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Caracciolo, Daniele; Riillo, Caterina; Ballerini, Andrea; Gaipa, Giuseppe; Lhermitte, Ludovic; Rossi, Marco; Botta, Cirino; Duroyon, Eugénie; Grillone, Katia; Gallo Cantafio, Maria Eugenia; Buracchi, Chiara; Alampi, Greta; Gulino, Alessandro; Belmonte, Beatrice; Conforti, Francesco; Golino, Gaetanina; Juli, Giada; Altomare, Emanuela; Polerà, Nicoletta; Scionti, Francesca; Arbitrio, Mariamena; Iannone, Michelangelo; Martino, Massimo; Correale, Pierpaolo; Talarico, Gabriella; Ghelli Luserna di Rorà, Andrea; Ferrari, Anna; Concolino, Daniela; Sestito, Simona; Pensabene, Licia; Giordano, Antonio; Hildinger, Markus; Di Martino, Maria Teresa; Martinelli, Giovanni; Tripodo, Claudio; Asnafi, Vahid; Biondi, Andrea; Tagliaferri, Pierosandro; Tassone, Pierfrancesco
Journal for immunotherapy of cancer, 02/2021, Volume: 9, Issue: 2Journal Article
BackgroundT-cell acute lymphoblastic leukemia (T-ALL) is an aggressive disease with a poor cure rate for relapsed/resistant patients. Due to the lack of T-cell restricted targetable antigens, effective immune-therapeutics are not presently available and the treatment of chemo-refractory T-ALL is still an unmet clinical need. To develop novel immune-therapy for T-ALL, we generated an afucosylated monoclonal antibody (mAb) (ahuUMG1) and two different bispecific T-cell engagers (BTCEs) against UMG1, a unique CD43-epitope highly and selectively expressed by T-ALL cells from pediatric and adult patients.MethodsUMG1 expression was assessed by immunohistochemistry (IHC) on a wide panel of normal tissue microarrays (TMAs), and by flow cytometry on healthy peripheral blood/bone marrow-derived cells, on 10 different T-ALL cell lines, and on 110 T-ALL primary patient-derived cells. CD43-UMG1 binding site was defined through a peptide microarray scanning. ahuUMG1 was generated by Genetic Glyco-Engineering technology from a novel humanized mAb directed against UMG1 (huUMG1). BTCEs were generated as IgG1-(scFv)2 constructs with bivalent (2+2) or monovalent (2+1) CD3ε arms. Antibody dependent cellular cytotoxicity (ADCC), antibody dependent cellular phagocytosis (ADCP) and redirected T-cell cytotoxicity assays were analysed by flow cytometry. In vivo antitumor activity of ahUMG1 and UMG1-BTCEs was investigated in NSG mice against subcutaneous and orthotopic xenografts of human T-ALL.ResultsAmong 110 T-ALL patient-derived samples, 53 (48.1%) stained positive (24% of TI/TII, 82% of TIII and 42.8% of TIV). Importantly, no expression of UMG1-epitope was found in normal tissues/cells, excluding cortical thymocytes and a minority (<5%) of peripheral blood T lymphocytes. ahUMG1 induced strong ADCC and ADCP on T-ALL cells in vitro, which translated in antitumor activity in vivo and significantly extended survival of treated mice. Both UMG1-BTCEs demonstrated highly effective killing activity against T-ALL cells in vitro. We demonstrated that this effect was specifically exerted by engaged activated T cells. Moreover, UMG1-BTCEs effectively antagonized tumor growth at concentrations >2 log lower as compared with ahuUMG1, with significant mice survival advantage in different T-ALL models in vivo.ConclusionAltogether our findings, including the safe UMG1-epitope expression profile, provide a framework for the clinical development of these innovative immune-therapeutics for this still orphan disease.
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