High-molecular-weight serum proteins from Locusta migratoria: identification of a protein specifically binding juvenile hormone III

ABSTRACT. Tritiated 10,11-epoxyfarnesyl diazoacetate (EFDA), a photoaffinity label, can be covalently attached to the binding site of a JH-III-specific binding protein in the haemolymph of Locusta migratoria migratorioides (R & F). The specificity of the binding of EFDA to the binding protein is verified by displacement with excess unlabelled JH-III, and EFDA can be used to identify the binding protein in native pore-limiting gradient poly(acrylamide) gel electrophoresis (PAGE) and sodium dodecyl sulphate-PAGE. The native binding protein has a molecular weight of 575,000 and is composed of seemingly identical subunits of molecular weight 81,000.
Three other high-molecular weight serum proteins are identified by native PAGE: a lipophorin, composed of two kinds of apolipophorins, a larval storage protein and a cyanoprotein. The molecular weights and subunit structures of these proteins are investigated, but none of these other high-molecular weight proteins bind JH-III to an appreciable extent.     

Positions of disulfide bonds and N-glycosylation site in juvenile hormone binding protein

The juvenile hormone binding protein (JHBP) from Galleria mellonella hemolymph is a glycoprotein composed of 225 amino acid residues. It contains four Cys residues forming two disulfide bridges. In this study, the topography of the disulfide bonds as well as the site of glycan attachment in the JHBP molecule from G. mellonella was determined, using electrospray mass spectrometry. The MS analysis was performed on tryptic digests of JHBP. Our results show that the disulfide bridges link Cys10 and Cys17, and Cys151 and Cys195. Of the two potential N-glycosylation sites in JHBP, Asn4, and Asn94, only Asn94 is glycosylated. This site of glycosylation is also found in the fully biologically active recombinant JHBP expressed in the yeast Pichia pastoris.     

Growth of the male accessory gland in adult locusts: Roles of juvenile hormone,JH esterase,and JH binding proteins

The participation of juvenile hormone (JH) in the regulation of growth and protein synthesis in the accessory reproductive gland of male Locusta migratoria has been investigated. After elimination of endogenous JH with ethoxyprecocene, the accessory gland failed to grow, but growth was restored by a single application of the JH analog, pyriproxyfen. Pyriproxyfen appeared to stimulate total protein synthesis by 3 h, with a significant effect by 12 h, in contrast to 24 h observed in fat body. The dose curve for stimulation of protein synthesis 12 h after applying pyriproxyfen gave an ED₅₀ of 0.1 μg; the dose curve for gland growth at 72 h was biphasic, with steps at about 0.01 μg and 10 μg, suggesting two phases in JH action. SDS-PAGE analysis showed several components that were stimulated by pyriproxyfen, the effect being strongest in an 11 kDa band. A 5 kDa component was enhanced in the soluble and reduced in the particulate fraction after precocene treatment. The accessory gland contained JH esterase activity at levels about 100 times those in fat body or hemolymph, and was higher in precocene treated locusts. Binding activity for [³H]10R -JH III was high in cytosolic and nuclear fractions, and was identified immunologically as due to the previously described hemolymph JH binding protein. The results indicate that the mode of action of JH in the accessory gland may differ from that in the fat body. The presence of intracellular JH binding protein suggests a direct action of JH within the gland, that may be modulated by JH esterase. © 1995 Wiley-Liss, Inc.     

Nuclear binding sites for juvenile hormone III in the male accessory reproductive glands of Melanoplus sanguinipes

Summary

We have identified a potential nuclear juvenile hormone (JH) receptor in the long hyaline tubules (LHT), part of the male accessory reproductive gland (MARG) of M. sanguinipes. The MARG was incubated in vitro with [³H]JH III, and the distribution of the [³H]JH III among the cellular fractions of the LHT was determined. Some 37±4% of the radioactivity was associated with the crude nuclear pellet, while the cytosolic, microsomal and mitochondrial fractions contained 30±3%, 23±2% and 10±1%, respectively. The bound JH III was measured in nuclear extracts of LHT from males up to 15 days post-eclosion. These results revealed that JH binding increased in an age-dependent manner up to day 7, then levelled off to day 12, to increase again on day 14. The nuclear-binding component in the LHT had a very strong affinity for JH III, with a K_D value of 0.8 nM. Our observations are considered in relation to the potential site and mode of action of JH.     

