Poloxamers-Based Nanomicelles as Delivery Vehicles of Photosensitizers for Hepatic Photodynamic Therapy

Martins, Juliana  N. L.; Lucredi, Naiara  C.; Olivera, Monique  C.; de Oliveira, Ana Carolina  Vieira; Godoy, Mariane  A. F.; Sá-Nakanishi, Anacharis  Babeto; Bracht, Lívia; Cesar, Gabriel  B.; Gonçalves, Renato  Sonchini; Vicentini, Veronica  E. P.; Caetano, Wilker; Godoy, Vilma  A. F.; Bracht, Adelar; Comar, Jurandir  Fernando

doi:10.2139/ssrn.4177745

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Poloxamers-Based Nanomicelles as Delivery Vehicles of Photosensitizers for Hepatic Photodynamic Therapy

43 Pages Posted: 1 Aug 2022

See all articles by Juliana N. L. Martins

Ana Carolina Vieira de Oliveira

State University of Maringá

Renato Sonchini Gonçalves

State University of Maringá - Department of Chemistry

Polymeric micelles in oxyalkylic blocks has been investigated as carriers of hydrophobic photosensitizers for intravenous administration in photodynamic therapy. This study evaluated the uptake of hypericin carried by polymeric micelles formed with Pluronics ® P123, F127 and P84 and their photoinduced actions on gluconeogenesis in perfused livers of mice. Uptake and photoinduced action of F127-carried hypericin were also evaluated against cultured human hepatoblastoma HepG2 cells. Respiratory activity was assessed in isolated hepatic mitochondria. Hypericin is also investigated as a promising photosensitizer and it was herein photoinduced with red light. This procedure should activate this agent to a lower extension and prevent damage against healthy tissues. Hypericin carried by P123, P84 and F127 micelles was substantially taken up by perfused livers. However, P123 and P84 inhibited hepatic gluconeogenesis by impairing the aerobic energy supply of the cell, effects probably associated with their more hydrophobic character. Hypericin carried by F127, a more hydrophilic micelle, did not inhibit gluconeogenesis and did not modify the mitochondrial respiration at concentrations lower than 2 µM in the dark or when photoinduced with red light. What is more, F127-carried hypericin was substantially taken up by HepG2 cells and, when photoinduced with red light, considerably decreased the viability of these cells. The results show that F127-carried hypericin could be a suitable photosensitizer system to be used in photodynamic therapy against liver tumors, especially if it is photoinduced with red light, which should activate the molecule to a lower extension and prevent damage to the healthy tissue.

Note:

Ethics: All procedures were performed as recommended by the Brazilian Council for the Control of Animal Experimentation (CONCEA) and were approved by the Ethics Committee for Animal Use (CEUA) of UEM (protocol number 8309170117).

Funding Information: Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq); Grant number: 447876/2014-7

Declaration of Interests: The authors declare that no competing interest exists and that all approved the final manuscript.

Keywords: Hypericin, Polymeric Micelles, F127, Liver Metabolism, Gluconeogenesis, HepG2

Suggested Citation: Suggested Citation

Martins, Juliana N. L. and Lucredi, Naiara C. and Olivera, Monique C. and de Oliveira, Ana Carolina Vieira and Godoy, Mariane A. F. and Sá-Nakanishi, Anacharis Babeto and Bracht, Lívia and Cesar, Gabriel B. and Gonçalves, Renato Sonchini and Vicentini, Veronica E. P. and Caetano, Wilker and Godoy, Vilma A. F. and Bracht, Adelar and Comar, Jurandir Fernando, Poloxamers-Based Nanomicelles as Delivery Vehicles of Photosensitizers for Hepatic Photodynamic Therapy. Available at SSRN: https://ssrn.com/abstract=4177745 or http://dx.doi.org/10.2139/ssrn.4177745