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Branched endosomal disruptor (BEND) lipids mediate delivery of mRNA and CRISPR-Cas9 ribonucleoprotein complex for hepatic gene editing and T cell engineering

Marshall S. Padilla, Kaitlin Mrksich, Yiming Wang, Rebecca M. Haley, Jacqueline J. Li, Emily L. Han, Rakan El‐Mayta, Emily H. Kim, Sofia Dias, Ningqiang Gong, Sridatta V. Teerdhala, Xuexiang Han, Vivek Chowdhary, Lulu Xue, Zain Siddiqui, Hannah M. Yamagata, Dongyoon Kim, Il‐Chul Yoon, James M. Wilson, Ravi Radhakrishnan, Michael J. Mitchell

2025Nature Communications46 citationsDOIOpen Access PDF

Abstract

Lipid nanoparticles (LNPs) are the preeminent non-viral drug delivery vehicle for mRNA-based therapies. Immense effort has been placed on optimizing the ionizable lipid (IL) structure, which contains an amine core conjugated to lipid tails, as small molecular adjustments can result in substantial changes in the overall efficacy of the resulting LNPs. However, despite some advancements, a major barrier for LNP delivery is endosomal escape. Here, we develop a platform for synthesizing a class of branched ILs that improve endosomal escape. These compounds incorporate terminally branched groups that increase hepatic mRNA and ribonucleoprotein complex delivery and gene editing efficiency as well as T cell transfection compared to non-branched lipids. Through an array of complementary experiments, we determine that our lipid architecture induces greater endosomal penetration and disruption. This work provides a scheme to generate a class of ILs for both mRNA and protein delivery. Lipid nanoparticles (LNPs) are the preeminent drug delivery vehicle for mRNA therapies, partially due to the ionizable lipid (IL) components that facilitate endosomal escape. Here, authors devise terminally branched ILs that enhance endosome escape, resulting in increased liver and T cell delivery.

Topics & Concepts

CRISPRGenome editingRibonucleoproteinEndosomeCell biologyCas9Gene deliveryGeneMessenger RNABiologyGene expressionCellGenetic enhancementComputational biologyChemistryGeneticsRNACRISPR and Genetic EngineeringRNA Interference and Gene DeliveryVirus-based gene therapy research
Branched endosomal disruptor (BEND) lipids mediate delivery of mRNA and CRISPR-Cas9 ribonucleoprotein complex for hepatic gene editing and T cell engineering | Litcius