Purification, characterisation and titre of the haemolymph juvenile hormone binding proteins from Schistocerca gregaria and Gryllus bimaculatus

Juvenile hormone binding proteins (JHBPs) were extracted from the haemolymph of adult desert locusts, Schistocerca gregaria, and Mediterranean field crickets, Gryllus bimaculatus. The JHBPs were purified by polyethyleneglycol precipitation, filtration through molecular weight cut off filters and chromatography on a HiTrap heparin column. The juvenile hormone (JH) binding activity of the extracts was measured using a hydroxyapatite assay and the purification progress was monitored by native gel chromatography and sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). The haemolymph JHBPs of both insects are hexamers composed of seemingly identical subunits. The JHBP of the locust has a native Mr of 480 kDa with subunits of 77 kDa, whereas the JHBP of the cricket has a Mr of 510 kDa with subunits of 81 kDa. The locust JHBP binds JH III with moderate affinity (KD = 19 nM). Competition for binding of JH II and JH I was about 2 and 5 times less, respectively. The cricket JHBP also has a moderate affinity for JH III (KD = 28 nM), but surprisingly, competition for binding of JH II was equal to that of JH III and JH I competed about 3 times higher. No sequence information was obtained for the locust JHBP, but the N-terminal sequence of the cricket JHBP shows ca. 56% sequence homology with a hexamerin from Calliphora vicina. Antisera raised against the purified JHBPs were used to measure age- and sex-dependent changes in haemolymph JHBP titres and to confirm that the JHBPs of both species are immunologically different.     

Juvenile hormone binding protein traffic — Interaction with ATP synthase and lipid transfer proteins

Juvenile hormone (JH) controls insect development, metamorphosis and reproduction. In insect hemolymph a significant proportion of JH is bound to juvenile hormone binding protein (JHBP), which serves as a carrier supplying the hormone to the target tissues. To shed some light on JHBP passage within insect tissues, the interaction of this carrier with other proteins from Galleria mellonella (Lepidoptera) was investigated. Our studies revealed the presence of JHBP within the tracheal epithelium and fat body cells in both the membrane and cytoplasmic sections. We found that the interaction between JHBP and membrane proteins occurs with saturation kinetics and is specific and reversible. ATP synthase was indicated as a JHBP membrane binding protein based upon SPR-BIA and MS analysis. It was found that in G. mellonella fat body, this enzyme is present in mitochondrial fraction, plasma membranes and cytosol as well. In the model system containing bovine F₁ ATP synthase and JHBP, the interaction between these two components occurs with K_d = 0.86 nM. In hemolymph we detected JHBP binding to apolipophorin, arylphorin and hexamerin. These results provide the first demonstration of the physical interaction of JHBP with membrane and hemolymph proteins which can be involved in JHBP molecule traffic.     

Regulation of JH epoxide hydrolase versus JH esterase activity in the cabbage looper, Trichoplusia ni, by juvenile hormone and xenobiotics

