A contiguous stretch of methionine residues mediates the energy-dependent internalization mechanism of a cell-penetrating peptide

Youngsoo Kim; Antonietta Lillo; Jason A. Moss; Kim D. Janda

doi:10.1021/mp050035b

A contiguous stretch of methionine residues mediates the energy-dependent internalization mechanism of a cell-penetrating peptide

Youngsoo Kim, Antonietta Lillo, Jason A. Moss, Kim D. Janda

Department of Pharmacy

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Recently we characterized an unusual switch in the internalization mechanism of the monomeric and dimeric forms of the cell-penetrating peptide RDLWEMMMVSLACQY. Here, we observed both energy-dependent and energy-independent modes of peptide uptake by the target B-lymphocytes WI-L2-729HF2, suggesting that higher-order structure might modulate the action of this novel cell-penetrating peptide. In the present work, we propose a possible internalization mechanism for the dimeric peptide which involves an initial interaction with the cell membrane, followed by an energy-dependent internalization process which requires the contiguous Met(6-8) sequence.

Original language	English
Pages (from-to)	528-535
Number of pages	8
Journal	Molecular Pharmaceutics
Volume	2
Issue number	6
DOIs	https://doi.org/10.1021/mp050035b
Publication status	Published - 2005 Nov

All Science Journal Classification (ASJC) codes

Molecular Medicine
Pharmaceutical Science
Drug Discovery

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10.1021/mp050035b

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abstract = "Recently we characterized an unusual switch in the internalization mechanism of the monomeric and dimeric forms of the cell-penetrating peptide RDLWEMMMVSLACQY. Here, we observed both energy-dependent and energy-independent modes of peptide uptake by the target B-lymphocytes WI-L2-729HF2, suggesting that higher-order structure might modulate the action of this novel cell-penetrating peptide. In the present work, we propose a possible internalization mechanism for the dimeric peptide which involves an initial interaction with the cell membrane, followed by an energy-dependent internalization process which requires the contiguous Met(6-8) sequence.",

author = "Youngsoo Kim and Antonietta Lillo and Moss, {Jason A.} and Janda, {Kim D.}",

year = "2005",

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doi = "10.1021/mp050035b",

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T1 - A contiguous stretch of methionine residues mediates the energy-dependent internalization mechanism of a cell-penetrating peptide

AU - Kim, Youngsoo

AU - Lillo, Antonietta

AU - Moss, Jason A.

AU - Janda, Kim D.

PY - 2005/11

Y1 - 2005/11

N2 - Recently we characterized an unusual switch in the internalization mechanism of the monomeric and dimeric forms of the cell-penetrating peptide RDLWEMMMVSLACQY. Here, we observed both energy-dependent and energy-independent modes of peptide uptake by the target B-lymphocytes WI-L2-729HF2, suggesting that higher-order structure might modulate the action of this novel cell-penetrating peptide. In the present work, we propose a possible internalization mechanism for the dimeric peptide which involves an initial interaction with the cell membrane, followed by an energy-dependent internalization process which requires the contiguous Met(6-8) sequence.

AB - Recently we characterized an unusual switch in the internalization mechanism of the monomeric and dimeric forms of the cell-penetrating peptide RDLWEMMMVSLACQY. Here, we observed both energy-dependent and energy-independent modes of peptide uptake by the target B-lymphocytes WI-L2-729HF2, suggesting that higher-order structure might modulate the action of this novel cell-penetrating peptide. In the present work, we propose a possible internalization mechanism for the dimeric peptide which involves an initial interaction with the cell membrane, followed by an energy-dependent internalization process which requires the contiguous Met(6-8) sequence.

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JO - Molecular Pharmaceutics

JF - Molecular Pharmaceutics

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ER -

A contiguous stretch of methionine residues mediates the energy-dependent internalization mechanism of a cell-penetrating peptide

Abstract

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