Literature DB >> 23241654

Synthetic nanoparticles functionalized with biomimetic leukocyte membranes possess cell-like functions.

Alessandro Parodi1, Nicoletta Quattrocchi, Anne L van de Ven, Ciro Chiappini, Michael Evangelopoulos, Jonathan O Martinez, Brandon S Brown, Sm Z Khaled, Iman K Yazdi, Maria Vittoria Enzo, Lucas Isenhart, Mauro Ferrari, Ennio Tasciotti.   

Abstract

The therapeutic efficacy of systemic drug-delivery vehicles depends on their ability to evade the immune system, cross the biological barriers of the body and localize at target tissues. White blood cells of the immune system--known as leukocytes--possess all of these properties and exert their targeting ability through cellular membrane interactions. Here, we show that nanoporous silicon particles can successfully perform all these actions when they are coated with cellular membranes purified from leukocytes. These hybrid particles, called leukolike vectors, can avoid being cleared by the immune system. Furthermore, they can communicate with endothelial cells through receptor-ligand interactions, and transport and release a payload across an inflamed reconstructed endothelium. Moreover, leukolike vectors retained their functions when injected in vivo, showing enhanced circulation time and improved accumulation in a tumour.

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Year:  2012        PMID: 23241654      PMCID: PMC3751189          DOI: 10.1038/nnano.2012.212

Source DB:  PubMed          Journal:  Nat Nanotechnol        ISSN: 1748-3387            Impact factor:   39.213


  48 in total

1.  Cationic charge determines the distribution of liposomes between the vascular and extravascular compartments of tumors.

Authors:  Robert B Campbell; Dai Fukumura; Edward B Brown; Laureen M Mazzola; Yotaro Izumi; Rakesh K Jain; Vladimir P Torchilin; Lance L Munn
Journal:  Cancer Res       Date:  2002-12-01       Impact factor: 12.701

Review 2.  New aspects of the molecular constituents of tissue barriers.

Authors:  H C Bauer; A Traweger; J Zweimueller-Mayer; C Lehner; H Tempfer; I Krizbai; I Wilhelm; H Bauer
Journal:  J Neural Transm (Vienna)       Date:  2010-09-24       Impact factor: 3.575

Review 3.  Drug-loaded nanocarriers: passive targeting and crossing of biological barriers.

Authors:  J M Rabanel; V Aoun; I Elkin; M Mokhtar; P Hildgen
Journal:  Curr Med Chem       Date:  2012       Impact factor: 4.530

Review 4.  Opsonization, biodistribution, and pharmacokinetics of polymeric nanoparticles.

Authors:  Donald E Owens; Nicholas A Peppas
Journal:  Int J Pharm       Date:  2005-11-21       Impact factor: 5.875

Review 5.  What does physics have to do with cancer?

Authors:  Franziska Michor; Jan Liphardt; Mauro Ferrari; Jonathan Widom
Journal:  Nat Rev Cancer       Date:  2011-08-18       Impact factor: 60.716

6.  Tailored porous silicon microparticles: fabrication and properties.

Authors:  Ciro Chiappini; Ennio Tasciotti; Jean R Fakhoury; Daniel Fine; Lee Pullan; Young-Chung Wang; Lianfeng Fu; Xuewu Liu; Mauro Ferrari
Journal:  Chemphyschem       Date:  2010-04-06       Impact factor: 3.102

Review 7.  Nanotechnology for breast cancer therapy.

Authors:  Takemi Tanaka; Paolo Decuzzi; Massimo Cristofanilli; Jason H Sakamoto; Ennio Tasciotti; Fredika M Robertson; Mauro Ferrari
Journal:  Biomed Microdevices       Date:  2009-02       Impact factor: 2.838

Review 8.  Nanoparticle therapeutics: an emerging treatment modality for cancer.

Authors:  Mark E Davis; Zhuo Georgia Chen; Dong M Shin
Journal:  Nat Rev Drug Discov       Date:  2008-09       Impact factor: 84.694

9.  A new concept for macromolecular therapeutics in cancer chemotherapy: mechanism of tumoritropic accumulation of proteins and the antitumor agent smancs.

