Multi-parametric surface plasmon resonance platform for studying liposome-serum interactions and protein corona formation

Otto K. Kari; Tatu Rojalin; Stefano Salmaso; Michela Barattin; Hanna Jarva; Seppo Meri; Marjo Yliperttula; Tapani Viitala; Arto Urtti

doi:10.1007/s13346-016-0320-0

Multi-parametric surface plasmon resonance platform for studying liposome-serum interactions and protein corona formation

Otto K. Kari
, Tatu Rojalin
, Stefano Salmaso
, Michela Barattin
, Hanna Jarva
, Seppo Meri
, Marjo Yliperttula
, Tapani Viitala^*
, Arto Urtti

^*Tämän työn vastaava kirjoittaja

Tutkimustuotos: Lehtiartikkeli › Artikkeli › Tieteellinen › vertaisarvioitu

50 Sitaatiot (Scopus)

Abstrakti

When nanocarriers are administered into the blood circulation, a complex biomolecular layer known as the “protein corona” associates with their surface. Although the drivers of corona formation are not known, it is widely accepted that this layer mediates biological interactions of the nanocarrier with its surroundings. Label-free optical methods can be used to study protein corona formation without interfering with its dynamics. We demonstrate the proof-of-concept for a multi-parametric surface plasmon resonance (MP-SPR) technique in monitoring the formation of a protein corona on surface-immobilized liposomes subjected to flowing 100 % human serum. We observed the formation of formulation-dependent “hard” and “soft” coronas with distinct refractive indices, layer thicknesses, and surface mass densities. MP-SPR was also employed to determine the affinity (K_D) of a complement system molecule (C3b) with cationic liposomes with and without polyethylene glycol. Tendency to create a thick corona correlated with a higher affinity of opsonin C3b for the surface. The label-free platform provides a fast and robust preclinical tool for tuning nanocarrier surface architecture and composition to control protein corona formation.

Alkuperäiskieli	Englanti
Sivut	228-240
Sivumäärä	13
Julkaisu	Drug Delivery and Translational Research
Vuosikerta	7
Numero	2
DOI - pysyväislinkit	https://doi.org/10.1007/s13346-016-0320-0
Tila	Julkaistu - 1 huhtik. 2017
Julkaistu ulkoisesti	Kyllä
OKM-julkaisutyyppi	A1 Julkaistu artikkeli, soviteltu

Rahoitus

We are grateful to M.Sc. Tatu Lajunen, B.Sc. Riikka Nurmi, and M.Sc. Antti Louna for the help in preparing and characterizing the control liposome formulations, and to Leena Pietilä and Dr. Mari Palviainen for the help with serum collection and pooling. Liposomes coated with a lipidated oligo-guanidyl derivative were kindly supplied by Professor Stefano Salmaso, University of Padova. Financial support by the Academy of Finland (grants: #137053, #263861, #263567), Tekes—the Finnish Funding Agency for Innovation EV-Extra-Tox project and the Professor Pool—Orion Research Foundation are gratefully acknowledged.

Pääsy asiakirjaan

10.1007/s13346-016-0320-0

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title = "Multi-parametric surface plasmon resonance platform for studying liposome-serum interactions and protein corona formation",

abstract = "When nanocarriers are administered into the blood circulation, a complex biomolecular layer known as the “protein corona” associates with their surface. Although the drivers of corona formation are not known, it is widely accepted that this layer mediates biological interactions of the nanocarrier with its surroundings. Label-free optical methods can be used to study protein corona formation without interfering with its dynamics. We demonstrate the proof-of-concept for a multi-parametric surface plasmon resonance (MP-SPR) technique in monitoring the formation of a protein corona on surface-immobilized liposomes subjected to flowing 100 \% human serum. We observed the formation of formulation-dependent “hard” and “soft” coronas with distinct refractive indices, layer thicknesses, and surface mass densities. MP-SPR was also employed to determine the affinity (KD) of a complement system molecule (C3b) with cationic liposomes with and without polyethylene glycol. Tendency to create a thick corona correlated with a higher affinity of opsonin C3b for the surface. The label-free platform provides a fast and robust preclinical tool for tuning nanocarrier surface architecture and composition to control protein corona formation.",

keywords = "Complement system, Liposome, Multi-parametric surface plasmon resonance (MP-SPR), Opsonin, Protein corona, Soft corona",

author = "Kari, \{Otto K.\} and Tatu Rojalin and Stefano Salmaso and Michela Barattin and Hanna Jarva and Seppo Meri and Marjo Yliperttula and Tapani Viitala and Arto Urtti",

