Jean-François Chatal

Antibody Pretargeting Advances Cancer Radioimmunodetection and Radioimmunotherapy

This article reviews the methods of pretargeting, which involve separating the targeting antibody from the subsequent delivery of an imaging or therapeutic agent that binds to the tumor-localized antibody. This provides enhanced tumor:background ratios and the delivery of a higher therapeutic dose than when antibodies are directly conjugated with radionuclides, as currently practiced in cancer radioimmunotherapy. We describe initial promising clinical results using streptavidin-antibody constructs with biotin-radionuclide conjugates in the treatment of patients with malignant gliomas, and of bispecific antibodies with hapten-radionuclides in the therapy of tumors expressing carcinoembryonic antigen, such as medullary thyroid and small-cell lung cancers.

Survival Improvement in Patients With Medullary Thyroid Carcinoma Who Undergo Pretargeted Anti–Carcinoembryonic-Antigen Radioimmunotherapy: A Collaborative Study With the French Endocrine Tumor Group

PURPOSE No effective therapy is currently available for the management of patients with metastatic medullary thyroid carcinoma (MTC). The efficacy of pretargeted radioimmunotherapy (pRAIT) with bispecific monoclonal antibody (BsMAb) and a iodine-131 (131I) -labeled bivalent hapten is evaluated. PATIENTS AND METHODS Twenty-nine patients with advanced, progressive MTC, as documented by short serum calcitonin doubling times (Ct DTs), received an anti-carcinoembryonic antigen (CEA)/anti-diethylenetriamine pentaacetic acid (DTPA) -indium BsMAb, followed 4 days later by a 131I-labeled bivalent hapten. Overall survival (OS) was compared with 39 contemporaneous untreated MTC patients with comparable prognostic indicators. RESULTS OS was significantly longer in high-risk, treated patients (Ct DT < 2 years) than in high-risk, untreated patients (median OS, 110 v 61 months; P < .030). Forty-seven percent of patients, defined as biologic responders by a more than 100% increase in CtDT, experienced significantly longer survival than nonresponders (median OS, 159 v 109 months; P < .035) and untreated patients (median OS, 159 v 61 months; P < .010). Treated patients with bone/bone-marrow disease had a longer survival than patients without such involvement (10-year OS, 83% v 14%; P < .023). Toxicity was mainly hematologic and related to bone/bone-marrow tumor spread. CONCLUSION pRAIT against CEA induced long-term disease stabilization and a significantly longer survival in high-risk patients with Ct DTs less than 2 years, compared with similarly high-risk, untreated patients. Ct DT and bone-marrow involvement appear to be prognostic indicators in MTC patients who undergo pRAIT.

Cancer radioimmunotherapy with alpha-emitting nuclides

In lymphoid malignancies and in certain solid cancers such as medullary thyroid carcinoma, somewhat mixed success has been achieved when applying radioimmunotherapy (RIT) with β-emitters for the treatment of refractory cases. The development of novel RIT with α-emitters has created new opportunities and theoretical advantages due to the high linear energy transfer (LET) and the short path length in biological tissue of α-particles. These physical properties offer the prospect of achieving selective tumoural cell killing. Thus, RIT with α-emitters appears particularly suited for the elimination of circulating single cells or cell clusters or for the treatment of micrometastases at an early stage. However, to avoid non-specific irradiation of healthy tissues, it is necessary to identify accessible tumoural targets easily and rapidly. For this purpose, a small number of α-emitters have been investigated, among which only a few have been used for in vivo preclinical studies. Another problem is the availability and cost of these radionuclides; for instance, the low cost and the development of a reliable actinium-225/bismuth-213 generator were probably determining elements in the choice of bismuth-213 in the only human trial of RIT with an α-emitter. This article reviews the literature concerning monoclonal antibodies radiolabelled with α-emitters that have been developed for possible RIT in cancer patients. The principal radio-immunoconjugates are considered, starting with physical and chemical properties of α-emitters, their mode of production, the possibilities and difficulties of labelling, in vitro studies and finally, when available, in vivo preclinical and clinical studies.

