1. Academic Validation
  2. Enhanced Antitumoral Activity of Encapsulated BET Inhibitors When Combined with PARP Inhibitors for the Treatment of Triple-Negative Breast and Ovarian Cancers

Enhanced Antitumoral Activity of Encapsulated BET Inhibitors When Combined with PARP Inhibitors for the Treatment of Triple-Negative Breast and Ovarian Cancers

  • Cancers (Basel). 2022 Sep 15;14(18):4474. doi: 10.3390/cancers14184474.
Alberto Juan 1 María Del Mar Noblejas-López 1 2 Iván Bravo 1 3 María Arenas-Moreira 1 3 Cristina Blasco-Navarro 3 Pilar Clemente-Casares 1 3 Agustín Lara-Sánchez 4 Atanasio Pandiella 5 Carlos Alonso-Moreno 1 3 Alberto Ocaña 6
Affiliations

Affiliations

  • 1 Centro Regional de Investigaciones Biomédicas (CRIB), University of Castilla-La Mancha, 02008 Albacete, Spain.
  • 2 Translational Oncology Laboratory, Translational Research Unit, Albacete University Hospital, 02008 Albacete, Spain.
  • 3 Facultad de Farmacia de Albacete, Universidad de Castilla-La Mancha, 02008 Albacete, Spain.
  • 4 Facultad de Ciencias y Tecnologías Químicas, Universidad de Castilla-La Mancha, 13005 Ciudad Real, Spain.
  • 5 Centro de Investigación del Cáncer-CSIC, Instituto de Investigación Biomédica de Salamanca, CIBERONC, 37007 Salamanca, Spain.
  • 6 Experimental Therapeutics Unit, Hospital Clínico San Carlos, Fundación Para la Investigación Biomedica de El Hospital Clínico San Carlos, CIBERONC, 28040 Madrid, Spain.
Abstract

BRCA1/2 protein-deficient or mutated cancers comprise a group of aggressive malignancies. Although PARPis have shown considerably efficacy in their treatment, the widespread use of these agents in clinical practice is restricted by various factors, including the development of acquired resistance due to the presence of compensatory pathways. BETis can completely disrupt the HR pathway by repressing the expression of BRCA1 and could be aimed at generation combination regimes to overcome PARPi resistance and enhance PARPi efficacy. Due to the poor pharmacokinetic profile and short half-life, the first-in-class BETi JQ1 was loaded into newly developed nanocarrier formulations to improve the effectivity of olaparib for the treatment of BRCAness cancers. First, polylactide polymeric nanoparticles were generated by double emulsion. Moreover, liposomes were prepared by ethanol injection and evaporation solvent method. JQ1-loaded drug delivery systems display optimal hydrodynamic radii between 60 and 120 nm, with a very low polydispersity index (PDI), and encapsulation efficiencies of 92 and 16% for lipid- and polymeric-based formulations, respectively. Formulations show high stability and sustained release. We confirmed that all assayed JQ1 formulations improved antiproliferative activity compared to the free JQ1 in models of ovarian and breast cancers. In addition, synergistic interaction between JQ1 and JQ1-loaded nanocarriers and olaparib evidenced the ability of encapsulated JQ1 to enhance antitumoral activity of PARPis.

Keywords

JQ1; breast cancer; combination regimes; liposomes; nanomedicine; olaparib; ovarian cancer; polymeric nanoparticles.

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