Enhanced delivery of antibodies across the blood-brain barrier via TEMs with inherent receptor-mediated phagocytosis

跨细胞 转铁蛋白受体 血脑屏障 抗体 吞噬作用 受体 免疫系统 髓样 免疫学 医学 生物 神经科学 内吞作用 中枢神经系统 内科学
作者
Suzanne C. Edavettal,Pilar Cejudo-Martı́n,B. Dasgupta,Danlin Yang,Matthew D. Buschman,Derrick L. Domingo,Kristof Van Kolen,Pharavee Jaiprasat,Renata E. Gordon,Keith Schutsky,Brian Geist,Natalie Taylor,Camille Helene Soubrane,Elisabeth Van Der Helm,Ann LaCombe,Zemeda Ainekulu,Eilyn R. Lacy,Jason Aligo,Jason Ho,Yingbo He
出处
期刊:Med [Elsevier BV]
卷期号:3 (12): 860-882.e15 被引量:78
标识
DOI:10.1016/j.medj.2022.09.007
摘要

The near impermeability of the blood-brain barrier (BBB) and the unique neuroimmune environment of the CNS prevents the effective use of antibodies in neurological diseases. Delivery of biotherapeutics to the brain can be enabled through receptor-mediated transcytosis via proteins such as the transferrin receptor, although limitations such as the ability to use Fc-mediated effector function to clear pathogenic targets can introduce safety liabilities. Hence, novel delivery approaches with alternative clearance mechanisms are warranted.Binders that optimized transport across the BBB, known as transcytosis-enabling modules (TEMs), were identified using a combination of antibody discovery techniques and pharmacokinetic analyses. Functional activity of TEMs were subsequently evaluated by imaging for the ability of myeloid cells to phagocytose target proteins and cells.We demonstrated significantly enhanced brain exposure of therapeutic antibodies using optimal transferrin receptor or CD98 TEMs. We found that these modules also mediated efficient clearance of tau aggregates and HER2+ tumor cells via a non-classical phagocytosis mechanism through direct engagement of myeloid cells. This mode of clearance potentially avoids the known drawbacks of FcγR-mediated antibody mechanisms in the brain such as the neurotoxic release of proinflammatory cytokines and immune cell exhaustion.Our study reports a new brain delivery platform that harnesses receptor-mediated transcytosis to maximize brain uptake and uses a non-classical phagocytosis mechanism to efficiently clear pathologic proteins and cells. We believe these findings will transform therapeutic approaches to treat CNS diseases.This research was funded by Janssen, Pharmaceutical Companies of Johnson & Johnson.
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