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Intercalation of curcumin into liposomal chemotherapeutic agent augments apoptosis in breast cancer cells

Reza Mahmoudi, Fatemeh Hassandokht, Maryam Tajali Ardakani, Bahman Karimi, Abazar Roustazadeh, Shabnam Tarvirdipour, Mehrzad Jafari Barmak, Mohsen Nikseresht, Marzieh Baneshi, Ali Mousavizadeh, Mohsen Saghebray Shirazi, Mohsen Alipour, Hassan Bardania

2020Journal of Biomaterials Applications49 citationsDOI

Abstract

Resistance to common chemotherapeutic agents is a frequent phenomenon in late-stage breast cancers. An ideal system capable of the co-delivery of hydrophobic and hydrophilic chemotherapeutic agents can regulate the dosage and co-localization of pharmaceutical compounds and thereby improve the anticancer efficacy. Here, for the first time, we have intercalated curcumin (Cur) into a double-layered membrane of cisplatin (Cis) liposomes to obtain a dosage controlled co-delivery formulation, capable of inducing apoptosis in breast cancer cells. The concentrations of Cur and Cis in nanoliposome (Cur-Cis@NLP) were optimized by response surface methodology (RSM); RSM optimization showed 99.81 and 23.86% entrapment efficiency for Cur and Cis, respectively. TEM analysis demonstrated the fabrication of nanoparticles with average diameter of 100 nm. The anticancer and apoptotic effects of Cur-Cis@NLPs were also evaluated using MTT assay, fluorescent staining and flow cytometry assays. Cytotoxicity assessments of various Cur-Cis@NLPs concentrations demonstrated a concentration-dependent manner. In comparison to free and liposomal Cis, Cur-Cis@NLP reduced breast cancer cells’ viability (82.5%) in a significant manner at a final concentration of 32 μg.mL −1 and 20 μg.mL −1 of Cur and Cis, respectively. Combination index values calculation of Cur-Cis@NLP showed an overall CI value <1, indicating synergetic effect of the designed co-delivery system. Additionally, flow cytometry assay demonstrated Cur-Cis@NLPs triggered apoptosis about 10-folds higher than liposomal Cis. This co-drug delivery system has a potential for the encapsulation and release of both hydrophobic and hydrophilic drugs, while taking the advantages of the reduced cytotoxic effect along with achieving high potency.

Topics & Concepts

Flow cytometryCurcuminApoptosisCytotoxicityLiposomeMTT assayDrug deliveryCancer cellChemistryPharmacologyMaterials scienceMolecular biologyCancerBiochemistryMedicineBiologyNanotechnologyIn vitroInternal medicineNanoparticle-Based Drug DeliveryCurcumin's Biomedical ApplicationsDendrimers and Hyperbranched Polymers
Intercalation of curcumin into liposomal chemotherapeutic agent augments apoptosis in breast cancer cells | Litcius