Dongyu Duan scite author profile

Introduction Efficient delivery of rotigotine into the brain is crucial for obtaining maximum therapeutic efficacy for Parkinson’s disease (PD). Therefore, in the present study, we prepared lactoferrin-modified rotigotine nanoparticles (Lf-R-NPs) and studied their biodistribution, pharmacodynamics, and neuroprotective effects following nose-to-brain delivery in the rat 6-hydroxydopamine model of PD. Materials and methods The biodistribution of rotigotine nanoparticles (R-NPs) and Lf-R-NPs after intranasal administration was assessed by liquid extraction surface analysis coupled with tandem mass spectrometry. Contralateral rotations were quantified to evaluate pharmacodynamics. Tyrosine hydroxylase and dopamine transporter immunohistochemistry were performed to compare the neuroprotective effects of levodopa, R-NPs, and Lf-R-NPs. Results Liquid extraction surface analysis coupled with tandem mass spectrometry analysis, used to examine rotigotine biodistribution, showed that Lf-R-NPs more efficiently supplied rotigotine to the brain (with a greater sustained amount of the drug delivered to this organ, and with more effective targeting to the striatum) than R-NPs. The pharmacodynamic study revealed a significant difference ( P <0.05) in contralateral rotations between rats treated with Lf-R-NPs and those treated with R-NPs. Furthermore, Lf-R-NPs significantly alleviated nigrostriatal dopaminergic neurodegeneration in the rat model of 6-hydroxydopamine-induced PD. Conclusion Our findings show that Lf-R-NPs deliver rotigotine more efficiently to the brain, thereby enhancing efficacy. Therefore, Lf-R-NPs might have therapeutic potential for the treatment of PD.

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Trastuzumab- and Fab′ fragment-modified curcumin PEG-PLGA nanoparticles: preparation and evaluation in vitro and in vivo

Duan¹,

Wang²,

Ni³

et al. 2018

IJN

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IntroductionNanoparticles (NPs) modified with bio-ligands represent a promising strategy for active targeted drug delivery to tumour. However, many targeted ligands, such as trastuzumab (TMAB), have high molecular weight, limiting their application for targeting. In this study, we prepared Fab’ (antigen-binding fragments cut from TMAB)-modified NPs (Fab′-NPs) with curcumin (Cur) as a model drug for more effective targeting of human epidermal growth factor receptor 2 (HER2/ErbB2/Neu), which is overexpressed on breast cancer cells.Material and methodsThe release kinetics was conducted by dialysis bags. The ability to kill HER2-overexpressing BT-474 cells of Fab′-Cur-NPs compared with TMAB-Cur-NPs was conducted by cytotoxicity experiments. Qualitative and quantitative cell uptake studies using coumarin-6 (fluorescent probe)-loaded NPs were performed by fluorescence microscopy and flow cytometry. Pharmacokinetics and biodistribution experiments in vivo were assessed by liquid chromatography–tandem mass spectrometry (LC-MS/MS).ResultsThe release kinetics showed that both Fab′-Cur-NPs and TMAB-Cur-NPs provided continuous, slow release of curcumin for 72 h, with no significant difference. In vitro cytotoxicity experiments showed that Fab′-Cur-NPs manifested prominent ability to kill HER2-overexpressing BT-474 cells compared with TMAB-Cur-NPs. Qualitative and quantitative cell uptake studies indicated that the accumulation of Fab′-NPs was greater than that of TMAB-NPs in BT-474 (HER2+) cells; However, there was no significant difference in MDA-MB-231 (HER2−) cells. Pharmacokinetics and biodistribution experiments in vivo demonstrated that the half-life (t1/2) and area under the blood concentration-time curve (AUC0-t) of Fab′-Cur-NPs increased 5.30-fold and 1.76-fold relative to those of TMAB-Cur-NPs, respectively. Furthermore, the tumor accumulation of Fab′-Cur-NPs was higher than that of TMAB-Cur-NPs.ConclusionFab′ fragment has greater capacity than the intact antibody to achieve tumor targeting through NP-based delivery.

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Recent Developments in Pharmacological Effect, Mechanism and Application Prospect of Diazeniumdiolates

Ming

Liu

et al. 2020

Front. Pharmacol.

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Nitric oxide (NO) is a simple structured and unstable free radical molecule, which participates in the regulation of many pathophysiological processes. It functions both as a second messenger and as an endogenous neurotransmitter. Diazeniumdiolates (NONOates) are a series of compounds containing the functional parent nuclear structure of [N(O)NO] -, which are the most widely studied NO donors. NONOates are unstable and easy to release NO in physiological conditions. The biomedical applications and drug development of NO donor have attracted the scientists' attention in recent years. In this review, recent advances in NONOates research are highlighted in terms of chemical structures, molecular characteristics, pharmacological effects, and biomedical application prospects.

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Tf ligand-receptor-mediated exenatide-Zn²⁺ complex oral-delivery system for penetration enhancement of exenatide

Zhang

Shi

Song

et al. 2018

Journal of Drug Targeting

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Safe and effective oral delivery of peptide is a challenge. Here, we used exenatide and zinc ions (Zn) to form a complex to explore a meaningful oral-targeted drug-delivery system. Polyethylene glycol-poly(lactic acid-co-glycolic acid) (PEG-PLGA) was used to prepare nanoparticles (NPs) to escape the degradation caused by gastrointestinal enzymes. Transferrin (Tf) was used as a targeting group. PEG-PLGA-NPs and Tf-modified exenatide-Zn-loaded NPs (Tf-PEG-PLGA-NPs) were uniformly sized spheres according to transmission electron microscopy. The results of pharmacodynamic and pharmacokinetic investigations in vivo were consistent with in vitro studies using Caco-2 cells. Tf enhanced NPs transport in cell-uptake and transmembrane-transport experiments. Our results showed that the relative bioavailability of Tf-exenatide-Zn-NPs was higher than that of exenatide-Zn-NPs. The relative bioavailability of Tf-exenatide-Zn-NPs versus subcutaneous injection of exenatide was 6.45%. This was a preliminary exploration of the oral administration of exenatide, that data from which can be used for future investigations.

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Dongyu Duan

Lactoferrin-modified rotigotine nanoparticles for enhanced nose-to-brain delivery: LESA-MS/MS-based drug biodistribution, pharmacodynamics, and neuroprotective effects

Trastuzumab- and Fab′ fragment-modified curcumin PEG-PLGA nanoparticles: preparation and evaluation in vitro and in vivo

Recent Developments in Pharmacological Effect, Mechanism and Application Prospect of Diazeniumdiolates

Tf ligand-receptor-mediated exenatide-Zn²⁺ complex oral-delivery system for penetration enhancement of exenatide

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Dongyu Duan

Lactoferrin-modified rotigotine nanoparticles for enhanced nose-to-brain delivery: LESA-MS/MS-based drug biodistribution, pharmacodynamics, and neuroprotective effects

Trastuzumab- and Fab&prime; fragment-modified curcumin PEG-PLGA nanoparticles: preparation and evaluation in vitro and in vivo

Recent Developments in Pharmacological Effect, Mechanism and Application Prospect of Diazeniumdiolates

Tf ligand-receptor-mediated exenatide-Zn2+ complex oral-delivery system for penetration enhancement of exenatide

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Product

Resources

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Trastuzumab- and Fab′ fragment-modified curcumin PEG-PLGA nanoparticles: preparation and evaluation in vitro and in vivo

Tf ligand-receptor-mediated exenatide-Zn²⁺ complex oral-delivery system for penetration enhancement of exenatide