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Literature DB >> 19628014

Environmentally responsive peptides as anticancer drug carriers.

Suhaas Aluri¹, Siti M Janib, J Andrew Mackay.

Abstract

The tumor microenvironment provides multiple cues that may be exploited to improve the efficacy of established chemotherapeutics; furthermore, polypeptides are uniquely situated to capitalize on these signals. Peptides provide: 1) a rich repertoire of biologically specific interactions to draw upon; 2) environmentally responsive phase behaviors, which may be tuned to respond to signatures of disease; 3) opportunities to direct self-assembly; 4) control over routes of biodegradation; 5) the option to seamlessly combine functionalities into a single polymer via a one-step biosynthesis. As development of cancer-targeted nanocarriers expands, peptides provide a unique source of functional units that may target disease. This review explores potential microenvironmental physiology indicative of tumors and peptides that have demonstrated an ability to target and deliver to these signals.

Entities: CellLine Chemical Disease Gene Species

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Year: 2009 PMID： 19628014 PMCID： PMC2757494 DOI： 10.1016/j.addr.2009.07.002

Source DB: PubMed Journal: Adv Drug Deliv Rev ISSN： 0169-409X Impact factor: 15.470

142 in total

1. Temperature triggered self-assembly of polypeptides into multivalent spherical micelles.

Authors: Matthew R Dreher; Andrew J Simnick; Karl Fischer; Richard J Smith; Anand Patel; Manfred Schmidt; Ashutosh Chilkoti
Journal: J Am Chem Soc Date: 2007-12-18 Impact factor: 15.419

2. Matrix metalloproteinase-assisted triggered release of liposomal contents.

Authors: Nihar Sarkar; Jayati Banerjee; Andrea J Hanson; Adekunle I Elegbede; Theresa Rosendahl; Aaron B Krueger; Abir L Banerjee; Shakila Tobwala; Rongying Wang; Xiaoning Lu; Sanku Mallik; D K Srivastava
Journal: Bioconjug Chem Date: 2007-12-14 Impact factor: 4.774

3. HIV TAT peptide modifies the distribution of DNA nanolipoparticles following convection-enhanced delivery.

Authors: J Andrew MacKay; Weijun Li; Zhaohua Huang; Edward E Dy; Grace Huynh; Tarik Tihan; Rodney Collins; Dennis F Deen; Francis C Szoka
Journal: Mol Ther Date: 2008-03-11 Impact factor: 11.454

4. Peptide ligand-mediated liposome distribution and targeting to EGFR expressing tumor in vivo.

Authors: Shuxian Song; Dan Liu; Jinliang Peng; Ye Sun; Zonghai Li; Jian-Ren Gu; Yuhong Xu
Journal: Int J Pharm Date: 2008-07-23 Impact factor: 5.875

Review 5. The neovasculature homing motif NGR: more than meets the eye.

Authors: Angelo Corti; Flavio Curnis; Wadih Arap; Renata Pasqualini
Journal: Blood Date: 2008-06-23 Impact factor: 22.113

Review 6. Protein nanoparticles as drug carriers in clinical medicine.

Authors: Michael J Hawkins; Patrick Soon-Shiong; Neil Desai
Journal: Adv Drug Deliv Rev Date: 2008-02-07 Impact factor: 15.470

Review 7. pH-responsive nanoparticles for cancer drug delivery.

Authors: Youqing Shen; Huadong Tang; Maciej Radosz; Edward Van Kirk; William J Murdoch
Journal: Methods Mol Biol Date: 2008

8. Nab-paclitaxel efficacy in the orthotopic model of human breast cancer is significantly enhanced by concurrent anti-vascular endothelial growth factor A therapy.

Authors: Lisa D Volk; Michael J Flister; Christopher M Bivens; Alan Stutzman; Neil Desai; Vuong Trieu; Sophia Ran
Journal: Neoplasia Date: 2008-06 Impact factor: 5.715

9. Extracellular redox state regulates features associated with prostate cancer cell invasion.

Authors: Luksana Chaiswing; Weixiong Zhong; Joseph J Cullen; Larry W Oberley; Terry D Oberley
Journal: Cancer Res Date: 2008-07-15 Impact factor: 12.701

10. Selective synthesis of double temperature-sensitive polymer-peptide conjugates.

Authors: Florentina Stoica; Cameron Alexander; Nicola Tirelli; Aline F Miller; Alberto Saiani
Journal: Chem Commun (Camb) Date: 2008-07-16 Impact factor: 6.222

22 in total

1. Predicting effects of blood flow rate and size of vessels in a vasculature on hyperthermia treatments using computer simulation.

Authors: Huang-Wen Huang; Tzu-Ching Shih; Chihng-Tsung Liauh
Journal: Biomed Eng Online Date: 2010-03-26 Impact factor: 2.819

2. Biodegradation of elastin-like polypeptide nanoparticles.

Authors: Mihir Shah; Pang-Yu Hsueh; Guoyong Sun; Ho Yon Chang; Siti M Janib; J Andrew MacKay
Journal: Protein Sci Date: 2012-05-14 Impact factor: 6.725

3. Ligand-decorated nanogels: fast one-pot synthesis and cellular targeting.

Authors: Ja-Hyoung Ryu; Sean Bickerton; Jiaming Zhuang; S Thayumanavan
Journal: Biomacromolecules Date: 2012-04-11 Impact factor: 6.988

4. Bifunctional Elastin-like Polypeptide Nanoparticles Bind Rapamycin and Integrins and Suppress Tumor Growth in Vivo.

Authors: Jugal P Dhandhukia; Pu Shi; Santosh Peddi; Zhe Li; Suhaas Aluri; Yaping Ju; Dab Brill; Wan Wang; Siti M Janib; Yi-An Lin; Shuanglong Liu; Honggang Cui; J Andrew MacKay
Journal: Bioconjug Chem Date: 2017-10-12 Impact factor: 4.774

Review 5. Engineering structure and function using thermoresponsive biopolymers.

Authors: Martha K Pastuszka; J Andrew MacKay
Journal: Wiley Interdiscip Rev Nanomed Nanobiotechnol Date: 2015-06-26

6. Elastin-like peptide amphiphiles form nanofibers with tunable length.

Authors: Suhaas Aluri; Martha K Pastuszka; Ara S Moses; J Andrew MacKay
Journal: Biomacromolecules Date: 2012-08-21 Impact factor: 6.988

7. Structural transformation and physical properties of a hydrogel-forming peptide studied by NMR, transmission electron microscopy, and dynamic rheometer.

Authors: Hongzhou Huang; Alvaro I Herrera; Zhiping Luo; Om Prakash; Xiuzhi S Sun
Journal: Biophys J Date: 2012-09-05 Impact factor: 4.033