Endogenous Stimuli-responsive Nanocarriers for Drug Delivery

Chen, Huachao; Liu, Danyang; Guo, Zijian

doi:10.1246/cl.151176

Cited by 83 publications

(37 citation statements)

References 76 publications

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“…The human body represents a multitude of intrinsic microenvironments appropriate for the spatio‐temporal control of drug release. A multitude of systems have so far been described which have the ability to deliver a cargo or to activate the therapeutic effect, in response to an endogenous environmental factor (e.g., pH, redox potential, enzyme availability, or reactive oxygen species) or external stimuli (e.g., magnetic field, temperature, light) . Relevant examples of polypeptide conjugates described so far as drug delivery vehicles with inbuilt endogenously stimulated triggered release mechanisms are discussed within this section …”

Section: Stimuli‐triggered Drug Releasementioning

confidence: 99%

Polypeptide‐Based Conjugates as Therapeutics: Opportunities and Challenges

Zagorodko

Arroyo‐Crespo

Nebot

et al. 2016

Macromolecular Bioscience

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Synthetic polypeptides or polyamino acids have become a useful and multifunctional platform in advanced drug delivery studies. Nonetheless, the full potential of these systems has yet to be achieved. The final structure of polypeptide conjugates and their in vivo behavior are dependent on an extraordinarily complex pattern of interconnected physico-chemical and structural parameters, making sophisticated directional design of such systems difficult and often unachievable. In this review, the authors aim to discuss the role of these parameters in the successful design of different drug delivery architectures and to delineate some basic correlations between structure, properties, and the biological behavior of polypeptide-based conjugates.

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Section: Stimuli‐triggered Drug Releasementioning

confidence: 99%

Polypeptide‐Based Conjugates as Therapeutics: Opportunities and Challenges

Zagorodko

Arroyo‐Crespo

Nebot

et al. 2016

Macromolecular Bioscience

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“…Several smart drug delivery systems based on functionalized liposomes [6,7], micelles [8], mesoporous silica nanoparticles [9-12], carbon nanotubes [13], and inorganic nanoparticles [14] have been engineered. These systems allow to address the drug administration to the diseased tissue only [5,7], thus obtaining a reduction of the toxic effects of the drug along with an increase of the local drug concentration, and consequently an improvement of the therapeutic efficacy [15].…”

Section: Introductionmentioning

confidence: 99%

Mesoporous silica nanoparticles functionalized with hyaluronic acid. Effect of the biopolymer chain length on cell internalization

Nairi¹,

Magnolia²,

Piludu³

et al. 2018

Colloids and Surfaces B: Biointerfaces

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Mesoporous silica nanoparticles (MSNs) were functionalized with amino groups (MSN-NH) and then with hyaluronic acid, a biocompatible biopolymer which can be recognized by CD44 receptors in tumor cells, to obtain a targeting drug delivery system. To this purpose, three hyaluronic acid samples differing for the molecular weight, namely HA (8-15 kDa), HA (30-50 kDa) and HA (90-130 kDa), were used. The MSN-HA, MSN-HA, and MSN-HA materials were characterized through zeta potential and dynamic light scattering measurements at pH = 7.4 and T = 37 °C to simulate physiological conditions. While zeta potential showed an increasing negative value with the increase of the HA chain length, an anomalous value of the hydrodynamic diameter was observed for MSN-HA, which was smaller than that of MSN-HA and MSN-HA samples. The cellular uptake of MSN-HA samples on HeLa cells at 37 °C was studied by optical and electron microscopy. HA chain length affected significantly the cellular uptake that occurred at a higher extent for MSN-NH and MSN-HA than for MSN-HA and MSN-HA samples. Cellular uptake experiments carried out at 4 °C showed that the internalization process was inhibited for MSN-HA samples but not for MSN-NH. This suggests the occurrence of two different mechanisms of internalization. For MSN-NH the uptake is mainly driven by the attractive electrostatic interaction with membrane phospholipids, while MSN-HA internalization involves CD44 receptors overexpressed in HeLa cells.

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“…15 In order to deliver encapsulated drug to target tissues efficiently, efforts have been devoted to the development of intelligent delivery systems that respond to specific stimuli, such as pH level, temperature, and redox potential. [24][25][26][27][28] Among these are pH-responsive LPNPs, because the pH in inflammatory tissues (pH ~6.5), endosomes (pH ~5-6), and lysosomes (pH ~4-5) is significantly lower than that in blood circulation (pH ~7.4). 29,30 Poly(cyclohexane-1,4-diylacetone dimethylene ketal) (PCADK), a polyketal, is a promising material for constructing such drug carriers for inflammatory diseases and cancer, owing to its neutral degradation products and acid sensitivity.…”

Section: Introductionmentioning

confidence: 99%

Multifunctional folate receptor-targeting and pH-responsive nanocarriers loaded with methotrexate for treatment of rheumatoid arthritis

Zhao¹,

Zhao²,

Yu³

et al. 2017

IJN

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Rheumatoid arthritis (RA) is an autoimmune disease characterized by progressive cartilage and bone destruction. Activated macrophages that overexpress folic acid (FA) receptors play an important role in RA, due to their abundance in inflamed synovial membrane and joints. In an effort to deliver drugs to the inflamed tissues, multifunctional FA receptor-targeting and pH-responsive nanocarriers were developed. They were composed of lipids, polyethylene glycol (PEG)–poly(lactic- co -glycolic acid) (PLGA) forming a hydrophilic shell, FA around the hydrophilic shell as a targeting ligand, and poly(cyclohexane-1,4-diylacetone dimethylene ketal) (PCADK) and PLGA as a hydrophobic core. PCADK also acts as a pH-responsive material. Methotrexate (Mtx) was encapsulated in the nanoparticles, which exhibited pH-responsive release in vitro. Cellular uptake and cytotoxicity experiments revealed that FA-PEG-PLGA/PCADK–lipid nanoparticles loaded with Mtx (FA-PPLNPs) exhibited superior cellular uptake and higher cytotoxicity to activated macrophages than PPLNPs/Mtx. The therapeutic effect of FA-PPLNPs/Mtx in RA was confirmed in an adjuvant-induced arthritis rat model. These results suggest that the multifunctional folate receptor-targeting and pH-responsive nanocarriers are promising for the treatment of RA.

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Endogenous Stimuli-responsive Nanocarriers for Drug Delivery

Cited by 83 publications

References 76 publications

Polypeptide‐Based Conjugates as Therapeutics: Opportunities and Challenges

Polypeptide‐Based Conjugates as Therapeutics: Opportunities and Challenges

Mesoporous silica nanoparticles functionalized with hyaluronic acid. Effect of the biopolymer chain length on cell internalization

Multifunctional folate receptor-targeting and pH-responsive nanocarriers loaded with methotrexate for treatment of rheumatoid arthritis

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