Ken Liu scite author profile

SUMMARY Herpes Zoster (shingles) causes significant morbidity in immune compromised hosts and older adults. While a vaccine is available for prevention of shingles, its efficacy declines with age. To help to understand the mechanisms driving vaccinal responses, we constructed a multiscale, multifactorial response network (MMRN) of immunity in healthy young and older adults immunized with the live attenuated shingles vaccine Zostavax®. Vaccination induces robust antigen-specific antibody, plasmablasts and CD4+ T cells, yet limited CD8+ T cell and antiviral responses. The MMRN reveals striking associations between orthogonal datasets such as transcriptomic and metabolomics signatures, cell populations and cytokine levels, and identifies immune and metabolic correlates of vaccine immunity. Networks associated with inositol phosphate, glycerophospholipids and sterol metabolism are tightly coupled with immunity. Critically, the sterol regulatory binding protein 1 and its targets are key integrators of antibody and T follicular cell responses. Our approach is broadly applicable to study human immunity, and can help to identify predictors of efficacy as well as mechanisms controlling immunity to vaccination.

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Suvorexant in Patients With Insomnia: Results From Two 3-Month Randomized Controlled Clinical Trials

Herring

Connor

Ivgy-May

et al. 2016

Biological Psychiatry

226

245

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Computational Metabolomics: A Framework for the Million Metabolome

Uppal

Walker

Liu

et al. 2016

Chem. Res. Toxicol.

211

179

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“Sola dosis facit venenum.” These words of Paracelsus, “the dose makes the poison”, can lead to a cavalier attitude concerning potential toxicities of the vast array of low abundance environmental chemicals to which humans are exposed. Exposome research teaches that 80–85% of human disease is linked to environmental exposures. The human exposome is estimated to include >400,000 environmental chemicals, most of which are uncharacterized with regard to human health. In fact, mass spectrometry measures >200,000 m/z features (ions) in microliter volumes derived from human samples; most are unidentified. This crystallizes a grand challenge for chemical research in toxicology: to develop reliable and affordable analytical methods to understand health impacts of the extensive human chemical experience. To this end, there appears to be no choice but to abandon the limitations of measuring one chemical at a time. The present review looks at progress in computational metabolomics to provide probability based annotation linking ions to known chemicals and serve as a foundation for unambiguous designation of unidentified ions for toxicologic study. We review methods to characterize ions in terms of accurate mass m/z, chromatographic retention time, correlation of adduct, isotopic and fragment forms, association with metabolic pathways and measurement of collision-induced dissociation products, collision cross section, and chirality. Such information can support a largely unambiguous system for documenting unidentified ions in environmental surveillance and human biomonitoring. Assembly of this data would provide a resource to characterize and understand health risks of the array of low-abundance chemicals to which humans are exposed.

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Coherent perfect absorption and transparency in a nanostructured graphene film

Zhang¹,

Guo²,

Liu³

et al. 2014

Opt. Express

181

104

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We show numerically that both coherent perfect absorption and transparency can be realized in a monolayer graphene. The graphene film, doped and patterned with a periodical array of holes, can support plasmonic resonances in the Mid-infrared range. Under the illumination of two counter-propagating coherent optical beams, resonant optical absorption may be tuned continuously from 99.93% to less than 0.01% by controlling their relative phase which gives a modulation contrast of 40 dB (about 30 dB for transmission). The phenomenon provides a versatile platform for manipulating the interaction between light and graphene and may serve applications in optical modulators, transducers, sensors and coherent detectors.

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Functional Expression ofDrosophila paraSodium Channels

Warmke

Reenan²,

Wang³

et al. 1997

199

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The Drosophila para sodium channel α subunit was expressed in Xenopus oocytes alone and in combination with tipE, a putative Drosophila sodium channel accessory subunit. Coexpression of tipE with para results in elevated levels of sodium currents and accelerated current decay. Para/TipE sodium channels have biophysical and pharmacological properties similar to those of native channels. However, the pharmacology of these channels differs from that of vertebrate sodium channels: (a) toxin II from Anemonia sulcata, which slows inactivation, binds to Para and some mammalian sodium channels with similar affinity (K d ≅ 10 nM), but this toxin causes a 100-fold greater decrease in the rate of inactivation of Para/TipE than of mammalian channels; (b) Para sodium channels are >10-fold more sensitive to block by tetrodotoxin; and (c) modification by the pyrethroid insecticide permethrin is >100-fold more potent for Para than for rat brain type IIA sodium channels. Our results suggest that the selective toxicity of pyrethroid insecticides is due at least in part to the greater affinity of pyrethroids for insect sodium channels than for mammalian sodium channels.

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Ken Liu

Metabolic Phenotypes of Response to Vaccination in Humans

Suvorexant in Patients With Insomnia: Results From Two 3-Month Randomized Controlled Clinical Trials

Computational Metabolomics: A Framework for the Million Metabolome

Coherent perfect absorption and transparency in a nanostructured graphene film

Functional Expression ofDrosophila paraSodium Channels

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