Asingle-chain fragment variable(scFv) recognizingb2-glycoprotein1 (b2GPI) fromhumans and other species was isolated from a human phage display library and engineered to contain an IgG1 hinge-CH2-CH3 domain. The scFv-Fc directed against b2GPI domain I-induced thrombosis and fetal loss, thus mimicking the effect of antibodies from patients with antiphospholipid syndrome (APS). Complement is involved in the biological effect of anti-b2GPI scFv-Fc, as demonstrated by its ability to promote in vitro and in vivo complement deposition and the failure to induce vascular thrombosis in C6-deficient rats and fetal loss in C5-depletedmice. A critical role for complement was also supported by the inability of the CH2-deleted scFv-Fc to cause vessel occlusion and pregnancy failure. This antibody prevented the pathological effects of anti-b2GPI antibodies from APS patients and displaced b2GPI-bound patient antibodies. The CH2-deleted antibody represents an innovative approach potentially useful to treat APS patients refractory to standard therapy.
A non-complement-fixing antibody to 2 glycoprotein I as a novel therapy for antiphospholipid syndrome / Agostinis, C., Durigutto, P., Sblattero, D., Borghi, M.O., Grossi, C., Guida, F., Bulla, R., Macor, P., Pregnolato, F., Meroni, P.L., Tedesco, F.. - In: BLOOD. - ISSN 0006-4971. - 123:(2014), pp. 3478-3487. [10.1182/blood-2013-11-537704]
A non-complement-fixing antibody to 2 glycoprotein I as a novel therapy for antiphospholipid syndrome
C. Agostinis;DURIGUTTO, PAOLO;SBLATTERO, DANIELE;BULLA, ROBERTA;MACOR, PAOLO;TEDESCO, FRANCESCO
2014-01-01
Abstract
Asingle-chain fragment variable(scFv) recognizingb2-glycoprotein1 (b2GPI) fromhumans and other species was isolated from a human phage display library and engineered to contain an IgG1 hinge-CH2-CH3 domain. The scFv-Fc directed against b2GPI domain I-induced thrombosis and fetal loss, thus mimicking the effect of antibodies from patients with antiphospholipid syndrome (APS). Complement is involved in the biological effect of anti-b2GPI scFv-Fc, as demonstrated by its ability to promote in vitro and in vivo complement deposition and the failure to induce vascular thrombosis in C6-deficient rats and fetal loss in C5-depletedmice. A critical role for complement was also supported by the inability of the CH2-deleted scFv-Fc to cause vessel occlusion and pregnancy failure. This antibody prevented the pathological effects of anti-b2GPI antibodies from APS patients and displaced b2GPI-bound patient antibodies. The CH2-deleted antibody represents an innovative approach potentially useful to treat APS patients refractory to standard therapy.Pubblicazioni consigliate
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