JH III esterase and JH III epoxide hydrolase (EH) in vitro activity was compared in whole body Trichoplusia ni homogenates at each stage of development (egg, larva, pupa and adult). While activity of both enzymes was detected at all ages tested, JH esterase was significantly higher than EH activity except for day three of the fifth (last) stadium (L5D3). For both enzymes, activity was highest in eggs. Adult virgin females had 4.6- and 4.0-fold higher JH esterase and EH activities, respectively, than adult virgin males. JH III metabolic activity also was measured in whole body homogenates of fifth stadium T. ni that were fed a nutritive diet (control) or starved on a non-nutritive diet of alphacel, agar and water. With larvae that were starved for 6, 28 and 52 h, EH activity per insect equivalent was 48%, 5% and 1%, respectively, of the control insects. At the same time points, JH esterase activity levels in starved T. ni were 29%, 4% and 3% of that of insects fed the nutritive diet. Selected insect hormones and xenobiotics were administered topically or orally to fifth stadium larvae for up to 52 h, and the effects on whole body EH and JH esterase activity analyzed. JH III increased the JH III esterase activity as high as 2.2-fold, but not the JH III EH activity. The JH analog, methoprene, increased both JH esterase and EH activity as high as 2.5-fold. The JH esterase inhibitor, 3-octylthio-1,1,1-trifluoropropan-2-one (OTFP), had no impact on EH activity. The epoxides trans- and cis-stilbene oxide (TSO and CSO) in separate experiments increased the EH activity approximately 2.0-fold. TSO did not alter JH esterase levels when topically applied, but oral administration reduced activity to 70% of the control at 28 h, and then increased the activity 1.8-fold at 52 h after the beginning of treatment. CSO had no effect on JH esterase activity. Phenobarbital increased EH activity by 1.9-fold, but did not change JH esterase levels. Clofibrate and cholesterol 5alpha,6alpha-epoxide had no effect on EH. JH esterase activity also was not affected by clofibrate, but cholesterol 5alpha,6alpha-epoxide reduced the JH esterase activity to 60-80% of the control. The biological significance of these results is discussed.     

Graphical interpretation of Boolean operators for protein NMR assignments

We have developed a graphics based algorithm for semi-automated protein NMR assignments. Using the basic sequential triple resonance assignment strategy, the method is inspired by the Boolean operators as it applies "AND"-, "OR"- and "NOT"-like operations on planes pulled out of the classical three-dimensional spectra to obtain its functionality. The method's strength lies in the continuous graphical presentation of the spectra, allowing both a semi-automatic peaklist construction and sequential assignment. We demonstrate here its general use for the case of a folded protein with a well-dispersed spectrum, but equally for a natively unfolded protein where spectral resolution is minimal.     

NMR assignments of the yellow fever virus envelope protein domain III

Nearly complete backbone and sidechain resonance assignments have been obtained for the third domain, residues S288–K398, of the envelope protein from the Asibi strain of yellow fever virus using double- and triple-resonance spectroscopy.     

Backbone assignment of HINT1 protein, a mouse histidine triad nucleotide binding protein

HINT1 is a mouse histidine triad nucleotide binding protein. Here we report the assignments for the backbone nitrogen, carbon and proton NMR signals.     

Solid-state NMR triple-resonance backbone assignments in a protein

Triple-resonance solid-state NMR spectroscopy is demonstrated to sequentially assign the 13C and 15N amide backbone resonances of adjacent residues in an oriented protein sample. The observed 13C chemical shift frequency provides an orientational constraint complementary to those measured from the 1H and 15N amide resonances in double-resonance experiments.     

Comparison of some properties of the high-affinity juvenile hormone binding protein from the larval hemolymph of pyralid moths

The properties of the high-affinity low molecular weight juvenile hormone (JH) binding protein present in the hemolymph of larvae of five species of pyralid moths, a noctuid moth, and a sphingid moth were compared. The pyralid moths exhibit a facultative diapause as last-instar larvae. The species employed were the southwestern corn borer, Diatraea grandiosella, the southern cornstalk borer, Diatraea crambidoides, the sugarcane borer, Diatraea saccharalis, the European corn borer, Ostrinia nubilalis, the sunflower moth, Homoeosoma electellum, the cabbage looper, Trichoplusia ni, and the tobacco hornworm, Manduca sexta. The binding characteristics of the proteins were determined using saturation binding assays and competitive binding assays. The dissociation constants of JH I, JH II, and JH III for the binding protein of all the species varied from 0.8 x 10^?7 M to 2.8 x 10^?7 M. Calibrated gel filtration showed that the binding protein of all the species had apparent molecular weights ranging from 29,000 to 31,000. Electrophoresis in 7% acrylamide gels revealed that the relative mobilities of the binding proteins ranged from 0.33 to 0.43. Isoelectric focusing showed that the binding proteins had isoelectric points between 4.4 and 5.0.     

