our findings show that catumaxomab therapy activates peritoneal T cells and eliminates EpCAM(+) tumor cells, establishing a molecular and cellular basis to understand in vivo efficacy within the immunosuppressed malignant ascites tissue microenvironment.
Cancer Research 11/2011; 72(1):24-32. · 7.86 Impact Factor
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ABSTRACT: In the 1980s, two groups described in parallel and for the first time T-cell-redirecting bispecific antibodies (bsAbs) for
the elimination of tumor cells (Perez et al. 1985; Staerz et al. "CR60_16">1985). In vitro, this approach was extremely potent,
highlighting the superiority of T-cell-induced compared to accessory cell-mediated killing. But two major drawbacks hampered
the rapid transition of this new approach from preclinical investigations to successful clinical trials and market approval.
07/2011: pages 289-312;
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ABSTRACT: The trifunctional antibody catumaxomab is a targeted immunotherapy for the intraperitoneal treatment of malignant ascites. In a Phase II/III trial in cancer patients (n = 258) with malignant ascites, catumaxomab showed a clear clinical benefit vs. paracentesis and had an acceptable safety profile. Human antimouse antibodies (HAMAs), which could be associated with beneficial humoral effects and prolonged survival, may develop against catumaxomab as it is a mouse/rat antibody. This post hoc analysis investigated whether there was a correlation between the detection of HAMAs 8 days after the fourth catumaxomab infusion and clinical outcome. HAMA-positive and HAMA-negative patients in the catumaxomab group and patients in the control group were analyzed separately for all three clinical outcome measures (puncture-free survival, time to next puncture and overall survival) and compared to each other. There was a strong correlation between humoral response and clinical outcome: patients who developed HAMAs after catumaxomab showed significant improvement in all three clinical outcome measures vs. HAMA-negative patients. In the overall population in HAMA-positive vs. HAMA-negative patients, median puncture-free survival was 64 vs. 27 days (p < 0.0001; HR 0.330), median time to next therapeutic puncture was 104 vs. 46 days (p = 0.0002; HR 0.307) and median overall survival was 129 vs. 64 days (p = 0.0003; HR 0.433). Similar differences between HAMA-positive and HAMA-negative patients were seen in the ovarian, nonovarian and gastric cancer subgroups. In conclusion, HAMA development may be a biomarker for catumaxomab response and patients who developed HAMAs sooner derived greater benefit from catumaxomab treatment.
International Journal of Cancer 06/2011; 130(9):2195-203. · 5.44 Impact Factor
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ABSTRACT: In the past, treatment for malignant ascites focussed on symptomatic relief or treatment of the underlying disease. A promising option evolved with catumaxomab (Removab(®)) in 2009. Since catumaxomab is a bispecific, trifunctional antibody with mouse-rat origin, so far repeated treatment cycles were not an option due to the occurrence of human anti-drug antibodies (HADA). Nevertheless, the good results obtained so far raised the question whether a repeated treatment cycle with catumaxomab could be feasible and effective. We report on a 74-year-old female patient with breast cancer and peritoneal carcinomatosis. To our knowledge, this is the first patient world-wide to be treated with a repeated cycle of catumaxomab. HAMA (human anti-mouse antibodies) values were identified in blood and ascites samples. Ascites samples were also stained to identify and quantify cells, positive for EpCAM (epithelial cell adhesion molecule) and CD45. The patient tolerated the second cycle without unexpected side effects and remained puncture-free for another 45 days. Analysis of blood and ascites revealed a quick increase in HAMA values in the blood samples after 1 week, but considerably lower HAMA values and delayed increase in the ascites samples. Also a distinct and continuous decrease of EpCAM-positive cells was observed in the ascites samples under treatment. A strong increase in CD45-positive cells was detected after the beginning of the second cycle, with a consecutive decline toward the end. This first experience suggests that a repeated cycle of catumaxomab might be feasible and effective. As a consequence, a phase II trial (SECIMAS) was initiated.