Authors:  Y Matsumura; H Maeda
Journal:  Cancer Res       Date:  1986-12       Impact factor: 12.701

10.  Nanoparticles that communicate in vivo to amplify tumour targeting.

Authors:  Geoffrey von Maltzahn; Ji-Ho Park; Kevin Y Lin; Neetu Singh; Christian Schwöppe; Rolf Mesters; Wolfgang E Berdel; Erkki Ruoslahti; Michael J Sailor; Sangeeta N Bhatia
Journal:  Nat Mater       Date:  2011-06-19       Impact factor: 43.841
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  217 in total

1.  Virus-mimetic nanovesicles as a versatile antigen-delivery system.

Authors:  Pengfei Zhang; Yixin Chen; Yun Zeng; Chenguang Shen; Rui Li; Zhide Guo; Shaowei Li; Qingbing Zheng; Chengchao Chu; Zhantong Wang; Zizheng Zheng; Rui Tian; Shengxiang Ge; Xianzhong Zhang; Ning-Shao Xia; Gang Liu; Xiaoyuan Chen
Journal:  Proc Natl Acad Sci U S A       Date:  2015-10-26       Impact factor: 11.205

Review 2.  Drug carrier interaction with blood: a critical aspect for high-efficient vascular-targeted drug delivery systems.

Authors:  Daniel J Sobczynski; Margaret B Fish; Catherine A Fromen; Mariana Carasco-Teja; Rhima M Coleman; Omolola Eniola-Adefeso
Journal:  Ther Deliv       Date:  2015-08-14

3.  Biohybrid Nanosystems for Cancer Treatment: Merging the Best of Two Worlds.

Authors:  Flavia Fontana; Raquél Bartolo; Hélder A Santos
Journal:  Adv Exp Med Biol       Date:  2021       Impact factor: 2.622

Review 4.  Engineering biological interactions on the nanoscale.

Authors:  Yao Jiang; Sanam Chekuri; Ronnie H Fang; Liangfang Zhang
Journal:  Curr Opin Biotechnol       Date:  2018-11-01       Impact factor: 9.740

Review 5.  Bioinspired Shielding Strategies for Nanoparticle Drug Delivery Applications.

Authors:  Neetu M Gulati; Phoebe L Stewart; Nicole F Steinmetz
Journal:  Mol Pharm       Date:  2018-05-15       Impact factor: 4.939

6.  Liposome-like Nanostructures for Drug Delivery.

Authors:  Weiwei Gao; Che-Ming J Hu; Ronnie H Fang; Liangfang Zhang
Journal:  J Mater Chem B       Date:  2013-12-28       Impact factor: 6.331

7.  P-selectin is a nanotherapeutic delivery target in the tumor microenvironment.

Authors:  Yosi Shamay; Moshe Elkabets; Hongyan Li; Janki Shah; Samuel Brook; Feng Wang; Keren Adler; Emily Baut; Maurizio Scaltriti; Prakrit V Jena; Eric E Gardner; John T Poirier; Charles M Rudin; José Baselga; Adriana Haimovitz-Friedman; Daniel A Heller
Journal:  Sci Transl Med       Date:  2016-06-29       Impact factor: 17.956

Review 8.  Nanoparticle design strategies for enhanced anticancer therapy by exploiting the tumour microenvironment.

Authors:  Yunlu Dai; Can Xu; Xiaolian Sun; Xiaoyuan Chen
Journal:  Chem Soc Rev       Date:  2017-05-18       Impact factor: 54.564

9.  Immobilized surfactant-nanotube complexes support selectin-mediated capture of viable circulating tumor cells in the absence of capture antibodies.

Authors:  Michael J Mitchell; Carlos A Castellanos; Michael R King
Journal:  J Biomed Mater Res A       Date:  2015-03-30       Impact factor: 4.396

10.  Adjuvant-Loaded Subcellular Vesicles Derived From Disrupted Cancer Cells for Cancer Vaccination.

Authors:  Alexander S Cheung; Sandeep T Koshy; Alexander G Stafford; Maartje M C Bastings; David J Mooney
Journal:  Small       Date:  2016-03-08       Impact factor: 13.281
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