Liposomes‐Camouflaged Redox‐Responsive Nanogels to Resolve the Dilemma between Extracellular Stability and Intracellular Drug Release

Ma, Jinfeng; Deng, Hongzhang; Zhao, Fuli; Deng, Liandong; Wang, Weiwei; Dong, Anjie; Zhang, Jianhua

doi:10.1002/mabi.201800049

Cited by 19 publications

(10 citation statements)

References 58 publications

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“…In 2018, Zhang et al prepared various liposome-camouflaged nanogels [82,108,109], adopting for all systems the PEGylation strategy with chains of 2000 Da grafted on the lipidic shell. Their most distinguished work [82] reports the drug delivery combined with the photothermal effect.…”

Section: Nanogels Inside Liposomes: Nanolipogelsmentioning

confidence: 99%

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Hybrid Nanogels: Stealth and Biocompatible Structures for Drug Delivery Applications

2019

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Considering nanogels, we have focused our attention on hybrid nanosystems for drug delivery and biomedical purposes. The distinctive strength of these structures is the capability to join the properties of nanosystems with the polymeric structures, where versatility is strongly demanded for biomedical applications. Alongside with the therapeutic effect, a non-secondary requirement of the nanosystem is indeed its biocompatibility. The importance to fulfill this aim is not only driven by the priority to reduce, as much as possible, the inflammatory or the immune response of the organism, but also by the need to improve circulation lifetime, biodistribution, and bioavailability of the carried drugs. In this framework, we have therefore gathered the hybrid nanogels specifically designed to increase their biocompatibility, evade the recognition by the immune system, and overcome the self-defense mechanisms present in the bloodstream of the host organism. The works have been essentially organized according to the hybrid morphologies and to the strategies adopted to fulfill these aims: Nanogels combined with nanoparticles or with liposomes, and involving polyethylene glycol chains or zwitterionic polymers.

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Section: Nanogels Inside Liposomes: Nanolipogelsmentioning

confidence: 99%

“…In a slight variation proposed by the same authors [109], the nanogel was prepared by adopting cysteine dimethacrylate as redox responsive disulfide crosslinker. Thus, the nanohybrid release is triggered by the presence of glutathione inside the cells.…”

Section: Nanogels Inside Liposomes: Nanolipogelsmentioning

confidence: 99%

Hybrid Nanogels: Stealth and Biocompatible Structures for Drug Delivery Applications

2019

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“…Another disulfide-based strategy entailed the formation of hydrogel cores with cross-linked 3D structures, which significantly improve mechanical stability, determine a unique rheological behavior and rapid stimuli-responsiveness to the resulting liposomal formulations [56]. LP-camouflaged, redox-responsive nanogels ("R-lipogels") were designed and prepared by LP-templated in situ polymerization process of acrylamide (AM) in presence of water-soluble cystine dimethacrylate (CDA).…”

Section: Introductionmentioning

confidence: 99%

Stimulus-responsive liposomes for biomedical applications

Antoniou

Giofrè

Seneci

et al. 2021

Drug Discovery Today

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Liposomes are amphipathic lipidic supramolecular aggregates able to encapsulate and carry molecules of both hydrophilic and hydrophobic nature. They have been widely used as in vivo drug delivery systems since long due to their favorable features, such as synthetic flexibility, biodegradability, biocompatibility, low immunogenicity, and negligible toxicity. In recent years, the possibility to introduce chemical modifications on liposomes has paved the way to smart liposome-based drug delivery systems characterized by even more tunable and disease-directed features. In this review, the different types of chemical modifications introduced so far have been highlighted, with a particular focus on internal stimuli-responsive liposomes and pro-drug activation.

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“…Many redox‐responsive cross‐linkers being utilized for nanogel synthesis contain cysteine and cystamine as redox‐responsive constituents, terminal acrylates to take part in radical polymerization, and PEG as a functional skeletal unit of the nanogel, owing to its advantageous properties as discussed in the preceding section . Some of the cross‐linkers mainly being used are l ‐cystine N ‐carboxyanhydride ( l ‐Cys NCA), dithiopropionyl poly(ethylene glycol)dimethacrylate (ssDMA), cystine dimethacrylate (CDA), 2‐(pyridin‐2‐yldisulfanyl)ethyl acrylate (PDSA), N,N′ ‐bis(acryloyl)cystamine (BAC), pendent disulfide‐functionalized methacrylate (HMssEt), 11,11′‐diselanediylbis(undecan‐1‐ol) (DSeOH), 11,11′‐ditellurediylbis(undecan‐1‐ol) (DTeOH), N,N′ ‐bis (methacryloyl)selenocystamine (BMASC), and dithio‐bis‐maleimidoethane (DTME) ( Figure 2 and Table 2 ). Disulfide (SS), ditellurium (TeTe), and diselenide (SeSe) bonds are the main reported building blocks and important structural units of redox‐responsive materials and are described to possess excellent activity in the presence of reductants/oxidants .…”

Section: Fabrication Of Redox‐responsive Nanogelsmentioning

confidence: 99%

A Comprehensive Outlook of Synthetic Strategies and Applications of Redox‐Responsive Nanogels in Drug Delivery

Kumar

Liu

Behl

2019

Macromolecular Bioscience

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Increasing recognition of the role of oxidative stress in the pathogenesis of many clinical conditions and the existence of defined redox potential in healthy tissues has led to extensive research in the development of redox‐responsive materials for biomedical applications. Especially, considerable growth has been seen in the fabrication of polymeric nanogel–based drug delivery carriers utilizing redox‐responsive cross‐linkers bearing a variety of functional groups via various synthetic strategies. Redox‐responsive polymeric nanogels provide an advantage of facile chemical modification post synthesis and exhibit a remarkable response to biological redox stimuli. Due to the interdisciplinary nature of the subject, a more profound combined conceptual knowledge from a chemical and biological point of view is imperative for the rational design of redox‐responsive nanogels. The present review provides an insight into the design and fabrication of redox‐responsive nanogels with particular emphasis on synthetic strategies utilized for the development of redox‐responsive cross‐linkers, polymerization techniques being followed for nanogel development and biomedical applications. Cooperative effect of redox trigger with other stimuli such as pH and temperature in the evolution of dual and triple stimuli‐responsive nanogels is also discussed.

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Liposomes‐Camouflaged Redox‐Responsive Nanogels to Resolve the Dilemma between Extracellular Stability and Intracellular Drug Release

Cited by 19 publications

References 58 publications

Hybrid Nanogels: Stealth and Biocompatible Structures for Drug Delivery Applications

Hybrid Nanogels: Stealth and Biocompatible Structures for Drug Delivery Applications

Stimulus-responsive liposomes for biomedical applications

A Comprehensive Outlook of Synthetic Strategies and Applications of Redox‐Responsive Nanogels in Drug Delivery

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