Quantitative Single‐Cell Comparison of Sensitization to Radiation and a Radiomimetic Drug for Diverse Gold Nanoparticle Coatings

Douglas Howard; Tyron Turnbull; Puthenparampil Wilson; David John Paterson; Valentina Milanova; Benjamin Thierry; Ivan Kempson

doi:10.1002/smsc.202400053

Small Science (Sep 2024)

Quantitative Single‐Cell Comparison of Sensitization to Radiation and a Radiomimetic Drug for Diverse Gold Nanoparticle Coatings

Douglas Howard,
Tyron Turnbull,
Puthenparampil Wilson,
David John Paterson,
Valentina Milanova,
Benjamin Thierry,
Ivan Kempson

Affiliations

Douglas Howard: Future Industries Institute University of South Australia Mawson Lakes South Australia 5095 Australia
Tyron Turnbull: Future Industries Institute University of South Australia Mawson Lakes South Australia 5095 Australia
Puthenparampil Wilson: UniSA STEM University of South Australia Mawson Lakes South Australia 5095 Australia
David John Paterson: Australian Synchrotron ANSTO 800 Blackburn Road Clayton Victoria 3168 Australia
Valentina Milanova: Future Industries Institute University of South Australia Mawson Lakes South Australia 5095 Australia
Benjamin Thierry: Future Industries Institute University of South Australia Mawson Lakes South Australia 5095 Australia
Ivan Kempson: Future Industries Institute University of South Australia Mawson Lakes South Australia 5095 Australia

DOI: https://doi.org/10.1002/smsc.202400053
Journal volume & issue: Vol. 4, no. 9
pp. n/a – n/a

Abstract

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Metal‐based nanoparticles (NPs) have entered clinical use for enhancing radiotherapy, but the underlying mechanisms remain ambiguous. Herein, single‐cell analysis of two cell lines in response to megavolt irradiation and a radiomimetic drug, neocarzinostatin (NCS) after coculture with gold NPs with different surface coatings, polyethylene glycol (AuPEG), PEG, and transferrin (AuT) or silica (AuSiO2), is reported. Different surface chemistry presents a major challenge for objective comparison between the biological impacts where major differences in cell‐uptake exist. AuSiO2 NPs are the most efficient for promoting radiosensitization despite being associated with cells 10 times less than the actively targeted AuT NPs. Conversely, for cells exposed to NCS, AuSiO2 NPs impede the radiomimetic action and promote cell survival. AuT NPs enhance death of cells in combination with NCS showing that NPs can sensitize against cytotoxic agents in addition to radiation. While NPs contribute to radiosensitization (or enhancing/impeding chemotherapeutic drug activity), due to cell and cell line heterogeneity, the ultimate radiosensitivity of a cell appears to be dominated by its inherent radiosensitivity and how this cell‐regulated response is manipulated by NPs. This is evidenced through comparison of radiobiological response of cells with equivalent NP association rather than equivalent coculture conditions.

Published in Small Science

ISSN: 2688-4046 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://onlinelibrary.wiley.com/journal/26884046

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