Decoration of gold nanoparticles with glycopeptides leads to a lower cellular uptake and liver retention

Mahmoud G. Soliman; Jennifer Fernandez Alarcon; Tanja Ursula Luedtke; Martina B. Violatto; Marko Dobricic; Chiara Cordiglieri; Alessandro Corbelli; Fabio Fiordaliso; Giovanni Sitia; James S. O'Donnell; Daniel I. R. Spencer; Sergio Moya; Paolo Bigini; Marco P. Monopoli

doi:10.1039/d5na00464k

Decoration of gold nanoparticles with glycopeptides leads to a lower cellular uptake and liver retention

Mahmoud G. Soliman, Jennifer Fernandez Alarcon, Tanja Ursula Luedtke, Martina B. Violatto, Marko Dobricic, Chiara Cordiglieri, Alessandro Corbelli, Fabio Fiordaliso, Giovanni Sitia, James S. O'Donnell, Daniel I. R. Spencer, Sergio Moya, Paolo Bigini, Marco P. Monopoli

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Unspecific uptake by the liver is one of the main drawbacks of the translation of nanomaterials into clinics, preventing their delivery into diseased tissues. Here, we synthesized gold nanoparticles (GNPs) decorated with a sialic acid-displaying glycopeptide to enhance their specific targeting properties by reducing their uptake inside hepatic cells. We demonstrated the biocompatibility of the glycopeptide-coated GNPs with two different nanomaterial shapes (spherical and rod-like GNPs) and the targeting properties of the glycopeptide were retained in serum-free and protein-rich media. We found that the glycopeptide reduces nanomaterial interaction with hepatic cells by 1.96 times. In the liver, Kupffer cells (KCs) and liver sinusoidal endothelial cells (LSECs) were the only cells that interacted with the GNPs, increasing the expression of sialic acid-binding receptors such as Siglec-1. This work provides potential new strategies to overcome off-target nanomaterial accumulation by manipulating nanomaterial functionalisation with glycans to alter hepatic cell interactions.

Idioma original	Anglès
Pàgines (de-a)	5784-5798
Nombre de pàgines	15
Revista	Nanoscale Advances
Volum	7
Número	18
Data online anticipada	d’ag. 2025
DOIs	https://doi.org/10.1039/d5na00464k
Estat de la publicació	Publicada - 10 de set. 2025
Publicat externament	Sí

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10.1039/d5na00464kLlicència: CC BY

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Soliman, M. G., Alarcon, J. F., Luedtke, T. U., Violatto, M. B., Dobricic, M., Cordiglieri, C., Corbelli, A., Fiordaliso, F., Sitia, G., O'Donnell, J. S., Spencer, D. I. R., Moya, S., Bigini, P., & Monopoli, M. P. (2025). Decoration of gold nanoparticles with glycopeptides leads to a lower cellular uptake and liver retention. Nanoscale Advances, 7(18), 5784-5798. https://doi.org/10.1039/d5na00464k

@article{77439754365c4fd8b9d0c1f98e186db6,

title = "Decoration of gold nanoparticles with glycopeptides leads to a lower cellular uptake and liver retention",

abstract = "Unspecific uptake by the liver is one of the main drawbacks of the translation of nanomaterials into clinics, preventing their delivery into diseased tissues. Here, we synthesized gold nanoparticles (GNPs) decorated with a sialic acid-displaying glycopeptide to enhance their specific targeting properties by reducing their uptake inside hepatic cells. We demonstrated the biocompatibility of the glycopeptide-coated GNPs with two different nanomaterial shapes (spherical and rod-like GNPs) and the targeting properties of the glycopeptide were retained in serum-free and protein-rich media. We found that the glycopeptide reduces nanomaterial interaction with hepatic cells by 1.96 times. In the liver, Kupffer cells (KCs) and liver sinusoidal endothelial cells (LSECs) were the only cells that interacted with the GNPs, increasing the expression of sialic acid-binding receptors such as Siglec-1. This work provides potential new strategies to overcome off-target nanomaterial accumulation by manipulating nanomaterial functionalisation with glycans to alter hepatic cell interactions.",

keywords = "In-vivo, Polyethylene-glycol, Protein corona, Drug-delivery, Stability, Nanorods, Polymer, Surface, Size, Particles",