High Rates of Durable Responses With Anti-CD22 Fractionated Radioimmunotherapy: Results of a Multicenter, Phase I/II Study in Non-Hodgkin's Lymphoma

PURPOSE Fractionated radioimmunotherapy targeting CD22 may substantially improve responses and outcome in non-Hodgkins lymphoma (NHL). PATIENTS AND METHODS A multicenter trial evaluated two or three weekly infusions of yttrium-90 ((90)Y) epratuzumab tetraxetan (humanized anti-CD22 antibody) in 64 patients with relapsed/refractory NHL, including 17 patients who underwent prior autologous stem-cell transplantation (ASCT). Objective (OR) and complete responses (CR/complete response unconfirmed [CRu]), as well as progression-free survival (PFS), were determined. RESULTS At the maximum total (90)Y dose of 45 mCi/m(2) (1,665 MBq/m(2)), grade 3 to 4 hematologic toxicities were reversible to grade 1 in patients with less than 25% bone marrow involvement. The overall OR rate and median PFS for all 61 evaluable patients was 62% (CR/CRu, 48%) and 9.5 months, respectively. Patients without prior ASCT obtained high OR rates of 71% (CR/CRu, 55%) across all NHL subtypes and (90)Y doses, even in poor-risk categories (refractory to last anti-CD20-containing regimen, 73% [CR/CRu, 60%]; bulky disease: 71% [CR/CRu, 43%]). Patients with prior ASCT received lower doses, but achieved an OR rate of 41% (CR/CRu, 29%). For patients with follicular lymphoma (FL), OR rates and median PFS increased with total (90)Y-dose, reaching 100% (CR/CRu, 92%) and 24.6 months, respectively, at the highest dose levels (> 30 mCi/m(2) total (90)Y-dose [1,110 MBq/m(2)]). Further, patients with FL refractory to prior anti-CD20-containing regimens achieved 90% (nine of 10 patients) OR and CR/CRu rates and a median PFS of 21.5 months. CONCLUSION Fractionated anti-CD22 radioimmunotherapy provides high total doses of (90)Y, yielding high rates of durable CR/CRus in relapsed/refractory NHL, resulting in 20 mCi/m(2) x 2 weeks as the recommended dose for future studies.

Brown fat in breast cancer patients: analysis of serial 18F-FDG PET/CT scans

PurposeIt has recently been suggested that FDG accumulation in the brown adipose tissue varies as a function of age, sex and outdoor temperature. The aim of this study was to assess changes in FDG uptake in brown fat in patients based on serial PET/CT scans and to compare our results with previous findings.MethodsEarly response to neoadjuvant chemotherapy in 33 female breast cancer patients was assessed by FDG PET. Five PET/CT scans were performed for each patient. PET/CT images were analysed retrospectively. PET scans were considered positive when diffuse, symmetrical, abnormal “USA” (uptake in supraclavicular area) fat was detected.ResultsA total of 163 PET images were analysed. Seventy-four PET scans (45%) revealed abnormal FDG uptake in the supraclavicular area. These foci were present on uncorrected and attenuation-corrected images. FDG uptake was identical on all five scans in only five patients. No significant relationship was found between abnormal FDG uptake and outdoor temperature, age or time interval between chemotherapy and PET. Abnormal FDG uptake in the neck seemed to predominantly occur in patients with a low body mass index (p<0.05). Most significant changes in the PET/CT scan results were observed during chemotherapy with docetaxel (p<0.05). When observed, bilateral uptake in the neck was more intense than background uptake (p<0.00001).ConclusionThis study shows that FDG uptake in the neck varies as a function of time, that it is unrelated to age or outdoor temperature, and that bilateral uptake is generally intense.

FDG-PET/CT predicts outcome in patients with aggressive non-Hodgkin's lymphoma and Hodgkin's disease.

