Yushi Bai scite author profile

One of the unique features of ␤-cells is their relatively low expression of many antioxidant enzymes. This could render ␤-cells susceptible to oxidative damage but may also provide a system that is sensitive to reactive oxygen species as signals. In isolated mouse islets and INS-1(832/13) cells, glucose increases intracellular accumulation of H 2 O 2 . In both models, insulin secretion could be stimulated by provision of either exogenous H 2 O 2 or diethyl maleate, which raises intracellular H 2 O 2 levels. Provision of exogenous H 2 O 2 scavengers, including cell permeable catalase and N-acetyl-Lcysteine, inhibited glucose-stimulated H 2 O 2 accumulation and insulin secretion (GSIS). In contrast, cell permeable superoxide dismutase, which metabolizes superoxide into H 2 O 2 , had no effect on GSIS. Because oxidative stress is an important risk factor for ␤-cell dysfunction in diabetes, the relationship between glucose-induced H 2 O 2 generation and GSIS was investigated under various oxidative stress conditions. Acute exposure of isolated mouse islets or INS-1(832/ 13) cells to oxidative stressors, including arsenite, 4-hydroxynonenal, and methylglyoxal, led to decreased GSIS. This impaired GSIS was associated with increases in a battery of endogenous antioxidant enzymes. Taken together, these findings suggest that H 2 O 2 derived from glucose metabolism is one of the metabolic signals for insulin secretion, whereas oxidative stress may disturb its signaling function. Diabetes

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Protein Assembly: Versatile Approaches to Construct Highly Ordered Nanostructures

Luo

et al. 2016

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Nature endows life with a wide variety of sophisticated, synergistic, and highly functional protein assemblies. Following Nature's inspiration to assemble protein building blocks into exquisite nanostructures is emerging as a fascinating research field. Dictating protein assembly to obtain highly ordered nanostructures and sophisticated functions not only provides a powerful tool to understand the natural protein assembly process but also offers access to advanced biomaterials. Over the past couple of decades, the field of protein assembly has undergone unexpected and rapid developments, and various innovative strategies have been proposed. This Review outlines recent advances in the field of protein assembly and summarizes several strategies, including biotechnological strategies, chemical strategies, and combinations of these approaches, for manipulating proteins to self-assemble into desired nanostructures. The emergent applications of protein assemblies as versatile platforms to design a wide variety of attractive functional materials with improved performances have also been discussed. The goal of this Review is to highlight the importance of this highly interdisciplinary field and to promote its growth in a diverse variety of research fields ranging from nanoscience and material science to synthetic biology.

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Atypical Responsiveness of the Orphan Receptor GPR55 to Cannabinoid Ligands

Kapur

Zhao

Sharir

et al. 2009

Journal of Biological Chemistry

251

289

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The cannabinoid receptor 1 (CB 1 ) and CB 2 cannabinoid receptors, associated with drugs of abuse, may provide a means to treat pain, mood, and addiction disorders affecting widespread segments of society. Whether the orphan G-protein coupled receptor GPR55 is also a cannabinoid receptor remains unclear as a result of conflicting pharmacological studies. GPR55 has been reported to be activated by exogenous and endogenous cannabinoid compounds but surprisingly also by the endogenous non-cannabinoid mediator lysophosphatidylinositol (LPI). We examined the effects of a representative panel of cannabinoid ligands and LPI on GPR55 using a ␤-arrestingreen fluorescent protein biosensor as a direct readout of agonist-mediated receptor activation. Our data demonstrate that AM251 and SR141716A (rimonabant), which are cannabinoid antagonists, and the lipid LPI, which is not a cannabinoid receptor ligand, are GPR55 agonists. They possess comparable efficacy in inducing ␤-arrestin trafficking and, moreover, activate the G-protein-dependent signaling of protein kinase C␤II. Conversely, the potent synthetic cannabinoid agonist CP55,940 acts as a GPR55 antagonist/partial agonist. CP55,940 blocks GPR55 internalization, the formation of ␤-arrestin GPR55 complexes, and the phosphorylation of ERK1/2; CP55,940 produces only a slight amount of protein kinase C␤II membrane recruitment but does not stimulate membrane remodeling like LPI, AM251, or rimonabant. Our studies provide a paradigm for measuring the responsiveness of GPR55 to a variety of ligand scaffolds comprising cannabinoid and novel compounds and suggest that at best GPR55 is an atypical cannabinoid responder. The activation of GPR55 by rimonabant may be responsible for some of the off-target effects that led to its removal as a potential obesity therapy.The CB 1 2 and CB 2 cannabinoid receptors comprise a twomember subfamily of G-protein-coupled receptors (GPCRs) that are notable as the targets of the tetrahydrocannabinol (THC) derivatives found in marijuana. More recently CB 1 receptors along with other GPCRs have been promoted as therapeutic pharmacological targets in the billion dollar weight loss market for controversial drugs such as rimonabant (SR141716A) and Fen-phen. Thus, an important utility of cannabinoid family receptors to society appears to arise from their role in regulating a broad spectrum of addiction-based behaviors, and the addition of new members to the cannabinoid receptor family may have social and economic implications that reach far beyond the initial scientific discovery. As a consequence, the re-classification of an orphan GPCR as a cannabinoid family member should be done with caution requiring strict criteria of receptor activation by THC derivatives or endogenous cannabinoid compounds and a widespread agreement of the results by the scientific community.Marijuana, one of the most widely abused substances (1), mediates many of its psychotropic effects by targeting CB 1 receptors in the central nervous system, but studies with CB 1 and CB 2 kno...

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Yushi Bai

Reactive Oxygen Species as a Signal in Glucose-Stimulated Insulin Secretion

Protein Assembly: Versatile Approaches to Construct Highly Ordered Nanostructures

Atypical Responsiveness of the Orphan Receptor GPR55 to Cannabinoid Ligands

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