Properties and cellular uptake of photo-triggered mixed metallosurfactant vesicles intended for controlled CO delivery in gas therapy

Jan Trallero, Mercedes Camacho Pérez de Madrid, Maribel Marín-García, Maria Elena Alvarez Marimon, Nuria Benseny Cases*, R. Barnadas-Rodríguez*

*Corresponding author for this work

Research output: Contribution to journalArticleResearchpeer-review

1 Citation (Scopus)
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Abstract

The scientific relevance of carbon monoxide has increased since it was discovered that it is a gasotransmitter involved in several biological processes. This fact stimulated research to find a secure and targeted delivery and lead to the synthesis of CO-releasing molecules. In this paper we present a vesicular CO delivery system triggered by light composed of a synthetized metallosurfactant (TCOL10) with two long carbon chains and a molybdenum-carbonyl complex. We studied the characteristics of mixed TCOL10/phosphatidylcholine metallosomes of different sizes. Vesicles from 80 to 800 nm in diameter are mainly unilamellar, do not disaggregate upon dilution, in the dark are physically and chemically stable at 4 °C for at least one month, and exhibit a lag phase of about 4 days before they show a spontaneous CO release at 37 °C. Internalization of metallosomes by cells was studied as function of the incubation time, and vesicle concentration and size. Results show that large vesicles are more efficiently internalized than the smaller ones in terms of the percentage of cells that show TCOL10 and the amount of drug that they take up. On balance, TCOL10 metallosomes constitute a promising and viable approach for efficient delivery of CO to biological systems.
Original languageEnglish
Article number113422
Number of pages11
JournalColloids and Surfaces B: Biointerfaces
Volume228
Early online date21 Jun 2023
DOIs
Publication statusPublished - 1 Aug 2023

Keywords

  • CORM
  • Cell internalization
  • Colloid
  • Liposome
  • Metallosome
  • Self-assembly

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