Hong Yu scite author profile

Summary Transmembrane AMPA receptor regulatory proteins (TARPs) and cornichon proteins (CNIH-2/3) independently modulate AMPA receptor trafficking and gating. However, the potential for interactions of these subunits within an AMPA receptor complex is unknown. Here, we find that TARPs γ-4, γ-7 and γ-8, but not γ-2, γ-3 or γ-5, cause AMPA receptors to “resensitize” upon continued glutamate application. With γ-8, resensitization occurs with all GluA subunit combinations; however, γ-8-containing hippocampal neurons do not display resensitization. In recombinant systems, CNIH-2 abrogates γ-8-mediated resensitization and modifies AMPA receptor pharmacology and gating to match that of hippocampal neurons. In hippocampus, γ-8 and CNIH-2 associate in postsynaptic densities and CNIH-2 protein levels are markedly diminished in γ-8 knockout mice. Manipulating neuronal CNIH-2 levels modulates the electrophysiological properties of extrasynaptic and synaptic γ-8-containing AMPA receptors. Thus, γ-8 and CNIH-2 functionally interact with common hippocampal AMPA receptor complexes to modulate synergistically kinetics and pharmacology.

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New Transmembrane AMPA Receptor Regulatory Protein Isoform, γ-7, Differentially Regulates AMPA Receptors

Kato¹,

Zhou²,

Milstein³

et al. 2007

J. Neurosci.

128

168

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AMPA-type glutamate receptors (GluRs) mediate most excitatory signaling in the brain and are composed of GluR principal subunits and transmembrane AMPA receptor regulatory protein (TARP) auxiliary subunits. Previous studies identified four mammalian TARPs, ␥-2 (or stargazin), ␥-3, ␥-4, and ␥-8, that control AMPA receptor trafficking, gating, and pharmacology. Here, we explore roles for the homologous ␥-5 and ␥-7 proteins, which were previously suggested not to serve as TARPs. Western blotting reveals high levels of ␥-5 and ␥-7 in the cerebellum, where ␥-7 is enriched in Purkinje neurons in the molecular layer and glomerular synapses in the granule cell layer. Immunoprecipitation proteomics shows that cerebellar ␥-7 avidly and selectively binds to AMPA receptor GluR subunits and also binds to the AMPA receptor clustering protein, postsynaptic density-95 (PSD-95). Furthermore, ␥-7 occurs together with PSD-95 and AMPA receptor subunits in purified postsynaptic densities. In heterologous cells, ␥-7 but not ␥-5 greatly enhances AMPA receptor glutamateevoked currents and modulates channel gating. In granule cells from stargazer mice, transfection of ␥-7 but not ␥-5 increases AMPA receptor-mediated currents. Compared with stargazin, ␥-7 differentially modulates AMPA receptor glutamate affinity and kainate efficacy. These studies define ␥-7 as a new member of the TARP family that can differentially influence AMPA receptors in cerebellar neurons.

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Interleukin 6 Underlies Angiotensin II–Induced Hypertension and Chronic Renal Damage

et al. 2012

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Chronic kidney disease (CKD) is a prevalent life-threatening disease frequently associated with hypertension, progression to renal fibrosis and eventual renal failure. While the pathogenesis of CKD remains largely unknown, an increased inflammatory response is known to be associated with the disease and has long been speculated to contribute to disease development. However, the causative factors, the exact role of the increased inflammatory cascade in CKD and the underlying mechanisms for its progression remain unidentified. Here we report that interleukin-6 (IL-6) expression levels were significantly increased in the kidneys collected from CKD patients and further elevated in CKD patients characterized with hypertension. Functionally, we determined that angiotensin II (Ang II) is a causative factor responsible for IL-6 induction in the mouse kidney and that genetic deletion of IL-6 significantly reduced hypertension and key features of CKD including renal injury and progression to renal fibrosis in Ang II-infused mice. Mechanistically, we provide both human and mouse evidence that IL-6 is a key cytokine functioning downstream of Ang II signaling to directly induce fibrotic gene expression and preproendothelin-1 (prepro-ET-1) mRNA expression in the kidney. Overall, both the mouse and human studies reported here provide evidence that Ang II induces IL-6 production in the kidney and that, in addition to its role in hypertension, increased IL-6 may play an important pathogenic role in CKD by inducing fibrotic gene expression and ET-1 gene expression. These findings immediately suggest the IL-6 signaling is a novel therapeutic target to manage this devastating disorder affecting millions worldwide.

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TARPs differentially decorate AMPA receptors to specify neuropharmacology

Kato

Gill

et al. 2010

Trends in Neurosciences

138

143

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Hong Yu

Hippocampal AMPA Receptor Gating Controlled by Both TARP and Cornichon Proteins

New Transmembrane AMPA Receptor Regulatory Protein Isoform, γ-7, Differentially Regulates AMPA Receptors

Interleukin 6 Underlies Angiotensin II–Induced Hypertension and Chronic Renal Damage

TARPs differentially decorate AMPA receptors to specify neuropharmacology

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