Sang Kyou Han scite author profile

In vertebrates, peripheral chemosensory neurons express large families of G protein-coupled receptors (GPCRs), reflecting the diversity and specificity of stimuli they detect. However, somatosensory neurons, which respond to chemical, thermal, or mechanical stimuli, are more broadly tuned. Here we describe a family of approximately 50 GPCRs related to Mas1, called mrgs, a subset of which is expressed in specific subpopulations of sensory neurons that detect painful stimuli. The expression patterns of mrgs thus reveal an unexpected degree of molecular diversity among nociceptive neurons. Some of these receptors can be specifically activated in heterologous cells by RFamide neuropeptides such as NPFF and NPAF, which are analgesic in vivo. Thus, mrgs may regulate nociceptor function and/or development, including the sensation or modulation of pain.

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Roles of Trp31 in High Membrane Binding and Proinflammatory Activity of Human Group V Phospholipase A2

Han¹,

Kim²,

Koduri³

et al. 1999

Journal of Biological Chemistry

175

189

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Group V phospholipase A 2 is a recently discovered secretory phospholipase A 2 (PLA 2 ) that has been shown to be involved in eicosanoid formation in inflammatory cells, such as macrophages and mast cells. We have demonstrated that human group V PLA 2 (hsPLA 2 -V) can bind phosphatidylcholine (PC) membranes and hydrolyze PC substrates much more efficiently than human group IIa PLA 2 , which makes it better suited for acting on the outer plasma membrane (Han, S.-K., Yoon, E. T., and Cho, W. (1998) Biochem. J. 331, 353-357). In this study, we demonstrate that exogenous hsPLA 2 -V has much greater activity than does group IIa PLA 2 to release fatty acids from various mammalian cells and to elicit leukotriene B 4 formation from human neutrophils. To understand the molecular basis of these activities, we mutated two surface tryptophans of hsPLA 2 -V to alanine (W31A and W79A) and measured the effects of these mutations on the kinetic activity toward various substrates, on the binding affinity for vesicles and phospholipid-coated beads, on the penetration into phospholipid monolayers, and on the activity to release fatty acids and elicit eicosanoid formation from various mammalian cells. These studies show that the relatively high ability of hsPLA 2 -V to induce cellular eicosanoid formation derives from its high affinity for PC membranes and that Trp 31 on its putative interfacial binding surface plays an important role in its binding to PC vesicles and to the outer plasma membrane.

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Orphan G protein-coupled receptors MrgA1 and MrgC11 are distinctively activated by RF-amide-related peptides through the Gα _q/11 pathway

Han

Dong

Hwang

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

153

180

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Mapping the Interfacial Binding Surface of Human Secretory Group IIa Phospholipase A₂

et al. 1997

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Human secretory group IIa phospholipase A2 (hIIa-PLA2) contains a large number of prominent cationic patches on its molecular surface and has exceptionally high affinity for anionic surfaces, including anionic membranes. To identify the cationic amino acid residues that support binding of hIIa-PLA2 to anionic membranes, we have performed extensive site-directed mutagenesis of this protein and measured vesicle binding and interfacial kinetic properties of the mutants using polymerized liposomes and nonpolymerized anionic vesicles. Unlike other secretory PLA2s, which have a few cationic residues that support binding of enzyme to anionic membranes, interfacial binding of hIIa-PLA2 is driven in part by electrostatic interactions involving a number of cationic residues forming patches on the putative interfacial binding surface. Among these residues, the amino-terminal patch composed of Arg-7, Lys-10, and Lys-16 makes the most significant contribution to interfacial adsorption, and this is supplemented by contributions from other patches, most notably Lys-74/Lys-87/Arg-92 and Lys-124/Arg-127. For these mutants, complete vesicle binding occurs in the presence of high vesicle concentrations, and under these conditions the mutants display specific activities comparable to that of wild-type enzyme. These studies indicate that electrostatic interactions between surface lysine and arginine residues and the interface contribute to interfacial binding of hIIa-PLA2 to anionic vesicles and that cationic residues closest to the opening of the active-site slot make the most important interactions with the membrane. However, because the wild type binds extremely tightly to anionic vesicles, it was not possible to exactly determine what fraction of the total interfacial binding energy is due to electrostatics.

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Sang Kyou Han

A Diverse Family of GPCRs Expressed in Specific Subsets of Nociceptive Sensory Neurons

Roles of Trp31 in High Membrane Binding and Proinflammatory Activity of Human Group V Phospholipase A2

Orphan G protein-coupled receptors MrgA1 and MrgC11 are distinctively activated by RF-amide-related peptides through the Gα _q/11 pathway

Mapping the Interfacial Binding Surface of Human Secretory Group IIa Phospholipase A₂

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Sang Kyou Han

A Diverse Family of GPCRs Expressed in Specific Subsets of Nociceptive Sensory Neurons

Roles of Trp31 in High Membrane Binding and Proinflammatory Activity of Human Group V Phospholipase A2

Orphan G protein-coupled receptors MrgA1 and MrgC11 are distinctively activated by RF-amide-related peptides through the Gα q/11 pathway

Mapping the Interfacial Binding Surface of Human Secretory Group IIa Phospholipase A2

Contact Info

Product

Resources

About

Orphan G protein-coupled receptors MrgA1 and MrgC11 are distinctively activated by RF-amide-related peptides through the Gα _q/11 pathway

Mapping the Interfacial Binding Surface of Human Secretory Group IIa Phospholipase A₂