A two-pronged approach against glioblastoma: Drug repurposing and nanoformulation design for in situ‑controlled release

Author:

Mendes Maria1,Branco Francisco1,Vitorino Rui2,Sousa João1,Pais Alberto3,Vitorino Carla4ORCID

Affiliation:

1. University of Coimbra Faculty of Pharmacy: Universidade de Coimbra Faculdade de Farmacia

2. University of Aveiro: Universidade de Aveiro

3. University of Coimbra: Universidade de Coimbra

4. Universidade de Coimbra Faculdade de Farmácia: Universidade de Coimbra Faculdade de Farmacia

Abstract

Abstract Glioblastoma (GB) is one of the most lethal types of neoplasms. Its biologically aggressive nature and the presence of the blood-brain barrier (BBB) limit the efficacy of standard therapies. Several strategies are currently being developed to both overcome the BBB and deliver drugs site-specifically to tumor cells. This work hypothesizes a two‑pronged approach to tackle glioblastoma: drug repurposing with celecoxib and a nanoformulation using ultra-small nanostructured lipid carriers (usNLCs). Celecoxib antitumor druggable activity was inspected bioinformatically and screened in four glioma cell lines aiming at the comparison with temozolomide, as standard of care. Delving into formulation design, it was tailored aiming at (i) improving the drug solubility/loading properties, (ii) assigning a thermal-triggerable drug release based on a lipid matrix with a low melting point, and (iii) enhancing the cytotoxic effect by selecting a template targetable to tumor cells. For this purpose, an integrated analysis of the critical material attributes (CMAs), critical process parameters (CPPs) and critical quality attributes (CQAs) was conducted under the umbrella of a Quality by Design approach. CMAs that demonstrate a high-risk level for the final quality and performance of the usNLCs include the drug solubility in lipids (solid and liquid), the lipid composition (envisioning a thermoresponsive approach), the ratio between lipids (solid vs. liquid), and the surfactant type and concentration. Particle size was shown to be governed by the interaction lipid-surfactant followed by surfactant type. The drug encapsulation did not influence colloidal characteristics, making it a promising carrier for lipophilic drugs. In general,usNLCs exhibited a controlled drug release during the 72 hours at 37 ºC with a final release of ca. 25 %, while at 45 ºC this was doubled. The in vitro cellular performance depended on the surfactant type and lipid composition, with the formulations containing a sole solid lipid (Suppocire® NB) and Kolliphor® RH40 as surfactant being the most cytotoxic. usNLCs with an average diameter of ca. 70 nm and a narrow size distribution (PdI lower than 0.2) were yielded, exhibiting, high stability, drug protection, sustained and thermo‑sensitive release properties, and high cytotoxicity to glioma cells, meeting the suitable CQAs for parenteral administration. This formulation may pave the way to a multi-addressable purpose to improve address GB treatment.

Publisher

Research Square Platform LLC

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