1h, 13c, and 15N NMR backbone assignments and chemical-shift-derived secondary structure of glutamine-binding protein of Escherichia coli

1H, 13C, and 15N NMR assignments of the backbone atoms and -carbons have been madefor liganded glutamine-binding protein (GlnBP) of Escherichia coli, a monomeric protein with226 amino acid residues and a molecular weight of 24,935 Da. GlnBP is a periplasmicbinding protein which plays an essential role in the active transport of L-glutamine throughthe cytoplasmic membrane. The assignments have been obtained from three-dimensionaltriple-resonance NMR experiments on a 13C,15N uniformly labeled sample as well asspecifically labeled samples. Results from the 3D triple-resonance experiments, HNCO,HN(CO)CA, HN(COCA)HA, HNCA, HN(CA)HA, HN(CA)CO, and CBCA(CO)NH, are themain sources used to make the resonance assignments. Other 3D experiments, such asHNCACB, COCAH, HCACO, HCACON, and HOHAHA-HMQC, have been used to confirmthe resonance assignments and to extend connections where resonance peaks are missing insome of the experiments mentioned above. We have assigned more than 95% of thepolypeptide backbone resonances of GlnBP. The result of the standard manual assignment isin agreement with that predicted by an automated probabilistic method developed in ourlaboratory. A solution secondary structure of the GlnBP–Gln complex has beenproposed based on chemical shift deviations from random coil values. Eight -helices and10 -strands are derived using the Chemical Shift Index method.     

Refinement of 3D models of horseradish peroxidase isoenzyme C: Predictions of 2D NMR assignments and substrate binding sites

In this study, two alternative three-dimensional (3D) models of horseradish peroxidase (HRP-C)—differing mainly in the structure of a long untemplated insertion—were refined, systematically assessed, and used to make predictions that can both guide and be tested by future experimental studies. A key first step in the model-building process was a procedure for multiple sequence alignment based on structurally conserved regions and key conserved residues, including those side chains providing ligands to the two Ca²⁺ binding sites. The model refinements reported here include (1) optimization of side-chain conformations; (3) addition of structural waters using a template-independent procedure; (2) structural refinement of the untemplated 34 amino acid insertion located between the F and G helices, using both energy criteria and NMR data; (4) unconstrained energy optimization of the refined models. Using these procedures, two refined structures of HRP-C were obtained, differing mainly in the conformation of this long insertion. The presence of residues in this insertion that could potentially interact with bound substrates suggests a functional role that may be related to the general ability of class III peroxidases to form stable 1:1 complexes with a variety of substrates. The structural validity of the models was systematically assessed by a variety of criteria. Most notably, the ProsaII z scores and Profiles 3D scores of the two HRP-C models indicated that they are significantly better than would be obtained by simple amino acid replacement, using any of the known structures as a template. These two 3D HRP-C models, were then used to predict candidate residues for the assignment of NOESY cross-peaks previously noted in 2D-NMR studies. Specifically, the residues known as Ile X, Phe A, Phe B, aliphatic residue Q, and Ile T. Candidate substrate binding sites were also identified and compared with experimentally based predictions. This work is timely because new X-ray structures are anticipated that will facilitate the validation of these procedures. © 1996 Wiley-Liss, Inc.     

NMR assignments of the sylvatic dengue 1 virus envelope protein domain III

Nearly complete backbone and side chain resonance assignments have been obtained for the third domain, residues M289–K400, of the envelope protein from the sylvatic strain (P72–1244) of the dengue 1 virus, containing mutations N336S and E370K, using double- and triple-resonance spectroscopy.