note = "Funding Information: We are grateful to M.Sc. Tatu Lajunen, B.Sc. Riikka Nurmi, and M.Sc. Antti Louna for the help in preparing and characterizing the control liposome formulations, and to Leena Pietil{\"a} and Dr. Mari Palviainen for the help with serum collection and pooling. Liposomes coated with a lipidated oligo-guanidyl derivative were kindly supplied by Professor Stefano Salmaso, University of Padova. Financial support by the Academy of Finland (grants: \#137053, \#263861, \#263567), Tekes—the Finnish Funding Agency for Innovation EV-Extra-Tox project and the Professor Pool—Orion Research Foundation are gratefully acknowledged. Publisher Copyright: {\textcopyright} 2016, Controlled Release Society.",

year = "2017",

month = apr,

day = "1",

doi = "10.1007/s13346-016-0320-0",

language = "English",

volume = "7",

pages = "228--240",

journal = "Drug Delivery and Translational Research",

issn = "2190-393X",

publisher = "Springer",

number = "2",

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TY - JOUR

T1 - Multi-parametric surface plasmon resonance platform for studying liposome-serum interactions and protein corona formation

AU - Kari, Otto K.

AU - Rojalin, Tatu

AU - Salmaso, Stefano

AU - Barattin, Michela

AU - Jarva, Hanna

AU - Meri, Seppo

AU - Yliperttula, Marjo

AU - Viitala, Tapani

AU - Urtti, Arto

N1 - Funding Information: We are grateful to M.Sc. Tatu Lajunen, B.Sc. Riikka Nurmi, and M.Sc. Antti Louna for the help in preparing and characterizing the control liposome formulations, and to Leena Pietilä and Dr. Mari Palviainen for the help with serum collection and pooling. Liposomes coated with a lipidated oligo-guanidyl derivative were kindly supplied by Professor Stefano Salmaso, University of Padova. Financial support by the Academy of Finland (grants: #137053, #263861, #263567), Tekes—the Finnish Funding Agency for Innovation EV-Extra-Tox project and the Professor Pool—Orion Research Foundation are gratefully acknowledged. Publisher Copyright: © 2016, Controlled Release Society.

PY - 2017/4/1

Y1 - 2017/4/1

N2 - When nanocarriers are administered into the blood circulation, a complex biomolecular layer known as the “protein corona” associates with their surface. Although the drivers of corona formation are not known, it is widely accepted that this layer mediates biological interactions of the nanocarrier with its surroundings. Label-free optical methods can be used to study protein corona formation without interfering with its dynamics. We demonstrate the proof-of-concept for a multi-parametric surface plasmon resonance (MP-SPR) technique in monitoring the formation of a protein corona on surface-immobilized liposomes subjected to flowing 100 % human serum. We observed the formation of formulation-dependent “hard” and “soft” coronas with distinct refractive indices, layer thicknesses, and surface mass densities. MP-SPR was also employed to determine the affinity (KD) of a complement system molecule (C3b) with cationic liposomes with and without polyethylene glycol. Tendency to create a thick corona correlated with a higher affinity of opsonin C3b for the surface. The label-free platform provides a fast and robust preclinical tool for tuning nanocarrier surface architecture and composition to control protein corona formation.

AB - When nanocarriers are administered into the blood circulation, a complex biomolecular layer known as the “protein corona” associates with their surface. Although the drivers of corona formation are not known, it is widely accepted that this layer mediates biological interactions of the nanocarrier with its surroundings. Label-free optical methods can be used to study protein corona formation without interfering with its dynamics. We demonstrate the proof-of-concept for a multi-parametric surface plasmon resonance (MP-SPR) technique in monitoring the formation of a protein corona on surface-immobilized liposomes subjected to flowing 100 % human serum. We observed the formation of formulation-dependent “hard” and “soft” coronas with distinct refractive indices, layer thicknesses, and surface mass densities. MP-SPR was also employed to determine the affinity (KD) of a complement system molecule (C3b) with cationic liposomes with and without polyethylene glycol. Tendency to create a thick corona correlated with a higher affinity of opsonin C3b for the surface. The label-free platform provides a fast and robust preclinical tool for tuning nanocarrier surface architecture and composition to control protein corona formation.

KW - Complement system

KW - Liposome

KW - Multi-parametric surface plasmon resonance (MP-SPR)

KW - Opsonin

KW - Protein corona

KW - Soft corona

UR - https://www.scopus.com/pages/publications/85013993984

U2 - 10.1007/s13346-016-0320-0

DO - 10.1007/s13346-016-0320-0

M3 - Article

C2 - 27491413

AN - SCOPUS:85013993984

SN - 2190-393X

VL - 7

SP - 228

EP - 240

JO - Drug Delivery and Translational Research

JF - Drug Delivery and Translational Research

IS - 2

ER -

Multi-parametric surface plasmon resonance platform for studying liposome-serum interactions and protein corona formation

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