A first-in-human study investigating biodistribution, safety and recommended dose of a new radiolabeled MAb targeting FZD10 in metastatic synovial sarcoma patients
Anne-Laure Giraudet,
Philippe Alexandre Cassier,
Chicaco Iwao-Fukukawa,
Gwenaelle Garin,
Jean-Noël Badel,
David Kryza,
Sylvie Chabaud,
Laurence Gilles-Afchain,
Gilles Clapisson,
Claude Desuzinges,
David Sarrut,
Adrien Halty,
Antoine Italiano,
Masaharu Mori,
Takuya Tsunoda,
Toyomasa Katagiri,
Yusuke Nakamura,
Laurent Alberti,
Claire Cropet,
Simon Baconnier,
Sandrine Berge-Montamat,
David Pérol,
Jean-Yves Blay
Affiliations
Anne-Laure Giraudet
Department of Nuclear Medicine, LUMEN, Centre Léon Bérard
Philippe Alexandre Cassier
Medical Oncology Department, Centre Léon Bérard
Chicaco Iwao-Fukukawa
OncoTherapy Science
Gwenaelle Garin
Clinical Research Platform, DRCI, Centre Léon Bérard
Jean-Noël Badel
Department of Nuclear Medicine, LUMEN, Centre Léon Bérard
David Kryza
Université Lyon 1, CNRS, LAGEP UMR 5007, HCL
Sylvie Chabaud
Clinical Research Platform, DRCI, Centre Léon Bérard
Laurence Gilles-Afchain
Pharmacy, Centre Léon Bérard
Gilles Clapisson
Biological sample Management Platform (PGEB), Centre Léon Bérard
Claude Desuzinges
Department of Nuclear Medicine, LUMEN, Centre Léon Bérard
David Sarrut
INSA-Lyon, Université Lyon 1, CNRS, Inserm, CREATIS UMR 5220
Adrien Halty
INSA-Lyon, Université Lyon 1, CNRS, Inserm, CREATIS UMR 5220
Antoine Italiano
Institut Bergonié
Masaharu Mori
Division of Genome Medicine, Institute for Genome Research, The University of Tokushima
Takuya Tsunoda
Laboratory of Molecular Medicine, Human Genome Center, Institute of Medical Science, The University of Tokyo
Toyomasa Katagiri
Laboratory of Molecular Medicine, Human Genome Center, Institute of Medical Science, The University of Tokyo
Yusuke Nakamura
Laboratory of Molecular Medicine, Human Genome Center, Institute of Medical Science, The University of Tokyo
Laurent Alberti
Fédération de Recherche Santé Lyon-Est, CNRS UMS3453/INSERM US7
Claire Cropet
Clinical Research Platform, DRCI, Centre Léon Bérard
Simon Baconnier
Medical Oncology Department, Centre Léon Bérard
Sandrine Berge-Montamat
Medical Oncology Department, Centre Léon Bérard
David Pérol
Clinical Research Platform, DRCI, Centre Léon Bérard
Abstract Background Synovial Sarcomas (SS) are rare tumors occurring predominantly in adolescent and young adults with a dismal prognosis in advanced phases. We report a first-in-human phase I of monoclonal antibody (OTSA-101) targeting FZD10, overexpressed in most SS but not present in normal tissues, labelled with radioisotopes and used as a molecular vehicle to specifically deliver radiation to FZD10 expressing SS lesions. Methods Patients with progressive advanced SS were included. In the first step of this trial, OTSA-101 in vivo bio-distribution and lesions uptake were evaluated by repeated whole body planar and SPECT-CT scintigraphies from H1 till H144 after IV injection of 187 MBq of 111In-OTSA-101. A 2D dosimetry study also evaluated the liver absorbed dose when using 90Y-OTSA-101. In the second step, those patients with significant tumor uptake were randomized between 370 MBq (Arm A) and 1110 MBq (Arm B) of 90Y-OTSA-101 for radionuclide therapy. Results From January 2012 to June 2015, 20 pts. (median age 43 years [21–67]) with advanced SS were enrolled. Even though 111In-OTSA-101 liver uptake appeared to be intense, estimated absorbed liver dose was less than 20 Gy for each patient. Tracer intensity was greater than mediastinum in 10 patients consistent with sufficient tumor uptake to proceed to treatment with 90Y-OTSA-101: 8 were randomized (Arm A: 3 patients and Arm B: 5 patients) and 2 were not randomized due to worsening PS. The most common Grade ≥ 3 AEs were reversible hematological disorders, which were more frequent in Arm B. No objective response was observed. Best response was stable disease in 3/8 patients lasting up to 21 weeks for 1 patient. Conclusions Radioimmunotherapy targeting FZD10 is feasible in SS patients as all patients presented at least one lesion with 111In-OTSA-101 uptake. Tumor uptake was heterogeneous but sufficient to select 50% of pts. for 90Y-OTSA-101 treatment. The recommended activity for further clinical investigations is 1110 MBq of 90Y-OTSA-101. However, because of hematological toxicity, less energetic particle emitter radioisopotes such as Lutetium 177 may be a better option to wider the therapeutic index. Trial registration The study was registered on the NCT01469975 website with a registration code NCT01469975 on November the third, 2011.