Glutathione-responsive nano-vehicles as a promising platform for targeted intracellular drug and gene delivery.

TL;DR: The development of an effective method for using a single substance as multi-functional material for MSN to simultaneously regulate drug release and achieve targeted delivery is described.

TL;DR: The co-delivery systems result in markedly enhanced blood stability and in vivo half-lives of the small drugs and proteins, elevated tumor accumulation, as well as the capability of delivering the multiple agents to the same target sites with rational drug/protein ratios, which may facilitate maximizing the synergistic effects and therefore lead to optimal antitumor efficacy.

TL;DR: The progress of siRNA therapy as well as its medical application via nanoparticle-mediated delivery for cancer treatment are discussed.

TL;DR: The targeted delivery of therapeutic agents, as well as the combinational therapy strategy, result in the improved efficacy of disease treatments, though the introduction of a multifunctional nanogel-based drug delivery system.

TL;DR: This review presents the most outstanding contributions in the field of biodegradable polymeric nanoparticles used as drug delivery systems from 1990 through mid-2000.

TL;DR: Animal and human studies demonstrate that adequate protein nutrition is crucial for the maintenance of GSH homeostasis, and compelling evidence shows that GSH synthesis is regulated primarily by gamma-glutamylcysteine synthetase activity, cysteine availability, and GSH feedback inhibition.

TL;DR: The utility of polymeric micelles formed through the multimolecular assembly of block copolymers as novel core-shell typed colloidal carriers for drug and gene targeting and their feasibility as non-viral gene vectors is highlighted.

TL;DR: Based on the above mechanism, various potential applications of nanoparticles for delivery of therapeutic agents to the cells and tissue are discussed.