DOX-loaded nanoparticles able to actively target CD44-receptors and respond to redox stimuli were proposed as non-conventional chemotherapeutic strategy in breast cancer. A covalent conjugate of human serum albumin and hyaluronic acid was prepared and assembled by a GSH-mediated desolvation in disulfide-crosslinked solid nanoparticles with mean diameter of 120 nm ± 3.4. The effective internalization of nanoparticles in cancer cells via CD44-receptors, together with the more efficient intracellular release, resulted in a significant increase of drug efficacy, with IC50 reduced from 0.9959 and 2.516 μg mL-1 to 0.4014 and 0.3094 μg mL-1 for MCF-7 and MDA-MB-231, respectively. Conversely, no enhancement in drug toxicity was recorded in healthy MCF-10A cells. The efficacy of the proposed formulation was further investigated in the different biological steps involved in metastasis process, paving the way for further in vivo experiments.
Keywords: Breast cancer; CD44 receptors; GSH-responsive; HA-HSA conjugate; Metastasis process; Targeted nanoparticles.
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