Early therapy response assessment with metabolic imaging is potentially useful to determine prognosis in aggressive lymphoma and, thus, can guide first-line therapy. Forty-eight patients with aggressive lymphoma [24 Hodgkin’s disease (HD); 24 non-Hodgkin’s lymphoma (NHL)] underwent fluoro-deoxyglucose positron emission tomography (FDG-PET) before chemotherapy (PET1) and at mid-treatment (PET2). Therapeutic response was evaluated using conventional methods at mid-treatment. PET2 results were related to event-free survival (EFS) and overall survival (OS) using Kaplan–Meier analyses. PET1 was positive in all patients. PET2 was negative in 38 patients (18 NHL-20 HD) and positive in 10 (6 NHL-4 HD). Of the PET-negative patients, 61 and 65% achieved complete remission, and only 50 and 25% of PET-positive patients, respectively, for NHL and HD, achieved complete remission. Significant associations were found between PET2 and EFS (p=0.0006) and OS (p=0.04) for NHL, and EFS (p<0.0001) for HD (but not for OS, because no HD patient died). FDG-PET at mid-treatment can predict the outcome of patients with aggressive lymphoma and should be a useful tool to modify an ineffective therapy.

Mechanisms of cell sensitization to a radioimmunotherapy by doxorubicin or paclitaxel in multiple myeloma cell lines

Purpose: The purpose of this study was to analyze different mechanisms (cell cycle synchronization, DNA damage, and apoptosis) that might underlie potential synergy between chemotherapy (paclitaxel or doxorubicin) and radioimmunotherapy with α radionuclides. Experimental Design: Three multiple myeloma cell lines (LP1, RMI 8226, and U266) were treated with 213Bi-radiolabeled B-B4, a monoclonal antibody that recognizes syndecan-1 (CD138) 24 hours after paclitaxel (1 nmol/L) or doxorubicin (10 nmol/L) treatment. Cell survival was assessed using a clonogenic survival assay. Cell cycle modifications were assessed by propidium iodide staining and DNA strand breaks by the comet assay. Level of apoptosis was determined by Apo 2.7 staining. Results: Radiation enhancement ratio showed that paclitaxel and doxorubicin were synergistic with α radioimmunotherapy. After a 24-hour incubation, paclitaxel and doxorubicin arrested all cell lines in the G2-M phase of the cell cycle. Doxorubicin combined with α radioimmunotherapy increased tail DNA in the RPMI 8226 cell line but not the LP1 or U266 cell lines compared with doxorubicin alone or α radioimmunotherapy alone. Neither doxorubicin nor paclitaxel combined with α radioimmunotherapy increased the level of apoptosis induced by either drug alone or α radioimmunotherapy alone. Conclusion: Both cell cycle arrest in the G2-M phase and an increase in DNA double-strand breaks could lead to radiosensitization of cells by doxorubicin or paclitaxel, but apoptosis would not be involved in radiosensitization mechanisms.

Radiolabeled Antibodies for Cancer Imaging and Therapy

Radiolabeled antibodies were studied first for tumor detection by single-photon imaging, but FDG PET stopped these developments. In the meantime, radiolabeled antibodies were shown to be effective in the treatment of lymphoma. Radiolabeling techniques are well established and radiolabeled antibodies are a clinical and commercial reality that deserves further studies to advance their application in earlier phase of the diseases and to test combination and adjuvant therapies including radiolabeled antibodies in hematological diseases. In solid tumors, more resistant to radiations and less accessible to large molecules such as antibodies, clinical efficacy remains limited. However, radiolabeled antibodies used in minimal or small-size metastatic disease have shown promising clinical efficacy. In the adjuvant setting, ongoing clinical trials show impressive increase in survival in otherwise unmanageable tumors. New technologies are being developed over the years: recombinant antibodies and pretargeting approaches have shown potential in increasing the therapeutic index of radiolabeled antibodies. In several cases, clinical trials have confirmed preclinical studies. Finally, new radionuclides, such as lutetium-177, with better physical properties will further improve the safety of radioimmunotherapy. Alpha particle and Auger electron emitters offer the theoretical possibility to kill isolated tumor cells and microscopic clusters of tumor cells, opening the perspective of killing the last tumor cell, which is the ultimate challenge in cancer therapy. Preliminary preclinical and preliminary clinical results confirm the feasibility of this approach.

