Literature DB >> 27728811

Nanoparticles camouflaged in platelet membrane coating as an antibody decoy for the treatment of immune thrombocytopenia.

Xiaoli Wei1,2, Jie Gao1,2, Ronnie H Fang1, Brian T Luk1, Ashley V Kroll1, Diana Dehaini1, Jiarong Zhou1, Hyeon Woo Kim1, Weiwei Gao1, Weiyue Lu2, Liangfang Zhang1.   

Abstract

Immune thrombocytopenia purpura (ITP) is characterized by the production of pathological autoantibodies that cause reduction in platelet counts. The disease can have serious medical consequences, leading to uncontrolled bleeding that can be fatal. Current widely used therapies for the treatment of ITP are non-specific and can, at times, result in complications that are more burdensome than the disease itself. In the present study, the use of platelet membrane-coated nanoparticles (PNPs) as a platform for the specific clearance of anti-platelet antibodies is explored. The nanoparticles, whose outer layer displays the full complement of native platelet surface proteins, act as decoys that strongly bind pathological anti-platelet antibodies in order to minimize disease burden. Here, we study the antibody binding properties of PNPs and assess the ability of the nanoparticles to neutralize antibody activity both in vitro and in vivo. Ultimately, we leverage the neutralization capacity of PNPs to therapeutically treat a murine model of antibody-induced thrombocytopenia and demonstrate considerable efficacy as shown in a bleeding time assay. PNPs represent a promising platform for the specific treatment of antibody-mediated immune thrombocytopenia by acting as an alternative target for anti-platelet antibodies, thus preserving circulating platelets with the potential of leaving broader immune function intact.
Copyright © 2016 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  Antibody decoy; Autoimmune disease; Biomimetic nanoparticle; Nanosponge; Platelet membrane-coated nanoparticle

Mesh:

Substances:

Year:  2016        PMID: 27728811      PMCID: PMC5082416          DOI: 10.1016/j.biomaterials.2016.10.003

Source DB:  PubMed          Journal:  Biomaterials        ISSN: 0142-9612            Impact factor:   12.479


  37 in total

1.  Treatment with liposome-encapsulated clodronate as a new strategic approach in the management of immune thrombocytopenic purpura in a mouse model.

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Journal:  Blood       Date:  2000-10-15       Impact factor: 22.113

2.  AMG 531, a thrombopoiesis-stimulating protein, for chronic ITP.

Authors:  James B Bussel; David J Kuter; James N George; Robert McMillan; Louis M Aledort; George T Conklin; Alan E Lichtin; Roger M Lyons; Jorge Nieva; Jeffrey S Wasser; Israel Wiznitzer; Reggie Kelly; Chien-Feng Chen; Janet L Nichol
Journal:  N Engl J Med       Date:  2006-10-19       Impact factor: 91.245

3.  Standardization of terminology, definitions and outcome criteria in immune thrombocytopenic purpura of adults and children: report from an international working group.

Authors:  Francesco Rodeghiero; Roberto Stasi; Terry Gernsheimer; Marc Michel; Drew Provan; Donald M Arnold; James B Bussel; Douglas B Cines; Beng H Chong; Nichola Cooper; Bertrand Godeau; Klaus Lechner; Maria Gabriella Mazzucconi; Robert McMillan; Miguel A Sanz; Paul Imbach; Victor Blanchette; Thomas Kühne; Marco Ruggeri; James N George
Journal:  Blood       Date:  2008-11-12       Impact factor: 22.113

4.  Erythrocyte membrane-camouflaged polymeric nanoparticles as a biomimetic delivery platform.

Authors:  Che-Ming J Hu; Li Zhang; Santosh Aryal; Connie Cheung; Ronnie H Fang; Liangfang Zhang
Journal:  Proc Natl Acad Sci U S A       Date:  2011-06-20       Impact factor: 11.205

Review 5.  How I treat immune thrombocytopenia: the choice between splenectomy or a medical therapy as a second-line treatment.

