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Cancer immune therapy using engineered ‛tail-flipping’ nanoliposomes targeting alternatively activated macrophages

Praneeth R. Kuninty, Karin Binnemars‐Postma, Ahmed Jarray, Kunal Pednekar, Marcel Alexander Heinrich, Helen J. Pijffers, Hetty ten Hoopen, Gert Storm, Peter van Hoogevest, Wouter K. den Otter, Jai Prakash

2022Nature Communications59 citationsDOIOpen Access PDF

Abstract

Alternatively-activated, M2-like tumor-associated macrophages (TAM) strongly contribute to tumor growth, invasiveness and metastasis. Technologies to disable the pro-tumorigenic function of these TAMs are of high interest to immunotherapy research. Here we show that by designing engineered nanoliposomes bio-mimicking peroxidated phospholipids that are recognised and internalised by scavenger receptors, TAMs can be targeted. Incorporation of phospholipids possessing a terminal carboxylate group at the sn-2 position into nanoliposome bilayers drives their uptake by M2 macrophages with high specificity. Molecular dynamics simulation of the lipid bilayer predicts flipping of the sn-2 tail towards the aqueous phase, while molecular docking data indicates interaction of the tail with Scavenger Receptor Class B type 1 (SR-B1). In vivo, the engineered nanoliposomes are distributed specifically to M2-like macrophages and, upon delivery of the STAT6 inhibitor (AS1517499), zoledronic acid or muramyl tripeptide, these cells promote reduction of the premetastatic niche and/or tumor growth. Altogether, we demonstrate the efficiency and versatility of our engineered "tail-flipping" nanoliposomes in a pre-clinical model, which paves the way to their development as cancer immunotherapeutics in humans.

Topics & Concepts

Scavenger receptorLiposomeIn vivoImmune systemBiotinylationCancer immunotherapyCancer researchChemistryCell biologyBiophysicsImmunotherapyBiologyBiochemistryImmunologyLipoproteinCholesterolBiotechnologyImmune cells in cancerPhagocytosis and Immune RegulationImmunotherapy and Immune Responses
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