Expression and characterization of a glycine-binding fragment of the N-methyl-D-aspartate receptor subunit NR1.
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N-Methyl-D-aspartate receptor channels are composed of an NR1 subunit and at least one of the NR2 subunits (NR2A-D). Activation of the N-methyl-d-aspartate receptor requires the co-agonists glycine and glutamate. It has been proposed that the NR1 subunit possesses a glycine-binding site. We have expressed a soluble form of the NR1 subunit, which was produced by connecting the N-terminal extracellular region with the extracellular loop between the third and fourth membrane segments, by a baculovirus system along with full-length and truncated membrane-bound forms. The soluble NR1 receptor was efficiently secreted into the culture medium and showed a high affinity for ligands. The Kd of a glycine-site antagonist, [3H]MDL 105,519 [(E)-3-(2-phenyl-2-carboxyethenyl)-4, 6-dichloro-1H-indole-2-carboxylic acid], for the soluble receptor was 3.89+/-0.97 nM, which was comparable to the Kd of 4.47+/-1.39 nM for the membrane-bound full-length form. These values were close to the values reported previously with the use of rat brain membranes and Chinese hamster ovary cells expressing the full-length form of the NR1 subunit. The Ki values of other glycine-site antagonists, L-689,560 (trans-2-carboxy-5,7-dichloro - 4 - phenylaminocarbonylamino - 1,2,3,4 - tetrahydroquinoline), 5, 7-dichlorokynurenate and 5,7-dinitroquinoxaline-2,3-dione, for the soluble receptor were also similar to those for the full-length form of NR1. [3H]MDL 105,519 binding was also inhibited by the agonists glycine and d-serine. Thus the affinity and selectivity of ligand-binding characteristics of the NR1 subunit is conferred on the soluble form of the NR1 subunit. This soluble receptor provides a good experimental tool for initiating a biophysical analysis of the N-methyl-d-aspartate receptor channel protein. (+info)
Crystal structure of Hck in complex with a Src family-selective tyrosine kinase inhibitor.
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The crystal structure of the autoinhibited form of Hck has been determined at 2.0 A resolution, in complex with a specific pyrazolo pyrimidine-type inhibitor, PP1. The activation segment, a key regulatory component of the catalytic domain, is unphosphorylated and is visualized in its entirety. Tyr-416, the site of activating autophosphorylation in the Src family kinases, is positioned such that access to the catalytic machinery is blocked. PP1 is bound at the ATP-binding site of the kinase, and a methylphenyl group on PP1 is inserted into an adjacent hydrophobic pocket. The enlargement of this pocket in autoinhibited Src kinases suggests a route toward the development of inhibitors that are specific for the inactive forms of these proteins. (+info)
Kinetic profile of the rat CYP4A isoforms: arachidonic acid metabolism and isoform-specific inhibitors.
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20-Hydroxyeicosatetraenoic acid (HETE), the cytochrome P-450 (CYP) 4A omega-hydroxylation product of arachidonic acid, has potent biological effects on renal tubular and vascular functions and on the control of arterial pressure. We have expressed high levels of the rat CYP4A1, -4A2, -4A3, and -4A8 cDNAs, using baculovirus and Sf 9 insect cells. Arachidonic acid omega- and omega-1-hydroxylations were catalyzed by three of the CYP4A isoforms; the highest catalytic efficiency of 947 nM-1. min-1 for CYP4A1 was followed by 72 and 22 nM-1. min-1 for CYP4A2 and CYP4A3, respectively. CYP4A2 and CYP4A3 exhibited an additional arachidonate 11,12-epoxidation activity, whereas CYP4A1 operated solely as an omega-hydroxylase. CYP4A8 did not catalyze arachidonic or linoleic acid but did have a detectable lauric acid omega-hydroxylation activity. The inhibitory activity of various acetylenic and olefinic fatty acid analogs revealed differences and indicated isoform-specific inhibition. These studies suggest that CYP4A1, despite its low expression in extrahepatic tissues, may constitute the major source of 20-HETE synthesis. Moreover, the ability of CYP4A2 and -4A3 to catalyze the formation of two opposing biologically active metabolites, 20-HETE and 11, 12-epoxyeicosatrienoic acid, may be of great significance to the regulation of vascular tone. (+info)
Role of phosphorylation sites and the C2 domain in regulation of cytosolic phospholipase A2.
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Cytosolic phospholipase A2 (cPLA2) mediates agonist-induced arachidonic acid release, the first step in eicosanoid production. cPLA2 is regulated by phosphorylation and by calcium, which binds to a C2 domain and induces its translocation to membrane. The functional roles of phosphorylation sites and the C2 domain of cPLA2 were investigated. In Sf9 insect cells expressing cPLA2, okadaic acid, and the calcium-mobilizing agonists A23187 and CryIC toxin induce arachidonic acid release and translocation of green fluorescent protein (GFP)-cPLA2 to the nuclear envelope. cPLA2 is phosphorylated on multiple sites in Sf9 cells; however, only S505 phosphorylation partially contributes to cPLA2 activation. Although okadaic acid does not increase calcium, mutating the calcium-binding residues D43 and D93 prevents arachidonic acid release and translocation of cPLA2, demonstrating the requirement for a functional C2 domain. However, the D93N mutant is fully functional with A23187, whereas the D43N mutant is nearly inactive. The C2 domain of cPLA2 linked to GFP translocates to the nuclear envelope with calcium-mobilizing agonists but not with okadaic acid. Consequently, the C2 domain is necessary and sufficient for translocation of cPLA2 to the nuclear envelope when calcium is increased; however, it is required but not sufficient with okadaic acid. (+info)
Bacillus thuringiensis insecticidal Cry1Aa toxin binds to a highly conserved region of aminopeptidase N in the host insect leading to its evolutionary success.
