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Allosteric targeted drug delivery for enhanced blood-brain barrier penetration via mimicking transmembrane domain interactions

Kaicheng Tang, Zhongjie Tang, Miaomiao Niu, Zuyin Kuang, Weiwei Xue, Xinyu Wang, Xinlong Liu, Yang Yu, Seong Dong Jeong, Yifan Ma, Annette Wu, Betty Y.S. Kim, Wen Jiang, Zhaogang Yang, Chong Li

2025Nature Communications25 citationsDOIOpen Access PDF

Abstract

Current strategies for active targeting in the brain are entirely based on the effective interaction of the ligand with the orthosteric sites of specific receptors on the blood-brain barrier (BBB), which is highly susceptible to various pathophysiological factors and limits the efficacy of drug delivery. Here, we propose an allosteric targeted drug delivery strategy that targets classical BBB transmembrane receptors by designing peptide ligands that specifically bind to their transmembrane domains. This strategy prevents competitive interference from endogenous ligands and antibodies by using the insulin receptor and integrin αv as model targets, respectively, and can effectively overcome pseudotargets or target loss caused by shedding or mutating the extracellular domain of target receptors. Moreover, these ligands can be spontaneously embedded in the phospholipid layer of lipid carriers using a plug-and-play approach without chemical modification, with excellent tunability and immunocompatibility. Overall, this allosteric targeted drug delivery strategy can be applied to multiple receptor targets and drug carriers and offers promising therapeutic benefits in brain diseases. Current brain-targeted delivery strategies using orthosteric sites of receptors is highly susceptible to cross-reactions limiting efficiency. Here, the authors report on the allosteric targeting of receptors to avoid this and demonstrate application in drug delivery across the blood brain barrier.

Topics & Concepts

Allosteric regulationBlood–brain barrierTargeted drug deliveryDrug deliveryTransmembrane domainReceptorTransmembrane proteinDrugDrug discoveryChemistryCell biologyPharmacologyBiophysicsBiologyBiochemistryNeuroscienceOrganic chemistryCentral nervous systemRNA Interference and Gene DeliveryLipid Membrane Structure and BehaviorAdvanced biosensing and bioanalysis techniques