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Impact of the Endosomal Escape Activity of Cell-Penetrating Peptides on the Endocytic Pathway

Helena M. Kondow-McConaghy, Nandhini Muthukrishnan, Alfredo Erazo‐Oliveras, Kristina Najjar, Rudolph L. Juliano, Jean-Philippe Pellois

2020ACS Chemical Biology40 citationsDOIOpen Access PDF

Abstract

Cell-penetrating peptides (CPPs) are routinely used for the delivery of macromolecules into live human cells. To enter the cytosolic space of cells, CPPs typically permeabilize the membrane of endosomes. In turn, several approaches have been developed to increase the endosomal membrane permeation activity of CPPs so as to improve delivery efficiencies. The endocytic pathway is, however, important in maintaining cellular homeostasis, and understanding how endosomal permeation impacts cells is now critical to define the general utility of CPPs. Herein, we investigate how CPP-based delivery protocols affect the endocytic network. We detect that, in some cases, cell penetration induces the activation of Chmp1b, Galectin-3, and TFEB, which are components of endosomal repair, organelle clearance, and biogenesis pathways, respectively. We also detect that cellular delivery modulates endocytosis and endocytic proteolysis. Remarkably, a multimeric analogue of the prototypical CPP TAT permeabilizes endosomes efficiently without inducing membrane damage responses. These results challenge the notion that reagents that make endosomes leaky are generally toxic. Instead, our data indicates that it is possible to enter cells with minimal deleterious effects.

Topics & Concepts

EndosomeEndocytic cycleEndocytosisCell biologyBiogenesisCytosolLysosomeChemistryCellPinocytosisBiologyIntracellularBiochemistryGeneEnzymeRNA Interference and Gene DeliveryExtracellular vesicles in diseaseAntimicrobial Peptides and Activities