Medical Oncology 05/2011; 29(2):1391-6. · 2.14 Impact Factor
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Michael A Ströhlein,
Florian Lordick,
Dominik Rüttinger,
Klaus-Uwe Grützner,
Oliver C Schemanski,
Michael Jäger, Horst Lindhofer,
Michael Hennig,
Karl-Walter Jauch,
Christian Peschel,
Markus M Heiss
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ABSTRACT: Peritoneal carcinomatosis (PC) is common in gastrointestinal (GI) cancer and there is no effective standard treatment. We investigated the tolerability and maximum tolerated dose (MTD) of the trifunctional antibody catumaxomab in patients with PC.
In this open-label, phase I/II clinical trial, patients with epithelial cell adhesion molecule (EpCAM)-positive PC from GI cancer received 4 sequential intraperitoneal catumaxomab infusions: day 0: 10 μg; day 3: 10 or 20 μg; day 7: 30, 50, or 100 μg; and day 10: 50, 100, or 200 μg. Dose escalation was guided by dose-limiting toxicities.
The MTD was 10, 20, 50, and 200 μg on days 0, 3, 7, and 10, respectively. Catumaxomab had an acceptable safety profile: Most common treatment-related adverse events (at the MTD) were fever, vomiting, and abdominal pain. At final examination, 11/17 evaluable patients (65%) were progression free: 1 patient had a complete and 3 a partial response. Median overall survival from the time of diagnosis of PC was 502 days.
Intraperitoneal catumaxomab is a promising option for the treatment of PC from GI cancer.
Onkologie 01/2011; 34(3):101-8. · 0.87 Impact Factor
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Markus M Heiss,
Pawel Murawa,
Piotr Koralewski,
Elzbieta Kutarska,
Olena O Kolesnik,
Vladimir V Ivanchenko,
Alexander S Dudnichenko,
Birute Aleknaviciene,
Arturas Razbadauskas,
Martin Gore,
Elena Ganea-Motan,
Tudor Ciuleanu,
Pauline Wimberger,
Alexander Schmittel,
Barbara Schmalfeldt,
Alexander Burges,
Carsten Bokemeyer, Horst Lindhofer,
Angelika Lahr,
Simon L Parsons
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ABSTRACT: Malignant ascites is a common manifestation of advanced cancers, and treatment options are limited. The trifunctional antibody catumaxomab (anti-epithelial cell-adhesion molecule x anti-CD3) represents a targeted immunotherapy for the intraperitoneal (i.p.) treatment of malignant ascites secondary to epithelial cancers. In this phase II/III trial (EudraCT 2004-000723-15; NCT00836654), cancer patients (n = 258) with recurrent symptomatic malignant ascites resistant to conventional chemotherapy were randomized to paracentesis plus catumaxomab (catumaxomab) or paracentesis alone (control) and stratified by cancer type (129 ovarian and 129 nonovarian). Catumaxomab was administered as an i.p. infusion on Days 0, 3, 7 and 10 at doses of 10, 20, 50 and 150 mug, respectively. The primary efficacy endpoint was puncture-free survival. Secondary efficacy parameters included time to next paracentesis, ascites signs and symptoms and overall survival (OS). Puncture-free survival was significantly longer in the catumaxomab group (median 46 days) than the control group (median 11 days) (hazard ratio = 0.254: p < 0.0001) as was median time to next paracentesis (77 versus 13 days; p < 0.0001). In addition, catumaxomab patients had fewer signs and symptoms of ascites than control patients. OS showed a positive trend for the catumaxomab group and, in a prospectively planned analysis, was significantly prolonged in patients with gastric cancer (n = 66; 71 versus 44 days; p = 0.0313). Although adverse events associated with catumaxomab were frequent, they were manageable, generally reversible and mainly related to its immunologic mode of action. Catumaxomab showed a clear clinical benefit in patients with malignant ascites secondary to epithelial cancers, especially gastric cancer, with an acceptable safety profile.
International Journal of Cancer 11/2010; 127(9):2209-21. · 5.44 Impact Factor
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ABSTRACT: Catumaxomab is the first EMEA approved trifunctional anti-EpCAMxanti-CD3 antibody for the treatment of cancer patients with malignant ascites. A phase II pharmacokinetic study was conducted to determine local and systemic antibody concentrations and anti-drug antibody (ADA) development.
