Exploiting Local Knowledge to Enhance Energy-Efficient Geographic Routing

Tumour vasculature is generally disordered because of the production of excessive angiogenic factors by tumour cells, which results in tumour progression and reduces the effectiveness of radiotherapy or chemotherapy. Transient anti-angiogenic therapies that regulate tumour vascular morphology and function and improve the efficiency of antitumour therapy are under investigation. Recombinant human endostatin (Endostar/rhES) is a vascular angiogenesis–disrupting agent that has been used to treat non-small cell lung cancer (NSCLC) in the clinical setting. In this study, we used gold nanoparticles (AuNPs) as a drug-delivery system (DDS) for targeted tumour delivery of rhES for short therapy, which resulted in transient tumour vascular normalization, reduced permeability and hypoxia, strengthened blood vessel integrity, and increased blood-flow perfusion. Moreover, combination therapy with 5-FU over this timeframe was substantially more effective than 5-FU monotherapy. In conclusion, our research demonstrates the potential use of AuNPs as a drug-delivery platform for transporting rhES into a tumour to induce transient tumour vascular normalization and enhance the antitumour efficacy of cytotoxic drugs.

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Antioxidants Improve Lipid Overload-Induced Skeletal Muscle Myofibre Loss In Vitro and In Vivo

Ding¹,

XiaoBo²,

Xiaojuan³

et al. 2017

Mol Biol

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Intercellular Sodium Regulates Repolarization in Cardiac Tissue with Sodium Channel Gain of Function

Nowak

Greer-Short

Wan

et al. 2020

Biophysical Journal

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In cardiac myocytes, action potentials are initiated by an influx of sodium (Na þ ) ions via voltage-gated Na þ channels. Na þ channel gain of function (GOF), arising in both inherited conditions associated with mutation in the gene encoding the Na þ channel and acquired conditions associated with heart failure, ischemia, and atrial fibrillation, enhance Na þ influx, generating a late Na þ current that prolongs action potential duration (APD) and triggering proarrhythmic early afterdepolarizations (EADs). Recent studies have shown that Na þ channels are highly clustered at the myocyte intercalated disk, facilitating formation of Na þ nanodomains in the intercellular cleft between cells. Simulations from our group have recently predicted that narrowing the width of the intercellular cleft can suppress APD prolongation and EADs in the presence of Na þ channel mutations because of increased intercellular cleft Na þ ion depletion. In this study, we investigate the effects of modulating multiple extracellular spaces, specifically the intercellular cleft and bulk interstitial space, in a novel computational model and experimentally via osmotic agents albumin, dextran 70, and mannitol. We perform optical mapping and transmission electron microscopy in a drug-induced (sea anemone toxin, ATXII) Na þ channel GOF isolated heart model and modulate extracellular spaces via osmotic agents. Singlecell patch-clamp experiments confirmed that the osmotic agents individually do not enhance late Na þ current. Both experiments and simulations are consistent with the conclusion that intercellular cleft narrowing or expansion regulates APD prolongation; in contrast, modulating the bulk interstitial space has negligible effects on repolarization. Thus, we predict that intercellular cleft Na þ nanodomain formation and collapse critically regulates cardiac repolarization in the setting of Na þ channel GOF.

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Multi-residual Pesticide Monitoring in Commercial Chinese Herbal Medicines by Gas Chromatography–Triple Quadrupole Tandem Mass Spectrometry

et al. 2013

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Wu XiaoBo

Gold Nanoparticle–Mediated Targeted Delivery of Recombinant Human Endostatin Normalizes Tumour Vasculature and Improves Cancer Therapy

Antioxidants Improve Lipid Overload-Induced Skeletal Muscle Myofibre Loss In Vitro and In Vivo

Intercellular Sodium Regulates Repolarization in Cardiac Tissue with Sodium Channel Gain of Function

Multi-residual Pesticide Monitoring in Commercial Chinese Herbal Medicines by Gas Chromatography–Triple Quadrupole Tandem Mass Spectrometry

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