Hybrid Hydrogel Composed of Carboxymethylcellulose–Silver Nanoparticles–Doxorubicin for Anticancer and Antibacterial Therapies against Melanoma Skin Cancer Cells

自愈水凝胶 阿霉素 化学 黑色素瘤 材料科学 肿胀 的 纳米颗粒 高分子化学 纳米技术 癌症研究 化疗 医学 外科 复合材料
作者
Nádia S. V. Capanema,Isadora C. Carvalho,Alexandra A.P. Mansur,Sandhra M. Carvalho,Andrey Pereira Lage,Herman S. Mansur
出处
期刊:ACS applied nano materials [American Chemical Society]
卷期号:2 (11): 7393-7408 被引量:116
标识
DOI:10.1021/acsanm.9b01924
摘要

Malignant melanoma is the utmost severe form of skin cancer, causing the vast majority of deaths related to skin cancer in humans. Although melanoma is treatable at its early stages at localized forms, metastatic melanoma remains a therapeutic challenge with dramatically increased incidence in the past few years. In addition, opportunistic pathogens can provoke infections leading to ulceration of cutaneous melanoma. Herein, we designed and synthesized hybrid hydrogels made of silver nanoparticles (AgNPs) embedded in the carboxymethylcellulose (CMC) polymer cross-linked networks conjugated with doxorubicin (DOX), the anticancer drug. This system was synthesized by a green process, using a single-pot in situ reduction of Ag+ by CMC polymer, which also acted as capping ligand, followed by the electrostatic conjugation with DOX, forming colloidal nanocomplexes in aqueous media. These nanoconjugates were chemically cross-linked with citric acid (CA) under mild pH and temperature conditions. The results demonstrated the effective nucleation and stabilization of spherical AgNPs nanocolloids, with uniform size distribution (d ∼ 10 nm). The physicochemical properties of the hybrid nanocomplexes (AgNP@CMC-DOX) were affected by the degree of carboxymethylation (DS = 0.8 and 1.2) of CMC related to the development of supramolecular nanocolloidal dispersions. These nanohybrids were predominantly stabilized by electrostatic interactions between carboxylate groups (anionic, CMC) and amino groups (cationic, DOX), forming vesicle-like nanosystems. These AgNP@CMC-DOX nanostructures were cross-linked producing hybrid hydrogels (AgNP@CMC-DOX-CA), with gel fraction and swelling degree properties dependent on the DS. Consequently, these hybrids demonstrated tuned DOX intracellular kinetics in vitro, evidencing a synergistic effect with AgNPs for killing melanoma cancer cells. Moreover, these hybrid nanocomposites proved antimicrobial activity against Gram-positive and Gram-negative bacterias. Thus, an innovative platform was designed and developed based on nanoparticle–polysaccharide–drug nanostructures for producing anticancer and antibacterial hybrid hydrogels to be applied as a weapon in the arsenal against skin cancer via topical drug delivery chemotherapy.
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