Literature DB >> 22056915

Calcium phosphate nanoparticles with an asymmetric lipid bilayer coating for siRNA delivery to the tumor.

Jun Li1, Yang Yang, Leaf Huang.   

Abstract

Calcium phosphate (CaP) nanoparticles (NP) with an asymmetric lipid bilayer coating have been designed for targeted delivery of siRNA to the tumor. An anionic lipid, dioleoylphosphatydic acid (DOPA), was employed as the inner leaflet lipid to coat the nano-size CaP cores, which entrap the siRNA, such that the coated cores were soluble in organic solvent. A suitable neutral or cationic lipid was used as the outer leaflet lipid to form an asymmetric lipid bilayer structure verified by the measurement of NP zeta potential. The resulting NP was named LCP-II with a size of about 25 to 30nm in diameter and contained a hollow core as revealed by TEM imaging. PEGylation of NP was done by including a PEG-phospholipid conjugate, with or without a targeting ligand anisamide, in the outer leaflet lipid mixture. The sub-cellular distribution studied in the sigma receptor positive human H460 lung cancer cells indicated that LCP-II could release more cargo to the cytoplasm than our previous lipid/protamine/DNA (LPD) formulation, leading to a significant (~40 fold in vitro and ~4 fold in vivo) improvement in siRNA delivery. Bio-distribution study showed that LCP-II required more PEGylation for MPS evasion than the previous LPD, probably due to increased surface curvature in LCP-II. Copyright Â
© 2011 Elsevier B.V. All rights reserved.

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Year:  2011        PMID: 22056915      PMCID: PMC3288896          DOI: 10.1016/j.jconrel.2011.10.020

Source DB:  PubMed          Journal:  J Control Release        ISSN: 0168-3659            Impact factor:   9.776


  29 in total

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Journal:  Science       Date:  2002-11-29       Impact factor: 47.728

2.  Insertion of poly(ethylene glycol) derivatized phospholipid into pre-formed liposomes results in prolonged in vivo circulation time.

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4.  On the mechanism whereby cationic lipids promote intracellular delivery of polynucleic acids.

Authors:  I M Hafez; N Maurer; P R Cullis
Journal:  Gene Ther       Date:  2001-08       Impact factor: 5.250

5.  Targeted delivery of RNAi therapeutics with endogenous and exogenous ligand-based mechanisms.

Authors:  Akin Akinc; William Querbes; Soma De; June Qin; Maria Frank-Kamenetsky; K Narayanannair Jayaprakash; Muthusamy Jayaraman; Kallanthottathil G Rajeev; William L Cantley; J Robert Dorkin; James S Butler; Liuliang Qin; Timothy Racie; Andrew Sprague; Eugenio Fava; Anja Zeigerer; Michael J Hope; Marino Zerial; Dinah W Y Sah; Kevin Fitzgerald; Mark A Tracy; Muthiah Manoharan; Victor Koteliansky; Antonin de Fougerolles; Martin A Maier
Journal:  Mol Ther       Date:  2010-05-11       Impact factor: 11.454

6.  Anisamide-targeted stealth liposomes: a potent carrier for targeting doxorubicin to human prostate cancer cells.

Authors:  Rajkumar Banerjee; Pradeep Tyagi; Song Li; Leaf Huang
Journal:  Int J Cancer       Date:  2004-11-20       Impact factor: 7.396

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Journal:  Science       Date:  1971-06-25       Impact factor: 47.728

Review 8.  Sterically stabilized liposomes.

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Journal:  Biochim Biophys Acta       Date:  1992-08-14

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Journal:  Biochemistry       Date:  1996-05-07       Impact factor: 3.162

10.  A versatile vector for gene and oligonucleotide transfer into cells in culture and in vivo: polyethylenimine.

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Journal:  Proc Natl Acad Sci U S A       Date:  1995-08-01       Impact factor: 11.205
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  91 in total

1.  Nanoparticles with Precise Ratiometric Co-Loading and Co-Delivery of Gemcitabine Monophosphate and Cisplatin for Treatment of Bladder Cancer.

Authors:  Lei Miao; Shutao Guo; Jing Zhang; William Y Kim; Leaf Huang
Journal:  Adv Funct Mater       Date:  2014-11-12       Impact factor: 18.808

2.  Nanoparticle delivery of pooled siRNA for effective treatment of non-small cell lung cancer.

Authors:  Yang Yang; Yunxia Hu; Yuhua Wang; Jun Li; Feng Liu; Leaf Huang
Journal:  Mol Pharm       Date:  2012-06-22       Impact factor: 4.939

Review 3.  Effect of surface properties on liposomal siRNA delivery.

Authors:  Yuqiong Xia; Jie Tian; Xiaoyuan Chen
Journal:  Biomaterials       Date:  2015-12-02       Impact factor: 12.479

4.  Influence of polyethylene glycol density and surface lipid on pharmacokinetics and biodistribution of lipid-calcium-phosphate nanoparticles.

Authors:  Yang Liu; Yunxia Hu; Leaf Huang
Journal:  Biomaterials       Date:  2014-01-02       Impact factor: 12.479

5.  A window onto siRNA delivery.

Authors:  Yuhua Wang; Leaf Huang
Journal:  Nat Biotechnol       Date:  2013-07       Impact factor: 54.908

Review 6.  Lipid-based vectors for siRNA delivery.

Authors:  Shubiao Zhang; Defu Zhi; Leaf Huang
Journal:  J Drug Target       Date:  2012-09-20       Impact factor: 5.121

7.  Unmodified drug used as a material to construct nanoparticles: delivery of cisplatin for enhanced anti-cancer therapy.

Authors:  Shutao Guo; Lei Miao; Yuhua Wang; Leaf Huang
Journal:  J Control Release       Date:  2013-11-23       Impact factor: 9.776

8.  Systemic delivery of gemcitabine triphosphate via LCP nanoparticles for NSCLC and pancreatic cancer therapy.

Authors:  Yuan Zhang; William Y Kim; Leaf Huang
Journal:  Biomaterials       Date:  2013-02-04       Impact factor: 12.479

Review 9.  Intelligent design of multifunctional lipid-coated nanoparticle platforms for cancer therapy.

Authors:  Srinivas Ramishetti; Leaf Huang
Journal:  Ther Deliv       Date:  2012-12

10.  Reductively Responsive Hydrogel Nanoparticles with Uniform Size, Shape, and Tunable Composition for Systemic siRNA Delivery in Vivo.

Authors:  Da Ma; Shaomin Tian; Jeremy Baryza; J Christopher Luft; Joseph M DeSimone
Journal:  Mol Pharm       Date:  2015-09-04       Impact factor: 4.939
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