. 2020 Jun;16(25):e2000285.

doi: 10.1002/smll.202000285. Epub 2020 May 14.

The Influence of Nanoparticle Shape on Protein Corona Formation

Affiliations

¹ Future Industries Institute, School of Engineering, University of South Australia, Mawson Lakes, Adelaide, SA, 5095, Australia.
² Global Innovative Centre for Advanced Nanomaterials, Faculty of Engineering and Built Environment, The University of Newcastle, Callaghan, NSW, 2308, Australia.
³ Graduate School of Biomedical Engineering, The University of New South Wales, Sydney, NSW, 2052, Australia.
⁴ Physical Chemistry of Polymers, Max Planck Institute for Polymer Research, Ackermannweg 10, Mainz, 55128, Germany.
⁵ The Australian Wine Research Institute, Waite Precinct, Hartley Grove cnr Paratoo Road, Urrbrae (Adelaide) SA 5064, PO Box 197, Glen Osmond, SA, 5064, Australia.
⁶ Department of Dermatology, University Medical Center of the Johannes Gutenberg-University Mainz, Langenbeckstr. 1, Mainz, 55131, Germany.

PMID: 32406176
DOI: 10.1002/smll.202000285

The Influence of Nanoparticle Shape on Protein Corona Formation

Rahul Madathiparambil Visalakshan et al. Small. 2020 Jun.

. 2020 Jun;16(25):e2000285.

doi: 10.1002/smll.202000285. Epub 2020 May 14.

Affiliations

¹ Future Industries Institute, School of Engineering, University of South Australia, Mawson Lakes, Adelaide, SA, 5095, Australia.
² Global Innovative Centre for Advanced Nanomaterials, Faculty of Engineering and Built Environment, The University of Newcastle, Callaghan, NSW, 2308, Australia.
³ Graduate School of Biomedical Engineering, The University of New South Wales, Sydney, NSW, 2052, Australia.
⁴ Physical Chemistry of Polymers, Max Planck Institute for Polymer Research, Ackermannweg 10, Mainz, 55128, Germany.
⁵ The Australian Wine Research Institute, Waite Precinct, Hartley Grove cnr Paratoo Road, Urrbrae (Adelaide) SA 5064, PO Box 197, Glen Osmond, SA, 5064, Australia.
⁶ Department of Dermatology, University Medical Center of the Johannes Gutenberg-University Mainz, Langenbeckstr. 1, Mainz, 55131, Germany.

PMID: 32406176
DOI: 10.1002/smll.202000285

Abstract

Nanoparticles have become an important utility in many areas of medical treatment such as targeted drug and treatment delivery as well as imaging and diagnostics. These advances require a complete understanding of nanoparticles' fate once placed in the body. Upon exposure to blood, proteins adsorb onto the nanoparticles surface and form a protein corona, which determines the particles' biological fate. This study reports on the protein corona formation from blood serum and plasma on spherical and rod-shaped nanoparticles. These two types of mesoporous silica nanoparticles have identical chemistry, porosity, surface potential, and size in the y-dimension, one being a sphere and the other a rod shape. The results show a significantly larger amount of protein attaching from both plasma and serum on the rod-like particles compared to the spheres. Interrogation of the protein corona by liquid chromatography-mass spectrometry reveals shape-dependent differences in the adsorption of immunoglobulins and albumin proteins from both plasma and serum. This study points to the need for taking nanoparticle shape into consideration because it can have a significant impact on the fate and therapeutic potential of nanoparticles when placed in the body.

Keywords: bio-nanoparticle interactions; mesoporous nanoparticles; nanoparticle shape; protein adsorption; protein corona; rod shape; sphere shape.

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The Influence of Nanoparticle Shape on Protein Corona Formation

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