Thirteen cancer patients with symptomatic malignant ascites were treated with four ascending doses of 10, 20, 50, and 150 microg catumaxomab intraperitoneally (i.p.) infused on days 0, 3, 6 or 7 and 10. The pharmacokinetics of catumaxomab were studied by implementation of supportive data from a non clinical mouse tumour model. Additionally, ADA development was monitored.
Ten out of 13 patients were evaluable for pharmacokinetic analysis. Catumaxomab became increasingly concentrated in ascites during the course of treatment, attaining effective concentrations in the ng ml(-1) range. Catumaxomab remained immunologically active even after several days in the circulation. The observed systemic catumaxomab exposure was low (<1%), with a maximal median plasma concentration (C(max)) of 403 pg ml(-1). The mean elimination half-life in the plasma was 2.13 days. All patients developed ADA, but not before the last infusion. High observed inter-individual variability and low systemic exposure may be explained by the inverse correlation between tumour burden, effector cell numbers and systemic antibody bioavailability as demonstrated in a defined mouse tumour model.
Based on the high and effective local concentrations, low systemic exposure and acceptable safety profile, we confirmed that the i.p. application scheme of catumaxomab for the treatment of malignant ascites is appropriate.
British Journal of Clinical Pharmacology 06/2010; 69(6):617-25. · 2.96 Impact Factor
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ABSTRACT: The Triomab family of trifunctional, bispecific antibodies that maintain an IgG-like shape are novel tumor targeting agents. These chimeras consist of two half antibodies, each with one light and one heavy chain, that originate from parental mouse IgG2a and rat IgG2b isotypes. This combination allows cost-effective biopharmaceutical manufacturing at an industrial scale since this specific mouse/rat isotype combination favors matching of corresponding antibody halves during production by means of quadroma technology. Whereas every Triomab family member is composed of an anti-CD3 rat IgG2b half antibody for T cell recognition, the antigen binding site presented by the mouse IgG2a isotype is exchangeable. Several Triomab antibodies have been generated that bind to tumor-associated antigens, e.g., EpCAM (catumaxomab), HER2/neu (ertumaxomab), CD20 (FBTA05), gangliosides GD2/GD3 (Ektomun), on appropriate tumor target cells associated with carcinomas, lymphomas or melanomas. Catumaxomab (Removab) was launched in Europe for treatment of malignant ascites in April 2009. Here, we report the structural and functional characterization of this product. Mass spectrometry revealed an intact mass of 150511 Dalton (Da) and 23717 Da, 24716 Da, 51957 Da and 52019 Da of the reduced and alkylated rat light chain, mouse light chain, rat heavy chain, mouse heavy chain chains, respectively. The observed masses were in agreement with the expected masses based on the amino acid sequence obtained from cDNA sequencing. The glycosylation profile was similar to other human IgG consisting of biantennary oligosaccharides with different numbers of terminal galactose. CD spectroscopy showed mainly beta-sheets secondary structure that is typical for IgG antibodies. Binding measurement revealed the unique trifunctional features of catumaxomab. Other analytical tools were used to evaluate characteristics of catumaxomab preparations, including the presence of isoforms and aggregates.
mAbs 05/2010; 2(3):309-19.
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ABSTRACT: Catumaxomab is a trifunctional antibody (trAb) characterized by its unique ability to bind three different cell types: tumor cells, T-cells, and accessory cells. It has two different antigen-binding specificities: one for epithelial cell adhesion molecule (EpCAM) on tumor cells and one for the CD3 antigen on T-cells. Catumaxomab also binds to type I, IIa, and III Fcγ receptors (FcγR) on accessory cells, e.g. macrophages, dendritic cells, and natural killer cells, via its intact Fc region. Its anti-tumor activity results from T-cell-mediated lysis, antibody-dependent cell-mediated cytotoxicity, and phagocytosis via activation of FcγR-positive accessory cells. Importantly, no additional activation of immune cells is necessary for effective tumor eradication by catumaxomab, which represents a self-supporting system. Catumaxomab's efficacy and safety have been demonstrated in a pivotal phase II/III study and supporting phase I/II studies. It is administered as four intraperitoneal (i.p.) infusions on days 0, 3, 7, and 10 at doses of 10, 20, 50, and 150μg, respectively. Catumaxomab has been approved in the European Union since April 2009 for the i.p. treatment of malignant ascites (MA) in patients with EpCAM-positive carcinomas where standard therapy is not available or no longer feasible. Catumaxomab is the first trAb and the first drug worldwide to be approved specifically for the treatment of MA. It is in clinical trials in a number of other indications including ovarian and gastric cancer. Alternative routes of administration are also under evaluation to further exploit the therapeutic potential of catumaxomab in EpCAM-positive carcinomas.
