Wentian Xiang scite author profile

Immunotherapy has emerged as a promising new approach for cancer treatment. However, clinically available drugs have been limited until recently, and the antitumor efficacy of most cancer immunotherapies still needs to be improved. Herein, we develop diselenide–pemetrexed assemblies that combine natural killer (NK) cell‐based cancer immunotherapy with radiotherapy and chemotherapy in a single system. The assemblies are prepared by co‐assembly between pemetrexed and cytosine‐containing diselenide through hydrogen bonds. Under γ‐radiation, the hydrogen bonds are cleaved, resulting in the release of pemetrexed. At the same time, diselenide can be oxidized to seleninic acid, which suppresses the expression of human leukocyte antigen E (HLA‐E) in cancer cells, thus activating the immune response of NK cells. In this way, cancer immunotherapy is combined with radiotherapy and chemotherapy, providing a new strategy for cancer treatment.

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Selenium-Containing Amphiphiles Reduced and Stabilized Gold Nanoparticles: Kill Cancer Cells via Reactive Oxygen Species

Xiang

et al. 2016

ACS Appl. Mater. Interfaces

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Selenium has attracted increasing interest in recent decades because of the function of regulating the redox balance in the human body. However, biomedical studies of selenium are still limited. Gold nanoparticles (AuNPs), typically prepared by a first reduction step followed by a second stabilization step, are widely applied in biomedical studies. However, their own anticancer activity is less studied. Here, we report 2 nm AuNPs with significant anticancer activity (IC50 = 20 μM) that is stabilized by a selenium-containing amphiphile EGSe-tMe. The AuNPs are prepared by simply mixing chloroauric acid (HAuCl4) with EGSe-tMe, which acts as both a reducing agent and a stabilizer. In contrast to AuNPs prepared by EGSe-tMe, EGSe-tMe alone and typically prepared AuNPs show little anticancer activity even at concentrations up to 250 μM. Mechanistic studies suggest that selenium in cooperation with AuNPs can induce high concentrations of reactive oxygen species (ROS) in cancer cells, leading to cellular apoptosis.

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Self-assembly regulated anticancer activity of platinum coordinated selenomethionine

Xiang

et al. 2018

Biomaterials

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Quantifying the Bonding Strength of Gold‐Chalcogen Bonds in Block Copolymer Systems

Xiang

et al. 2019

Chemistry An Asian Journal

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Gold‐chalcogen interactions are ubiquitous in gold biological and medicinal systems. Understanding the nature of these interactions can provide the basis for regulating their structures and functionalities, and a reasonable way to interpret the differences in various properties. However, the relative strength of gold‐chalcogen bonds remains controversial, and the conclusions of many related works are inconsistent. Thus, in this work, we successfully quantified the relative strength of Au‐X (X=S, Se, and Te from chalcogenide‐containing A‐B‐A type block copolymers) interactions at the single‐molecule level through single‐molecule force spectroscopy (SMFS) from a kinetic point of view and quantum chemical studies from a thermodynamic point of view. Both sets of results suggested that the strength of the Au‐X bonds decreases as Au‐Te>Au‐Se>Au‐S. Our findings unveiled the relative strength and nature of gold‐chalcogen interactions, which may help expand their application in electronics, catalysis, medicine and many other fields.

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Fischesserite‐Inspired Recyclable Se‐Polyurethanes for Selective Gold Extraction

Dai

Zheng

Tan

et al. 2020

Advanced Sustainable Systems

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Faced with ever‐severe gold mineral depletion, obtaining a sustainable gold resource by utilization of accumulating waste electrical and electronic equipment (WEEE) is of vital importance. Inspired by fischesserite, the first naturally occurring selenide of gold, a novel selenium‐containing polyurethane (Se‐polyurethane) is prepared. This material is able to extract aqueous gold in its elemental form with a selectivity 437 times over Cu2+and 443 times over Ni2+and a capacity of 802 mg gold g‐1. The extracted gold can be collected through a noncalcination post‐treatment procedure and the Se‐polyurethane can be recycled via a convenient regeneration procedure. Derived from this material, a high‐throughput circulating aqueous gold mining system and a crosslinked Se‐sponge are illustrated to mimic dynamic and static extraction processes, respectively for possible industrialization. These selenium‐containing materials have the potential to be a useful tool in gold extraction to help prevent future resource depletion.

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Wentian Xiang

Diselenide–Pemetrexed Assemblies for Combined Cancer Immuno‐, Radio‐, and Chemotherapies

Selenium-Containing Amphiphiles Reduced and Stabilized Gold Nanoparticles: Kill Cancer Cells via Reactive Oxygen Species

Self-assembly regulated anticancer activity of platinum coordinated selenomethionine

Quantifying the Bonding Strength of Gold‐Chalcogen Bonds in Block Copolymer Systems

Fischesserite‐Inspired Recyclable Se‐Polyurethanes for Selective Gold Extraction

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