Kimberly A. Peck scite author profile

BackgroundExtracellular vesicles (EVs) and exosomes are nano-sized, membrane-bound vesicles shed by most eukaryotic cells studied to date. EVs play key signaling roles in cellular development, cancer metastasis, immune modulation and tissue regeneration. Attempts to modify exosomes to increase their targeting efficiency to specific tissue types are still in their infancy. Here we describe an EV membrane anchoring platform termed “cloaking” to directly embed tissue-specific antibodies or homing peptides on EV membrane surfaces ex vivo for enhanced vesicle uptake in cells of interest. The cloaking system consists of three components: DMPE phospholipid membrane anchor, polyethylene glycol spacer and a conjugated streptavidin platform molecule, to which any biotinylated molecule can be coupled for EV decoration.ResultsWe demonstrate the utility of membrane surface engineering and biodistribution tracking with this technology along with targeting EVs for enhanced uptake in cardiac fibroblasts, myoblasts and ischemic myocardium using combinations of fluorescent tags, tissue-targeting antibodies and homing peptide surface cloaks. We compare cloaking to a complementary approach, surface display, in which parental cells are engineered to secrete EVs with fusion surface targeting proteins.ConclusionsEV targeting can be enhanced both by cloaking and by surface display; the former entails chemical modification of preformed EVs, while the latter requires genetic modification of the parent cells. Reduction to practice of the cloaking approach, using several different EV surface modifications to target distinct cells and tissues, supports the notion of cloaking as a platform technology.Electronic supplementary materialThe online version of this article (10.1186/s12951-018-0388-4) contains supplementary material, which is available to authorized users.

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The impact of preinjury anticoagulants and prescription antiplatelet agents on outcomes in older patients with traumatic brain injury

Peck

Calvo

Schechter

et al. 2014

110

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Delayed Intracranial Hemorrhage After Blunt Trauma: Are Patients on Preinjury Anticoagulants and Prescription Antiplatelet Agents at Risk?

Peck

Sise

Shackford

et al. 2011

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Kimberly A. Peck

Updated guidelines to reduce venous thromboembolism in trauma patients: A Western Trauma Association critical decisions algorithm

Targeting extracellular vesicles to injured tissue using membrane cloaking and surface display

The impact of preinjury anticoagulants and prescription antiplatelet agents on outcomes in older patients with traumatic brain injury

Delayed Intracranial Hemorrhage After Blunt Trauma: Are Patients on Preinjury Anticoagulants and Prescription Antiplatelet Agents at Risk?

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