Cancer treatment reviews 03/2010; 36(6):458-67. · 5.30 Impact Factor
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ABSTRACT: Oxidation of methionine residues and deamidation of asparagine residues are the major causes of chemical degradation of biological pharmaceuticals. The mechanism of these non-enzymatic chemical reactions has been studied in great detail. However, the identification and quantification of oxidation and deamidation sites in a given protein still remains a challenge. In this study, we identified and characterized several oxidation and deamidation sites in a rat/mouse hybrid antibody. We evaluated the effects of the sample preparation on oxidation and deamidation levels and optimized the peptide mapping method to minimize oxidation and deamidation artifacts. Out of a total number of 18 methionine residues, we identified six methionine residues most susceptible to oxidation. We determined the oxidation rate of the six methionine residues using 0.05% H(2)O(2) at different temperatures. Methionine residue 256 of the mouse heavy chain showed the fastest rate of oxidation under those conditions with a half life of approximately 200 min at 4 degrees C and 27 min at 37 degrees C. We identified five asparagine residues prone to deamidation under accelerated conditions of pH 8.6 at 37 degrees C. Kinetic characterization of the deamidation sites showed that asparagine residue 218 of the rat heavy chain exhibited the fastest rate of deamidation with a half live of 1.5 days at pH 8.6 and 37 degrees C. Analysis of antibody isoforms using free flow electrophoresis showed that deamidation is the major cause of the charged variants of this rat/mouse hybrid antibody.
Journal of chromatography. B, Analytical technologies in the biomedical and life sciences 01/2010; 878(9-10):777-84. · 2.78 Impact Factor
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ABSTRACT: Human epidermal growth factor receptor 2 (HER2/neu) is an important target for the treatment of the breast cancers in which it is overexpressed. However, no approved anti-HER2/neu therapy is available for the majority of breast cancer patients, who express HER2/neu at low levels (with scores of 1+ or 2+/fluorescence in situ hybridization-negative). The trifunctional antibody ertumaxomab targets HER2/neu, CD3, and activating Fcgamma receptors. In presence of ertumaxomab, tri-cell complexes consisting of tumor cells, T cells, and accessory cells form to cause tumor cell lysis. In a phase I trial with metastatic breast cancer patients, ertumaxomab could be applied safely and resulted in radiographically confirmed clinical responses. In this study, we compare ertumaxomab- and trastuzumab-mediated killing of cancer cell lines that express HER2/neu at low and high levels. Under optimal conditions for trastuzumab-mediated destruction of HER2/neu-overexpressing cells, only ertumaxomab was able to mediate the elimination of tumor cell lines that express HER2/neu at low levels (1+). Ertumaxomab-mediated activity was accompanied by a Th1-based cytokine release, a unique mode of action of trifunctional antibodies. Competitive binding studies with trastuzumab and 520C9 mapped the binding site of ertumaxomab to the extracellular regions II and III of the HER2/neu ectodomain. This site is distinct from the binding site of trastuzumab, so that HER2/neu-expressing tumor cells can be eliminated by ertumaxomab in the presence of high amounts of trastuzumab. The ability of ertumaxomab to induce cytotoxicity against various tumor cell lines, including those with low HER2/neu antigen density, may provide a novel therapeutic option for breast cancer patients who are not eligible for trastuzumab treatment.
