Harnessing TfR1 for Cross-Species Systemic Delivery of siRNAs to Deep Brain Regions Using Single-Domain Antibodies
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Despite their therapeutic potential across a wide range of central nervous system (CNS) disorders, nucleic acid-based therapeutics are limited by inefficient delivery to deep brain regions at clinically viable doses. Transferrin receptor 1 (TfR1) has emerged as an attractive target for receptor-mediated transcytosis across the blood–brain barrier (BBB), enabling systemic delivery of biologics such as lysosomal enzymes and monoclonal antibodies. In this study, we demonstrated the translational potential of recently described TfR1-targeting camelid-derived single-domain antibodies (VHHs) for CNS delivery of siRNAs. When conjugated 1:1 to different tool siRNAs, these VHHs promote rapid and robust intracellular uptake, resulting in potent RNAi activity at low nanomolar concentrations in neural cells. Systemic administration of VHH-siRNA conjugates in wild-type mice, hTfR1 transgenic-mice and non-human primates revealed a favourable pharmacokinetic profile characterized by rapid TfR-dependent distributional clearance and efficient functional uptake in deep brain structures. This translated into durable target knockdown of 50–80% at both mRNA and protein levels and with ED50 below 1 mg/kg siRNA. Collectively, these findings establish our TfR1 targeting VHHs as a fit-for-purpose platform for the systemic delivery of therapeutic oligonucleotides to deep brain structures at clinically relevant doses, opening new avenues for the treatment of diverse CNS disorders.