1. Academic Validation
  2. Three-in-one: exploration of co-encapsulation of cabazitaxel, bicalutamide and chlorin e6 in new mixed cyclodextrin-crosslinked polymers

Three-in-one: exploration of co-encapsulation of cabazitaxel, bicalutamide and chlorin e6 in new mixed cyclodextrin-crosslinked polymers

  • RSC Adv. 2023 Apr 6;13(16):10923-10939. doi: 10.1039/d3ra01782f.
Elisabetta Pancani 1 Daniele Veclani 1 Marco Agnes 1 Arianna Mazza 1 Alessandro Venturini 1 Milo Malanga 2 Ilse Manet 1
Affiliations

Affiliations

  • 1 Institute for Organic Synthesis and Photoreactivity (ISOF), National Research Council of Italy (CNR) Via P. Gobetti 101 I-40129 Bologna Italy ilse.manet@isof.cnr.it.
  • 2 CycloLab, Cyclodextrin R&D Ltd. Budapest Hungary.
Abstract

We explored a series of cyclodextrin (CyD) Polymers composed either of a single CyD type or a mixture of two CyD types to encapsulate simultaneously different compounds with potential therapeutic interest for multimodal prostate Cancer treatment. New mixed CyD Polymers were prepared in alkaline water starting from the naturally occurring monomers and a low-cost crosslinking agent. Batches of 200 g of polymer were easily obtained. By means of optical spectroscopy we proved the co-encapsulation of 3 compounds in the polymers: the drugs cabazitaxel (CBX) and bicalutamide (BIC), and the photosensitizer chlorin e6 (Ce6). pβCyD and mixed pαβCyD Polymers performed best for single drug solubilization. In the co-encapsulation of BIC and CBX by pβCyD and pαβCyD, pβCyD stands out in drug solubilization ability. Avoiding the use of organic solvents, it was possible to dissolve up to 0.1 mM CBX with 10 mg ml-1 pβCyD polymer and, with 100 mg ml-1, even 1.7 mM BIC, a 100-fold improvement compared to water. Spectroscopic studies afforded the binding constants of CBX and BIC with pβCyD forming complexes of 1 : 2 stoichiometry (drug : CyD) and CBX displayed significantly higher affinity. Also DFT calculations suggested that the drugs are more stable when complexed by two CyD units. Ce6 could be encapsulated simultaneously with the other two drugs in pβCyD and, most importantly, is able to produce singlet oxygen efficiently. Thanks to a single inexpensive CyD-based polymer we were able to produce a three-in-one platform for future implementation of combined chemotherapy and photodynamic therapy. These achievements are most relevant as nanomedicines are continuously proposed but their potential for translation to the pharma industry is compromised by their limited potential for industrial upscale.

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