Cancer Research 06/2009; 69(10):4270-6. · 7.86 Impact Factor
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ABSTRACT: Peritoneal carcinomatosis (PC) from epithelial tumors is a fatal diagnosis without efficient treatment. Trifunctional antibodies (trAb) are novel therapeutic approaches leading to a concerted anti-tumor activity resulting in tumor cell destruction. In addition, preclinical data in mouse tumor models demonstrated the induction of long lasting tumor immunity after treatment with trAb. We describe the induction of anti-tumor specific T-lymphocytes after intraperitoneal administration of trAb in patients with PC.9 patients with progressive PC from gastric (n = 6) and ovarian cancer (n = 2), and cancer of unknown primary (n = 1) received 3 escalating doses of trAb after surgery and/or ineffective chemotherapy. The trAb EpCAM x CD3 (10, 20, 40 microg) or HER2/neu x CD3 (10, 40, 80 microg) were applicated by intraperitoneal infusion. Four weeks after the last trAb application, all patients were restimulated by subdermal injection of trAb + autologous PBMC + irradiated autologous tumor cells. Immunological reactivity was tested by analyzing PBMC for specific tumor reactive CD4+/CD8+ T lymphocytes using an IFN-gamma secretion assay.In 5 of 9 patients, tumor reactive CD4+/CD8+ T-lymphocytes increased significantly, indicating specific anti-tumor immunity. A clinical response (stable disease, partial regression) has been observed in 5 of 9 patients, with a mean time to progression of 3.6 months. Follow-up showed a mean survival of 11.8 months (median 8.0 months) after trAb therapy.TrAb are able to induce anti-tumor immunity after intraperitoneal application and restimulation. The induction of long-lasting anti-tumor immunity may provide an additional benefit of the intraperitoneal therapy with trAb and should be further elevated in larger clinical trials.
Journal of Experimental & Clinical Cancer Research 03/2009; 28:18. · 2.15 Impact Factor
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ABSTRACT: Trifunctional bispecific antibodies can efficiently mediate tumor cell killing by redirecting T cells and immune accessory cells to the tumor cell. Here, we describe the new trifunctional antibody, Bi20 (FBTA05, anti-CD20 x anti-CD3), that connects B cells and T cells via its variable regions and recruits FcgammaRI(+) accessory immune cells via its Fc region. Bi20 mediated efficient and specific lysis of B-cell lines and of B cells with low CD20 expression levels that were derived from CLL patients. Remarkably, T-cell activation and tumor cell killing occurred in an entirely autologous setting without additional effector cells in 5 of 8 samples. In comparison, rituximab, a chimeric monoclonal CD20 antibody, demonstrated a significantly lower B-cell eradication rate. Additionally, Bi20, but not rituximab, upregulated the activation markers CD25 and CD69 on both CD4(+) and CD8(+) T cells in the presence of accessory immune cells. CD14(+) accessory cells and the monocyte cell line THP-1 were activated via binding of the Fc region of Bi20, given that T cells were simultaneously engaged by the antibody. Bi20 induced a strong Th1 cytokine pattern characterized by high IFN-gamma and very low IL-4 secretion. In conclusion, Bi20 may offer new immunotherapeutic options for the treatment of B-cell lymphomas.
International Journal of Cancer 10/2008; 123(5):1181-9. · 5.44 Impact Factor
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ABSTRACT: Use of a trifunctional bispecific antibody (trAb) given concomitantly with allogeneic cell therapy to achieve an anti tumor effect without graft-vs-host disease (GVHD).
A trAb-directed against murine CD3 and human epithelial cell adhesion molecule (EpCAM) (BiLu), was given alone or concomitantly with interleukin (IL)-2-activated (LAK) H-2(b) donor splenocytes to H-2(d/b) mice inoculated with murine melanoma cells transfected with human EpCAM.
A total of 32/38 mice treated with BiLu and LAK splenocytes, were tumor-free survivors without GVHD for >200 days following inoculation of a 100% lethal tumor dose (5 x 10(4)). Of 28 disease-free surviving mice previously treated with LAK splenocytes and BiLu, 24 mice proved resistance to a second tumor challenge of 10(4) cells given >210 days following the first tumor inoculation with no evidence of disease for >150 days. In contrast, only 4 of 13 disease-free survivor mice treated with naïve splenocytes and BiLu, and 5 of 10 disease-free survivor controls treated with BiLu only, resisted the second tumor challenge. Induction of antitumor immunity was more efficient and long-lasting (>150 days) in mice previously injected with a lethal tumor cell dose of 5 x 10(4) cells than in mice previously inoculated with 5 x 10(3) tumor cells.