Authors:  Waleed Ghanima; Bertrand Godeau; Douglas B Cines; James B Bussel
Journal:  Blood       Date:  2012-06-26       Impact factor: 22.113

6.  High-dose intravenous IgG in adults with autoimmune thrombocytopenia.

Authors:  B Rowbotham; R L Brearley
Journal:  Lancet       Date:  1983-02-19       Impact factor: 79.321

7.  Quick synthesis of lipid-polymer hybrid nanoparticles with low polydispersity using a single-step sonication method.

Authors:  Ronnie H Fang; Santosh Aryal; Che-Ming Jack Hu; Liangfang Zhang
Journal:  Langmuir       Date:  2010-10-20       Impact factor: 3.882

8.  The efficacy and safety of B-cell depletion with anti-CD20 monoclonal antibody in adults with chronic immune thrombocytopenic purpura.

Authors:  Nichola Cooper; Roberto Stasi; Susanna Cunningham-Rundles; Michael A Feuerstein; John P Leonard; Sergio Amadori; James B Bussel
Journal:  Br J Haematol       Date:  2004-04       Impact factor: 6.998

Review 9.  Cellular immune mechanisms in autoimmune thrombocytopenic purpura: An update.

Authors:  Malini D Coopamah; M Bernadette Garvey; John Freedman; John W Semple
Journal:  Transfus Med Rev       Date:  2003-01

Review 10.  The epidemiology of immune thrombocytopenic purpura.

Authors:  Patrick F Fogarty; Jodi B Segal
Journal:  Curr Opin Hematol       Date:  2007-09       Impact factor: 3.284
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  37 in total

Review 1.  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 2.  Biomimetic nanoparticle technology for cardiovascular disease detection and treatment.

Authors:  Joon Ho Park; Diana Dehaini; Jiarong Zhou; Maya Holay; Ronnie H Fang; Liangfang Zhang
Journal:  Nanoscale Horiz       Date:  2019-06-28       Impact factor: 10.989

3.  Advances in targeted nanotherapeutics: From bioconjugation to biomimicry.

Authors:  Danielle M Valcourt; Jenna Harris; Rachel S Riley; Megan Dang; Jianxin Wang; Emily S Day
Journal:  Nano Res       Date:  2018-05-17       Impact factor: 8.897

Review 4.  Biomimetic Nanotechnology toward Personalized Vaccines.

Authors:  Jiarong Zhou; Ashley V Kroll; Maya Holay; Ronnie H Fang; Liangfang Zhang
Journal:  Adv Mater       Date:  2019-06-17       Impact factor: 30.849

Review 5.  Biointerfacing and Applications of Cell Membrane-Coated Nanoparticles.

Authors:  Ashley V Kroll; Ronnie H Fang; Liangfang Zhang
Journal:  Bioconjug Chem       Date:  2016-11-16       Impact factor: 4.774

6.  Remote-Loaded Platelet Vesicles for Disease-Targeted Delivery of Therapeutics.

Authors:  Man Ying; Jia Zhuang; Xiaoli Wei; Xinxin Zhang; Yue Zhang; Yao Jiang; Diana Dehaini; Mengchun Chen; Silun Gu; Weiwei Gao; Weiyue Lu; Ronnie H Fang; Liangfang Zhang
Journal:  Adv Funct Mater       Date:  2018-04-19       Impact factor: 18.808

Review 7.  Cell membrane-derived nanomaterials for biomedical applications.

Authors:  Ronnie H Fang; Yao Jiang; Jean C Fang; Liangfang Zhang
Journal:  Biomaterials       Date:  2017-03-01       Impact factor: 12.479

8.  Nanoparticle Functionalization with Platelet Membrane Enables Multifactored Biological Targeting and Detection of Atherosclerosis.

Authors:  Xiaoli Wei; Man Ying; Diana Dehaini; Yuanyuan Su; Ashley V Kroll; Jiarong Zhou; Weiwei Gao; Ronnie H Fang; Shu Chien; Liangfang Zhang
Journal:  ACS Nano       Date:  2017-12-12       Impact factor: 15.881

Review 9.  Platelets and their biomimetics for regenerative medicine and cancer therapies.

Authors:  Zhenhua Li; Shiqi Hu; Ke Cheng
Journal:  J Mater Chem B       Date:  2018-10-22       Impact factor: 6.331

Review 10.  Cell Membrane Coating Nanotechnology.

Authors:  Ronnie H Fang; Ashley V Kroll; Weiwei Gao; Liangfang Zhang
Journal:  Adv Mater       Date:  2018-03-27       Impact factor: 30.849
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