Issue 25, 2023

In vivo biodistribution of kinetically stable Pt2L4 nanospheres that show anti-cancer activity

Abstract

There is an increasing interest in the application of metal–organic cages (MOCs) in a biomedicinal context, as they can offer non-classical distribution in organisms compared to molecular substrates, while revealing novel cytotoxicity mechanisms. Unfortunately, many MOCs are not sufficiently stable under in vivo conditions, making it difficult to study their structure–activity relationships in living cells. As such, it is currently unclear whether MOC cytotoxicity stems from supramolecular features or their decomposition products. Herein, we describe the toxicity and photophysical properties of highly-stable rhodamine functionalized platinum-based Pt2L4 nanospheres as well as their building blocks under in vitro and in vivo conditions. We show that in both zebrafish and human cancer cell lines, the Pt2L4 nanospheres demonstrate reduced cytotoxicity and altered biodistribution within the body of zebrafish embryos compared to the building blocks. We anticipate that the composition-dependent biodistribution of Pt2L4 spheres together with their cytotoxic and photophysical properties provides the fundament for MOC application in cancer therapy.

Graphical abstract: In vivo biodistribution of kinetically stable Pt2L4 nanospheres that show anti-cancer activity

Supplementary files

Article information

Article type
Edge Article
Submitted
27 Feb 2023
Accepted
17 May 2023
First published
22 May 2023
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2023,14, 6943-6952

In vivo biodistribution of kinetically stable Pt2L4 nanospheres that show anti-cancer activity

E. O. Bobylev, R. A. Knol, S. Mathew, D. A. Poole, I. Kotsogianni, N. I. Martin, B. de Bruin, A. Kros and J. N. H. Reek, Chem. Sci., 2023, 14, 6943 DOI: 10.1039/D3SC01086D

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