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Bacillus thuringiensis insecticidal protein, Cry1Aa toxin, binds to a specific receptor in insect midguts and has insecticidal activity. Therefore, the structure of the receptor molecule is probably a key factor in determining the binding affinity of the toxin and insect susceptibility. The cDNA fragment (PX frg1) encoding the Cry1Aa toxin-binding region of an aminopeptidase N (APN) or an APN family protein from diamondback moth, Plutella xylostella midgut was cloned and sequenced. A comparison between the deduced amino acid sequence of PX frg1 and other insect APN sequences shows that Cry1Aa toxin binds to a highly conserved region of APN family protein. In this paper, we propose a model to explain the mechanism that causes B. thuringiensis evolutionary success and differing insect susceptibility to Cry1Aa toxin. (+info)
Human mu-opioid receptor overexpressed in baculovirus system and its pharmacological characterizations.
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AIM: To overexpress human mu-opioid receptor (muOR) with characteristics similar to those of mammalian origin. METHODS: Human muOR with a tag of 6 consecutive histidines at its carboxyl terminus was expressed in recombinant baculovirus infected Sf9 insect cells. Then the pharmacological characterizations of the product were studied by receptor binding assay and cAMP assay. RESULTS: The maximal binding capacity for the [3H]diprenorphine and [3H]ohmefentanyl (Ohm) were 9.1 +/- 0.7 and 6.52 +/- 0.23 nmol/g protein, respectively. The [3H]diprenorphine or [3H] Ohm binding to the receptor expressed in Sf9 cells was strongly inhibited by alpha-selective agonists [D-Ala2, N-methyl-Phe4, glyol5] enkephalin (DAGO), Ohm, and morphine, but neither by the delta-selective agonist [D-Pen2, D-Pen5] enkephalin (DPDPE) nor by the kappa-selective agonist inverted question marktrans-(+/-)-3, 4-dichloro-N-methyl-N-[2-(1-pyrrolidinyl) cyclohexyl] inverted question mark benzacetamide (U50488). NaCl 100 mmol.L-1 and guanosine triphosphate (GTP) 50 mumol.L-1 could reduce mu agonists Ohm and etorphine affinity binding to the expressed muOR. DAGO and Ohm effectively inhibited forskolin-stimulated cAMP accumulation. This agonist-dependent effect was blocked by opioid antagonist naloxone. CONCLUSION: The overexpression of human muOR with a tag of six consecutive histidines at its carboxyl terminus in Sf9 insect cells retained the characteristics of wild-type human muOR. (+info)
Mutation of a highly conserved aspartic acid in the beta2 adrenergic receptor: constitutive activation, structural instability, and conformational rearrangement of transmembrane segment 6.
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Movements of transmembrane segments (TMs) 3 and 6 play a key role in activation of G protein-coupled receptors. However, the underlying molecular processes that govern these movements, and accordingly control receptor activation, remain unclear. To elucidate the importance of the conserved aspartic acid (Asp-130) in the Asp-Arg-Tyr motif of the beta2 adrenergic receptor (beta2AR), we mutated this residue to asparagine (D130N) to mimic its protonated state, and to alanine (D130A) to fully remove the functionality of the side chain. Both mutants displayed evidence of constitutive receptor activation. In COS-7 cells expressing either D130N or D130A, basal levels of cAMP accumulation were clearly elevated compared with cells expressing the wild-type beta2AR. Incubation of COS-7 cell membranes or purified receptor at 37 degrees C revealed also a marked structural instability of both mutant receptors, suggesting that stabilizing intramolecular constraints had been disrupted. Moreover, we obtained evidence for a conformational rearrangement by mutation of Asp-130. In D130N, a cysteine in TM 6, Cys-285, which is not accessible in the wild-type beta2AR, became accessible to methanethiosulfonate ethylammonium, a charged, sulfhydryl-reactive reagent. This is consistent with a counterclockwise rotation or tilting of TM 6 and provides for the first time structural evidence linking charge-neutralizing mutations of the aspartic acid in the DRY motif to the overall conformational state of the receptor. We propose that protonation of the aspartic acid leads to release of constraining intramolecular interactions, resulting in movements of TM 6 and, thus, conversion of the receptor to the active state. (+info)
Infection status of dragonflies with Plagiorchis muris metacercariae in Korea.
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Plagiorchis muris has been found in both house and field rats as well as in humans. The infection status of the second intermediate hosts of P. muris is prerequisite in understanding their biological features in an ecosystem. Six species of dragonflies were caught in a wide range of areas in Korea; and they were Sympetrum darwinianum, S. eroticum, S. pedomontanum, S. infuscatum, Pantala flavoscens, Calopteryx atrata, and Orthetrum albistylum speciosum. The occurrence of P. muris metacercariae in dragonflies was nationwide with various infection rates. The metacercarial burden of P. muris in the surveyed areas was the highest in S. eroticum followed by S. darwinianum, S. pedomontanum, and C. atrata. The highest infection rate by P. muris metacercariae was found in S. darwinianum followed by S. eroticum. The metacercarial burden was particularly heavy in the dragonflies found in Hamyang-gun and Kosong-gun, Kyongsangnam-do. It is, therefore, likely that dragonflies play a significant role as the second intermediate host in the life cycle of P. muris in Korea. (+info)