author = "Soliman, \{Mahmoud G.\} and Alarcon, \{Jennifer Fernandez\} and Luedtke, \{Tanja Ursula\} and Violatto, \{Martina B.\} and Marko Dobricic and Chiara Cordiglieri and Alessandro Corbelli and Fabio Fiordaliso and Giovanni Sitia and O'Donnell, \{James S.\} and Spencer, \{Daniel I. R.\} and Sergio Moya and Paolo Bigini and Monopoli, \{Marco P.\}",

note = "Publisher Copyright: {\textcopyright} 2025 RSC.",

year = "2025",

month = sep,

day = "10",

doi = "10.1039/d5na00464k",

language = "English",

volume = "7",

pages = "5784--5798",

journal = "Nanoscale Advances",

issn = "2516-0230",

publisher = "Royal Society of Chemistry",

number = "18",

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Soliman, MG, Alarcon, JF, Luedtke, TU, Violatto, MB, Dobricic, M, Cordiglieri, C, Corbelli, A, Fiordaliso, F, Sitia, G, O'Donnell, JS, Spencer, DIR, Moya, S, Bigini, P & Monopoli, MP 2025, 'Decoration of gold nanoparticles with glycopeptides leads to a lower cellular uptake and liver retention', Nanoscale Advances, vol. 7, núm. 18, pàg. 5784-5798. https://doi.org/10.1039/d5na00464k

TY - JOUR

T1 - Decoration of gold nanoparticles with glycopeptides leads to a lower cellular uptake and liver retention

AU - Soliman, Mahmoud G.

AU - Alarcon, Jennifer Fernandez

AU - Luedtke, Tanja Ursula

AU - Violatto, Martina B.

AU - Dobricic, Marko

AU - Cordiglieri, Chiara

AU - Corbelli, Alessandro

AU - Fiordaliso, Fabio

AU - Sitia, Giovanni

AU - O'Donnell, James S.

AU - Spencer, Daniel I. R.

AU - Moya, Sergio

AU - Bigini, Paolo

AU - Monopoli, Marco P.

PY - 2025/9/10

Y1 - 2025/9/10

N2 - Unspecific uptake by the liver is one of the main drawbacks of the translation of nanomaterials into clinics, preventing their delivery into diseased tissues. Here, we synthesized gold nanoparticles (GNPs) decorated with a sialic acid-displaying glycopeptide to enhance their specific targeting properties by reducing their uptake inside hepatic cells. We demonstrated the biocompatibility of the glycopeptide-coated GNPs with two different nanomaterial shapes (spherical and rod-like GNPs) and the targeting properties of the glycopeptide were retained in serum-free and protein-rich media. We found that the glycopeptide reduces nanomaterial interaction with hepatic cells by 1.96 times. In the liver, Kupffer cells (KCs) and liver sinusoidal endothelial cells (LSECs) were the only cells that interacted with the GNPs, increasing the expression of sialic acid-binding receptors such as Siglec-1. This work provides potential new strategies to overcome off-target nanomaterial accumulation by manipulating nanomaterial functionalisation with glycans to alter hepatic cell interactions.

AB - Unspecific uptake by the liver is one of the main drawbacks of the translation of nanomaterials into clinics, preventing their delivery into diseased tissues. Here, we synthesized gold nanoparticles (GNPs) decorated with a sialic acid-displaying glycopeptide to enhance their specific targeting properties by reducing their uptake inside hepatic cells. We demonstrated the biocompatibility of the glycopeptide-coated GNPs with two different nanomaterial shapes (spherical and rod-like GNPs) and the targeting properties of the glycopeptide were retained in serum-free and protein-rich media. We found that the glycopeptide reduces nanomaterial interaction with hepatic cells by 1.96 times. In the liver, Kupffer cells (KCs) and liver sinusoidal endothelial cells (LSECs) were the only cells that interacted with the GNPs, increasing the expression of sialic acid-binding receptors such as Siglec-1. This work provides potential new strategies to overcome off-target nanomaterial accumulation by manipulating nanomaterial functionalisation with glycans to alter hepatic cell interactions.

KW - In-vivo

KW - Polyethylene-glycol

KW - Protein corona

KW - Drug-delivery

KW - Stability

KW - Nanorods

KW - Polymer

KW - Surface

KW - Size

KW - Particles

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UR - https://www.scopus.com/pages/publications/105015800474

U2 - 10.1039/d5na00464k

DO - 10.1039/d5na00464k

M3 - Article

C2 - 40808819

SN - 2516-0230

VL - 7

SP - 5784

EP - 5798

JO - Nanoscale Advances

JF - Nanoscale Advances

IS - 18

ER -

Decoration of gold nanoparticles with glycopeptides leads to a lower cellular uptake and liver retention

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