Literature DB >> 22805558

Tumour lineage-homing cell-penetrating peptides as anticancer molecular delivery systems.

Eisaku Kondo1, Ken Saito, Yuichi Tashiro, Kaeko Kamide, Shusei Uno, Tomoko Furuya, Masao Mashita, Kiichiro Nakajima, Tomoyuki Tsumuraya, Naoya Kobayashi, Masahiro Nishibori, Mitsune Tanimoto, Masayuki Matsushita.   

Abstract

Cell-penetrating peptides have gained attention owing to their promise in noninvasive delivery systems. Among the identified cell-penetrating peptides, the TAT peptide has been preferentially used for transduction into cells of diverse origins. However, this activity is nonselective between neoplastic and non-neoplastic cells. Here we describe artificial cell-penetrating peptides that are selectively and efficiently incorporated into human tumour cells, according to their lineage. Ten representative tumour lineage-homing cell-penetrating peptides were obtained by screening of a random peptide library constructed using messenger RNA display technology, and some of the isolates were further modified by amino-acid substitution. Their advantageous tumour cell-targeting ability is corroborated in an in vivo mouse model for imaging and growth suppression of metastatic xenoplant tumours. These cell-penetrating peptides are potentially useful for the efficient targeting of human neoplasms in a tumour origin-dependent manner, and provide a framework for the development of peptide-based anti-tumour technologies.

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Year:  2012        PMID: 22805558     DOI: 10.1038/ncomms1952

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


  27 in total

Review 1.  Totally in vitro protein selection using mRNA-protein fusions and ribosome display.

Authors:  R W Roberts
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2.  Dynasore, a cell-permeable inhibitor of dynamin.

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Review 3.  Delivery of proteins and nucleic acids using a non-covalent peptide-based strategy.

Authors:  Sébastien Deshayes; May Morris; Frédéric Heitz; Gilles Divita
Journal:  Adv Drug Deliv Rev       Date:  2007-10-25       Impact factor: 15.470

Review 4.  TAT transduction: the molecular mechanism and therapeutic prospects.

Authors:  Jacob M Gump; Steven F Dowdy
Journal:  Trends Mol Med       Date:  2007-10       Impact factor: 11.951

5.  Transduction of full-length TAT fusion proteins into mammalian cells: TAT-p27Kip1 induces cell migration.

Authors:  H Nagahara; A M Vocero-Akbani; E L Snyder; A Ho; D G Latham; N A Lissy; M Becker-Hapak; S A Ezhevsky; S F Dowdy
Journal:  Nat Med       Date:  1998-12       Impact factor: 53.440

6.  Methylation of the p16 gene is frequently detected in lymphatic-invasive gastric cancer.

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Journal:  Anticancer Res       Date:  2010-07       Impact factor: 2.480

7.  Cloning of a novel scavenger receptor cysteine-rich type I transmembrane molecule (M160) expressed by human macrophages.

Authors:  J Gronlund; L Vitved; M Lausen; K Skjodt; U Holmskov
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8.  p16(INK4a) gene inactivation by deletions, mutations, and hypermethylation is associated with transformed and aggressive variants of non-Hodgkin's lymphomas.

Authors:  M Pinyol; F Cobo; S Bea; P Jares; I Nayach; P L Fernandez; E Montserrat; A Cardesa; E Campo
Journal:  Blood       Date:  1998-04-15       Impact factor: 22.113

9.  Isolation of novel cell-penetrating peptides from a random peptide library using in vitro virus and their modifications.

Authors:  Kaeko Kamide; Hiroshi Nakakubo; Shusei Uno; Akiyoshi Fukamizu
Journal:  Int J Mol Med       Date:  2010-01       Impact factor: 4.101

10.  Inactivation of the CDKN2/p16/MTS1 gene is frequently associated with aberrant DNA methylation in all common human cancers.

Authors:  J G Herman; A Merlo; L Mao; R G Lapidus; J P Issa; N E Davidson; D Sidransky; S B Baylin
Journal:  Cancer Res       Date:  1995-10-15       Impact factor: 12.701
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  32 in total

1.  Cell-penetrating peptides: Possible transduction mechanisms and therapeutic applications.

Authors:  Zhengrong Guo; Huanyan Peng; Jiwen Kang; Dianxing Sun
Journal:  Biomed Rep       Date:  2016-03-23

2.  Helical Poly(arginine) Mimics with Superior Cell-Penetrating and Molecular Transporting Properties.

Authors:  Haoyu Tang; Lichen Yin; Kyung Hoon Kim; Jianjun Cheng
Journal:  Chem Sci       Date:  2013-10       Impact factor: 9.825

Review 3.  Pharmacokinetics of inhaled nanotherapeutics for pulmonary delivery.

Authors:  Andrew M Shen; Tamara Minko
Journal:  J Control Release       Date:  2020-07-16       Impact factor: 9.776

Review 4.  Cell-penetrating peptides improve pharmacokinetics and pharmacodynamics of anticancer drugs.

Authors:  Izabela Rusiecka; Iwona Gągało; Ivan Kocić
Journal:  Tissue Barriers       Date:  2021-08-17

Review 5.  Cellular Delivery of RNA Nanoparticles.

Authors:  Lorena Parlea; Anu Puri; Wojciech Kasprzak; Eckart Bindewald; Paul Zakrevsky; Emily Satterwhite; Kenya Joseph; Kirill A Afonin; Bruce A Shapiro
Journal:  ACS Comb Sci       Date:  2016-08-26       Impact factor: 3.784

Review 6.  Mechanism Matters: A Taxonomy of Cell Penetrating Peptides.

Authors:  W Berkeley Kauffman; Taylor Fuselier; Jing He; William C Wimley
Journal:  Trends Biochem Sci       Date:  2015-11-03       Impact factor: 13.807

7.  Novel cell-penetrating-amyloid peptide conjugates preferentially kill cancer cells.

Authors:  John R Veloria; Luxi Chen; Lin Li; Gail A M Breen; Jiyong Lee; Warren J Goux
Journal:  Medchemcomm       Date:  2017-12-05       Impact factor: 3.597

8.  COPA and SLC4A4 are required for cellular entry of arginine-rich peptides.

Authors:  Tomoyuki Tsumuraya; Masayuki Matsushita
Journal:  PLoS One       Date:  2014-01-28       Impact factor: 3.240

9.  In Vitro and In Vivo Cell Uptake of a Cell-Penetrating Peptide Conjugated with Fluorescent Dyes Having Different Chemical Properties.

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Journal:  Cancers (Basel)       Date:  2021-05-07       Impact factor: 6.639

10.  Development of Next-Generation Peptide Binders Using In vitro Display Technologies and Their Potential Applications.

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Journal:  Front Immunol       Date:  2013-08-01       Impact factor: 7.561
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