Concomitantly treatment of allogeneic LAK cells and trAb-induced an efficient long-lasting antitumor immunity. Considering the documented efficacy of anti-EpCAM bispecific antibody in various metastatic cancers, clinical application of our approach may be justified in patients with minimal residual disease at high risk for tumor recurrence.
Experimental Hematology 08/2008; 36(8):997-1003. · 2.90 Impact Factor
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ABSTRACT: Catumaxomab is a trifunctional monoclonal antibody with binding sites directed to human EpCAM and the human T cell antigen CD3 (anti-EpCAM x anti-CD3). Catumaxomab demonstrated efficacy when administered intraperitoneally in patients with EpCAM positive malignant ascites from ovarian cancer in terms of tumor cell killing and reduction of ascites generation. As EpCAM is also overexpressed in NSCLC, the present study was conducted in order to evaluate safety and tolerability of intravenous treatment with catumaxomab.
UICC stage IB-IV NSCLC patients were eligible, if they had at least one prior therapy. Other inclusion criteria were: age 18-75 years, adequate bone marrow function and AST or gamma-GT<or=2.5 ULN. Escalating doses of catumaxomab were administered over 8 h as a continuous intravenous infusion. Dose escalation started at 2 microg and was increased to 7.5 microg. In addition various doses of dexamethasone as premedication were investigated. All patients were pretreated with antihistamines.
Dose limiting toxicity (DLT) was a grade 3 and 4 elevation of ALT, AST and gamma-GT, which was observed in dose level IV (10 mg dexamethasone premedication, 5 microg catumaxomab) and V (40 mg dexamethasone followed by 7.5 microg catumaxomab). Elevated liver enzymes decreased to grade 2 within 3-7 days and were at baseline level within 14 days after infusion. The maximum tolerated dose (MTD) was defined in dose level III (40 mg of dexamethasone followed by 5 microg of catumaxomab).
Five micrograms of catumaxomab with a pre-medication of 40 mg dexamethasone and antihistamines can be recommended as first dose for i.v. therapy consisting of multiple catumaxomab infusions for patients with NSCLC.
Cancer Immunology and Immunotherapy 10/2007; 56(10):1637-44. · 3.70 Impact Factor
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Alexander Burges,
Pauline Wimberger,
Carolin Kümper,
Vera Gorbounova,
Harald Sommer,
Barbara Schmalfeldt,
Jacobus Pfisterer,
Michail Lichinitser,
Anatoliy Makhson,
Vladimir Moiseyenko,
Angelika Lahr,
Elisabeth Schulze,
Michael Jäger,
Michael A Ströhlein,
Markus Maria Heiss,
Thomas Gottwald, Horst Lindhofer,
Rainer Kimmig
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ABSTRACT: Malignant ascites in ovarian carcinoma patients is associated with poor prognosis and reduced quality of life. The trifunctional antibody catumaxomab (anti-EpCAM x anti-CD3) enhances the antitumor activity by redirecting T cells and Fcgamma receptor I/III--positive accessory cells to the tumor. This multicenter phase I/II dose-escalating study investigated tolerability and efficacy of i.p. catumaxomab application in ovarian cancer patients with malignant ascites containing epithelial cell adhesion molecule (EpCAM)--positive tumor cells.
Twenty-three women with recurrent ascites due to pretreated refractory ovarian cancer were treated with four to five i.p. infusions of catumaxomab in doses of 5 to 200 microg within 9 to 13 days.
The maximum tolerated dose was defined at 10, 20, 50, 200, and 200 microg for the first through fifth doses. Side effects included transient fever (83%), nausea (61%), and vomiting (57%), mostly CTCAE (Common Terminology Criteria for Adverse Events) grade 1 or 2. A total of 39 grade 3 and 2 grade 4 treatment-related adverse events (AE), 9 of them after the highest dose level (200 microg), were observed in 16 patients. Most AEs were reversible without sequelae. Treatment with catumaxomab resulted in significant and sustained reduction of ascites flow rate. A total of 22/23 patients did not require paracentesis between the last infusion and the end of study at day 37. Tumor cell monitoring revealed a reduction of EpCAM-positive malignant cells in ascites by up to 5 log.
