Simple Model of the Transduction of Cell-Penetrating Peptides

Andrews; Bevers; Chen; Datta; Dom; Duchardt; Fischer; Frankel; Grandmaison; Green; Haase; Harbour; Herce; Hosotani; Jiang; K. Cahill; Kuge; Lipinski; Mai; Melikov; Mendoza; O'Shaughnessy; Parsegian; Prochiantz; Rostovtseva; Rothbard; Rothbard; Saito; Snyder; Snyder; Stone; Tang; Tünnemann; Tünnemann; Tünnemann; Tyagi; Voelker; Wadia; Willam; Zhou; Ziegler

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Simple Model of the Transduction of Cell-Penetrating Peptides

Authors: Andrews
Bevers
Chen
Datta
Dom
Duchardt
Fischer
Frankel
Grandmaison
Green
Haase
Harbour
Herce
Hosotani
Jiang
K. Cahill
Kuge
Lipinski
Mai
Melikov
Mendoza
O'Shaughnessy
Parsegian
Prochiantz
Rostovtseva
Rothbard
Rothbard
Saito
Snyder
Snyder
Stone
Tang
Tünnemann
Tünnemann
Tünnemann
Tyagi
Voelker
Wadia
Willam
Zhou
Ziegler
Publication date: 19 September 2010
Publisher: 'Institution of Engineering and Technology (IET)'
Doi

Abstract

Cell-penetrating peptides (CPPs) such as HIV's trans-activating transcriptional activator (TAT) and polyarginine rapidly pass through the plasma membranes of mammalian cells by an unknown mechanism called transduction. They may be medically useful when fused to well-chosen chains of fewer than about 35 amino acids. I offer a simple model of transduction in which phosphatidylserines and CPPs effectively form two plates of a capacitor with a voltage sufficient to cause the formation of transient pores (electroporation). The model is consistent with experimental data on the transduction of oligoarginine into mouse C2-C12 myoblasts and makes three testable predictions.Comment: Seven pages. For a more complete version including the effects of counterions, see arXiv:0810.2358v3 [q-bio.BM

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