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Bioengineered Smart Nanocarriers for Breast Cancer Treatment: Adorned Carbon-Based Nanocomposites with Silver and Palladium Complexes for Efficient Drug Delivery

Moein Safarkhani, Sadaf Saboori Moghaddam, Fahimeh Taghavimandi, Mojtaba Bagherzadeh, Yousef Fatahi, Uichang Park, Fatemeh Radmanesh, Yun Suk Huh, Navid Rabiee

2023ACS Omega19 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Biocompatible and bioactive carbon-based nanocomposites are ingeniously designed and fabricated with the aim of enhancing drug delivery applicability in breast cancer treatment. Reduced graphene oxide (rGO) and multiwalled carbon nanotubes (MWCNTs) are utilized as nanocarriers for increasing penetrability into cells and the loading capacity. What sets our study apart is the strategic incorporation of the two different complexes of silver (AgL 2 ) and palladium (PdL 2 ) with the carboxamide-based ligand C 9 H 7 N 3 OS (L), which have been synthesized and decorated on nanocarriers alongside doxorubicin (DOX) for stabilizing DOX by π–π interactions and hydrogen bonding. Although DOX is a well-known cancer therapy agent, the efficacy of DOX is hindered owing to drug resistance, poor internalization, and limited site specificity. Aside from stabilizing DOX on nanocarriers, our carbon-based nanocarriers are tailored to act as a precision-guided missile, strategically by adorning with target-sensitive complexes. Based on the literature, carboxamide ligands can connect to overexpressed receptors on cancerous cells and inhibit them from proliferation signaling. Also, the complexes have an antibacterial activity that can control the infection caused by decreasing white blood cells and necrosis of cancerous cells. A high-concentration cytotoxicity assay revealed that decorating PdL 2 on a DOX-containing nanocarrier not only increased cytotoxicity to breast cancerous cell lines (MDA-MB-231 and MCF-7) but also revealed higher cell viability on a normal cell line (MCF-10A). The drug release screening results showed that the presence of PdL 2 led to 72 h correlate release behavior in acidic and physiological pH profiles, while the AgL 2- containing nanocomposite showed an analogue behavior for just 6 h and the release of DOX continued and after about 100 h hit the top.

Topics & Concepts

NanocarriersCytotoxicityDrug deliveryDoxorubicinChemistryInternalizationCancer cellViability assayNanotechnologyNanocompositeCancer researchMaterials scienceBiophysicsCellCancerMedicineBiochemistryIn vitroChemotherapyBiologyInternal medicineGraphene and Nanomaterials ApplicationsNanoparticle-Based Drug DeliveryNanoparticles: synthesis and applications