I.p. immunotherapy with catumaxomab prevented the accumulation of ascites and efficiently eliminated tumor cells with an acceptable safety profile. This suggests that catumaxomab is a promising treatment option in ovarian cancer patients with malignant ascites.
Clinical Cancer Research 08/2007; 13(13):3899-905. · 7.74 Impact Factor
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Philipp Kiewe,
Stephan Hasmüller,
Steffen Kahlert,
Maja Heinrigs,
Brigitte Rack,
Alexander Marmé,
Agnieszka Korfel,
Michael Jäger, Horst Lindhofer,
Harald Sommer,
Eckhard Thiel,
Michael Untch
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ABSTRACT: Ertumaxomab is an intact bispecific antibody targeting HER2/neu and CD3 with selective binding to activatory Fcgamma type I/III receptors, resulting in the formation of a tri-cell complex between tumor cells, T cells, and accessory cells. Patients with metastatic breast cancer were enrolled into a multicenter phase I dose-escalating trial.
Three ascending doses of ertumaxomab (10-200 microg) were administered i.v. on day 1, 7 +/- 1, and 13 +/- 1. Safety and tolerability were the primary objectives. Secondary objectives were antitumor activity and different immunologic variables.
Fifteen out of 17 enrolled patients completed the study. One hundred micrograms was identified as the maximal tolerable single dose. Most drug-related adverse events were mild and transient including fever (94%), rigors (47%), headache (35%), nausea (29%), vomiting (29%). Grades 3 and 4 (Common Toxicity Criteria) were lymphocytopenia (76%) and elevation of liver enzymes (47%). One patient (200 mug dose) developed severe hypotension and respiratory distress syndrome, another patient (150 mug dose) developed a systemic inflammatory response syndrome and acute renal failure. Aggravation of congestive heart failure was seen in one patient with preexisting ventricular dysfunction after administration of the third dose (200 microg). All adverse events were fully reversible. Antitumor response was seen in 5 out of 15 evaluable patients (one with a complete response, two with partial responses, two with stable disease) at dose levels of > or = 100 microg. Measurements of cytokines (interleukin-6, interleukin-2, tumor necrosis factor-alpha, and IFN-gamma) suggest a strong T helper cell type 1-associated immune response. The induction of human anti-mouse/anti-rat antibodies was detected in 5 out of 16 (31%) patients.
Treatment with triple infusions of ertumaxomab yields a strong immunologic response. Doses up to 100 microg can be safely infused with close monitoring of patients. The observed clinical responses are encouraging and indicate antitumor efficacy.
Clinical Cancer Research 05/2006; 12(10):3085-91. · 7.74 Impact Factor
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ABSTRACT: A trifunctional bispecific antibody (BiLu) directed against murine CD3 and human epithelial-cell adhesion molecule (EpCAM) was tested for its ability to improve cell-mediated adoptive immunotherapy in a murine model of B16 melanoma cells transfected with human EpCAM. Intraperitoneal inoculation of naive C57BL/6 (C57) splenocytes induced lethal graft versus host disease (GVHD) in 85% to 97% of sublethally irradiated (BALB/c x C57BL/6) F1 (F1) hosts inoculated intraperitoneally with a sublethal or lethal dose of melanoma cells. BiLu antibodies given intraperitoneally concomitantly with alloreactive C57 cells effectively prevented GVHD-related and tumor-related death in 16 of 25 F1 mice inoculated with a sublethal tumor-cell dose and in 10 of 20 mice inoculated with a lethal tumor-cell dose over a follow-up period of more than 200 days. BiLu treatment also efficiently prevented severe GVHD, which was induced by high doses of BALB/c-derived splenocytes. Trifunctional bispecific antibodies (TbsAbs) capable of cross-linking T lymphocytes, natural killer, and other FcgammaR-positive effector cells, via their Fc region, to the tumor cells may be applied together with adoptive allogeneic-cell therapy to maximize antitumor responses while acting on GVHD in patients with minimal residual disease.
Blood 03/2006; 107(4):1564-9. · 9.90 Impact Factor
