Literature DB >> 18829396

Targeting of albumin-embedded paclitaxel nanoparticles to tumors.

Priya Prakash Karmali1, Venkata Ramana Kotamraju, Mark Kastantin, Matthew Black, Dimitris Missirlis, Matthew Tirrell, Erkki Ruoslahti.   

Abstract

We have used tumor-homing peptides to target abraxane, a clinically approved paclitaxel-albumin nanoparticle, to tumors in mice. The targeting was accomplished with two peptides, CREKA and LyP-1 (CGNKRTRGC). Fluorescein (FAM)-labeled CREKA-abraxane, when injected intravenously into mice bearing MDA-MB-435 human cancer xenografts, accumulated in tumor blood vessels, forming aggregates that contained red blood cells and fibrin. FAM-LyP-1-abraxane co-localized with extravascular islands expressing its receptor, p32. Self-assembled mixed micelles carrying the homing peptide and the label on different subunits accumulated in the same areas of tumors as LyP-1-abraxane, showing that Lyp-1 can deliver intact nanoparticles into extravascular sites. Untargeted, FAM-abraxane was detected in the form of a faint meshwork in tumor interstitium. LyP-1-abraxane produced a statistically highly significant inhibition of tumor growth compared with untargeted abraxane. These results show that nanoparticles can be effectively targeted into extravascular tumor tissue and that targeting can enhance the activity of a therapeutic nanoparticle.

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Year:  2008        PMID: 18829396      PMCID: PMC2824435          DOI: 10.1016/j.nano.2008.07.007

Source DB:  PubMed          Journal:  Nanomedicine        ISSN: 1549-9634            Impact factor:   5.307


  29 in total

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3.  Magnetic Iron Oxide Nanoworms for Tumor Targeting and Imaging.

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4.  Biomimetic amplification of nanoparticle homing to tumors.

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Journal:  Proc Natl Acad Sci U S A       Date:  2007-01-10       Impact factor: 11.205

5.  Phase III trial of nanoparticle albumin-bound paclitaxel compared with polyethylated castor oil-based paclitaxel in women with breast cancer.

Authors:  William J Gradishar; Sergei Tjulandin; Neville Davidson; Heather Shaw; Neil Desai; Paul Bhar; Michael Hawkins; Joyce O'Shaughnessy
Journal:  J Clin Oncol       Date:  2005-09-19       Impact factor: 44.544

6.  Detailed structure of hairy mixed micelles formed by phosphatidylcholine and PEGylated phospholipids in aqueous media.

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Review 7.  High interstitial fluid pressure - an obstacle in cancer therapy.

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8.  Progressive vascular changes in a transgenic mouse model of squamous cell carcinoma.

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Review 9.  Hypoxia-driven selection of the metastatic phenotype.

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Journal:  Cancer Metastasis Rev       Date:  2007-06       Impact factor: 9.264

10.  In vivo tumor cell targeting with "click" nanoparticles.

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Journal:  Bioconjug Chem       Date:  2008-07-09       Impact factor: 4.774
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  76 in total

1.  Targeted nanogels: a versatile platform for drug delivery to tumors.

Authors:  Eric A Murphy; Bharat K Majeti; Rajesh Mukthavaram; Lisette M Acevedo; Leo A Barnes; David A Cheresh
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Review 2.  Nanoparticle-based drug delivery: case studies for cancer and cardiovascular applications.

Authors:  Paul Galvin; Damien Thompson; Katie B Ryan; Anna McCarthy; Anne C Moore; Conor S Burke; Maya Dyson; Brian D Maccraith; Yurii K Gun'ko; Michelle T Byrne; Yuri Volkov; Chris Keely; Enda Keehan; Michael Howe; Conor Duffy; Ronan MacLoughlin
Journal:  Cell Mol Life Sci       Date:  2011-10-21       Impact factor: 9.261

Review 3.  Peptides in cancer nanomedicine: drug carriers, targeting ligands and protease substrates.

Authors:  Xiao-Xiang Zhang; Henry S Eden; Xiaoyuan Chen
Journal:  J Control Release       Date:  2011-10-26       Impact factor: 9.776

4.  Efficient overcoming of drug resistance to anticancer nucleoside analogs by nanodelivery of active phosphorylated drugs.

Authors:  Carlos M Galmarini; Galya Warren; Madapathage T Senanayake; Serguei V Vinogradov
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Review 5.  Combinatorial peptide libraries: mining for cell-binding peptides.

Authors:  Bethany Powell Gray; Kathlynn C Brown
Journal:  Chem Rev       Date:  2013-12-03       Impact factor: 60.622

6.  Preclinical development of drug delivery systems for paclitaxel-based cancer chemotherapy.

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Journal:  J Control Release       Date:  2017-09-25       Impact factor: 9.776

7.  Leveraging Surface Plasmon Resonance to Dissect the Interfacial Properties of Nanoparticles: Implications for Tissue Binding and Tumor Penetration.

Authors:  Aniket S Wadajkar; Jimena G Dancy; Christine P Carney; Brian S Hampton; Heather M Ames; Jeffrey A Winkles; Graeme F Woodworth; Anthony J Kim
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Review 8.  Intelligent design of multifunctional lipid-coated nanoparticle platforms for cancer therapy.

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9.  Cooperative nanomaterial system to sensitize, target, and treat tumors.

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Journal:  Proc Natl Acad Sci U S A       Date:  2009-12-28       Impact factor: 11.205

10.  Tissue-penetrating delivery of compounds and nanoparticles into tumors.

Authors:  Kazuki N Sugahara; Tambet Teesalu; Priya Prakash Karmali; Venkata Ramana Kotamraju; Lilach Agemy; Olivier M Girard; Douglas Hanahan; Robert F Mattrey; Erkki Ruoslahti
Journal:  Cancer Cell       Date:  2009-12-08       Impact factor: 31.743
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