Phase II Trial of Anticarcinoembryonic Antigen Pretargeted Radioimmunotherapy in Progressive Metastatic Medullary Thyroid Carcinoma: Biomarker Response and Survival Improvement

The prognosis of medullary thyroid carcinoma (MTC) varies from long- to short-term survival based on such prognostic factors as serum calcitonin and carcinoembryonic antigen (CEA) doubling times (DTs). This prospective phase II multicenter trial evaluated the efficacy and safety of anti-CEA pretargeted radioimmunotherapy (pRAIT) in rapidly progressing metastatic MTC patients and also how serum biomarker DTs correlate with clinical outcome. Methods: From June 2004 to January 2008, 42 patients were treated with anti-CEA × anti–diethylenetriaminepentaacetic acid (DTPA) bispecific antibody (hMN-14 × m734) (40 mg/m2), followed by 131I-di-DTPA-indium bivalent hapten (1.8 GBq/m2) 4–6 d later. Results: The disease control rate (durable stabilization plus objective response) was 76.2%. Grade 3–4 hematologic toxicity was observed in 54.7% of patients and myelodysplastic syndrome in 2, including 1 heavily treated previously. After pRAIT, 21 of 37 assessed patients (56.7%) showed a significant impact on DT (≥100% increase of pre-pRAIT calcitonin or CEA DT or prolonged decrease of the biomarker concentration after pRAIT). Pre-pRAIT DT and post-pRAIT DT were significant independent predictors for overall survival (OS) from pRAIT (pre-pRAIT: hazard ratio [HR], 0.46; 95% confidence interval [CI], 0.24–0.86; P = 0.016; and post-pRAIT: HR, 5.32; 95% CI, 1.63–17.36; P = 0.006) and OS from diagnosis (pre-pRAIT: HR, 0.21; 95% CI, 0.08–0.51; P = 0.001; and post-pRAIT: HR, 6.16; 95% CI, 1.81–20.98; P = 0.004). Conclusion: pRAIT showed antitumor activity, with manageable hematologic toxicity in progressive MTC. Increased biomarker DT after treatment correlated with increased OS.

Radiation‐induced apoptosis in human ovarian carcinoma cells growing as a monolayer and as multicell spheroids

Response to external gamma irradiation was studied in a human ovarian carcinoma cell line (OVCAR 3) growing as a monolayer and as multicell spheroids. Necrosis and apoptosis were documented using Trypan‐blue uptake and acridine‐orange staining, respectively, and apoptosis was quantified using a terminal deoxynucleotidyl transferase assay. Exposure of OVCAR 3 cells growing as a monolayer to 137Cs gamma radiation at a dose of 10 Gy produced 30–40% apoptosis 72 hr after irradiation. Cell‐cycle analysis of irradiated cells showed an accumulation of cells in G2/M phase 24 hr after irradiation and then a decline at 48 hr in conjunction with apoptosis onset. The loss of G0/G1 cells in irradiated cultures suggested a preferential entry into apoptosis. No increase in apoptotic cell number was observed in OVCAR 3 spheroids after irradiation, and the cells probably died as a result of necrosis. When spheroids were disrupted immediately after irradiation to obtain a cell suspension, minor apoptosis was observed in association with a marked increase in TB‐positive cell number after 96 hr of incubation following irradiation. Thus, a relationship was found between radiation‐induced apoptosis and the cell cycle. Results with spheroids suggested the possible involvement of cell‐to‐cell interactions in apoptosis regulation. Int. J. Cancer 72:851–859, 1997.