Feng Song scite author profile

Neonicotinoid insecticides, such as imidacloprid, are selective agonists of insect nicotinic acetylcholine receptors (nAChRs) and are used extensively in areas of crop protection and animal health to control a variety of insect pest species. Here, we describe studies performed with nAChR subunits Nlα1 and Nlα2 cloned from the brown planthopper Nilaparvata lugens, a major insect pest of rice crops in many parts of Asia. The influence of Nlα1 and Nlα2 subunits upon the functional properties of recombinant nAChRs has been examined by expression in Xenopus oocytes. In addition, the influence of a Nlα1 mutation (Y151S), which has been linked to neonicotinoid lab generated resistance in N. lugens, has been examined. As in previous studies of insect α subunits, functional expression has been achieved by co‐expression with the mammalian β2 subunit. This approach has revealed a significantly higher apparent affinity of imidacloprid for Nlα1/β2 than for Nlα2/β2 nAChRs. In addition, evidence has been obtained for the co‐assembly of Nlα1 and Nlα2 subunits into ‘triplet’ nAChRs of subunit composition Nlα1/Nlα2/β2. Evidence has also been obtained which demonstrates that the resistance‐associated Y151S mutation has a significantly reduced effect on neonicotinoid agonist activity when Nlα1 is co‐assembled with Nlα2 than when expressed as the sole α subunit in a heteromeric nAChR. These findings may be of importance in assessing the likely impact of the target‐site mutations such as Y151S upon neonicotinoid insecticide resistance in insect field populations.

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Irisin Exerts Neuroprotective Effects on Cultured Neurons by Regulating Astrocytes

Wang

et al. 2018

Mediators of Inflammation

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Neurons suffer detrimental effects from β-amyloid toxicity in Alzheimer's disease. The exercise hormone, irisin, is found to induce a neuroprotective gene program and facilitates the beneficial effects on cognitive function. But no effort is made to test its direct protective effects on neurons against the Aβ-induced cell toxicity so far. In the present study, we investigated whether irisin could protect neurons against Aβ- (25–35) induced cell damage and explored the possible underlying mechanisms. Primary cell cultures of astrocytes and neurons were established. Conditioned medium from astrocyte was collected for the treatment and biochemistry assay study. To explore the protein expression changes, Western blot and ELISA assays were used in these in vitro cell culture models. Exposure of hippocampal neurons to 10 μM Aβ (25–35) caused significant reduction on cell viability, and the toxic effect was not significantly reduced by the coadministration of irisin. However, pretreated astrocyte-conditioned medium with irisin for 12 hours notably protected the neurons from the toxicity of Aβ. Also, we found that irisin could attenuate the release of IL-6 and IL-1β from cultured astrocytes and decrease the expression level of COX-2 and phosphorylation of AKT. Last, we found that irisin could reduce NFκB activation in astrocyte exposed to Aβ by preventing the phosphorylation and the loss of IκBα. Our finding may provide novel evidence for the future application of irisin in the treatment of Alzheimer's disease and the memory dysfunction in diabetes mellitus.

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Feng Song

The Properties of Cytokines in Multiple Sclerosis: Pros and Cons

Radiation effects on the cosmetic outcomes of immediate and delayed autologous breast reconstruction: An argument about timing

Heteromeric co‐assembly of two insect nicotinic acetylcholine receptor α subunits: influence on sensitivity to neonicotinoid insecticides

Irisin Exerts Neuroprotective Effects on Cultured Neurons by Regulating Astrocytes

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