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.     

Molecular characteristics of lipophorin,the juvenile hormone-binding protein in the hemolymph of the Colorado potato beetle

Lipophorin, the protein that specifically binds juvenile hormone in the hemolymph of the Colorado potato beetle, Leptinotarsa decemlineata, is a high-density lipoprotein of M_r ～ 574,000. Lipophorin contains 43% lipid and is composed of two apoproteins: apolipophorin I (M_r ～ 251,000) and apolipophorin II (M_r ～ 78,000). Both apoproteins contain mannose residues. Carotenoids make up a substantial part of the lipid fraction. Lipophorin constitutes about 25% of the total hemolymph proteins. Its concentration in the hemolymph (26 μM in 4-day-old long-day and 40 μM in 4-day-old short-day beetles) changes with different physiological conditions concomitant with changes in total protein content. Lipophorin specifically binds 10R-juvenile hormone III with high affinity. The dissociation constant for 10R-juvenile hormone III is 12 ± 2 nM. One lipophorin molecule contains one specific juvenile hormone-binding site. The concentration of binding sites therefore equals that of lipophorin in hemolymph.     

Juvenile hormone and the control of adult diapause in the Colorado potato beetle,Leptinotarsa decemlineata

One of the major hormonal events preceding environmentally controlled diapause in the Colorado potato beetle, Leptinotarsa decemlineata, is the inhibition of the corpora allata. This paper reviews briefly the data developed by our laboratory on the role of the neuroendocrine system in the control of the corpus allatum. In addition, we demonstrate that during transport in the hemolymph JH is bound to a JH-III specific binding protein. The JH-binding sites of this protein have a high affinity for JH-III and display stereoselectivity. New data are presented showing that, in beetle hemolymph, JH-III specific binding occurs with the lipophorin fraction.     

Transport of hydrocarbons by the lipophorin of insect hemolymph

When [I-¹⁴C]acetate was injected into the American cockroach, the labeled acetate was incorporated preferentially into the hydrocarbon fraction and, subsequently, the labeled hydrocarbon was released into the hemolymph where it was associated with the lipophorin (formerly called diacylglycerol-carrying lipoprotein). The label was traced to the three hydrocarbons, n-pentacosane, 3-methylpentacosane and 6,9-heptacosadiene that had been shown previously to be associated with the lipophorin. The specific capacity of lipophorin to accept hydrocarbons from oenocytes, which are believed to be the site of hydrocarbon synthesis, was demonstrated in vitro, and the uptake of hydrocarbon by lipophorin was retarded by respiratory poisoning. When lipophorin containing ¹⁴C-labeled hydrocarbon was injected into the hemocoele of cockroach, the labeled hydrocarbon soon appeared at the cuticular surface where it was deposited specifically. The above observations and our previous data support the postulate that insect lipophorin serves as the true carrier molecule for the transport of hydrocarbons from the site of synthesis (oenocyte) to the site of deposition (cuticle), in addition to its function of transporting diacylglycerol and cholesterol from the fat body and intestine.     

Characterization of phenylalkylamine binding sites in insect (Periplaneta americana) nervous system and skeletal muscle membranes

This study has identified specific, stereoselective phenylalkylamine (PAA, (±)- [³H]verapamil) binding sites of low-affinity and high-density in cockroach (Periplaneta americana) nervous system and skeletal muscle membranes. Scatchard transformation of equilibrium binding data revealed a single population of binding sites in both tissues with dissociation constants (K_d) of 273 nM and 377 nM and binding capacities (B_max) of 23 pmol·mg protein^?1 and 37pmol·mg protein^?1 for cockroach nervous tissue and skeletal muscle membranes, respectively. The PAA binding site in cockroach nervous tissue membranes was found to be dihydropyridine (DHP)-insensitive, whereas the corresponding site in cockroach skeletal muscle membranes was DHP-sensitive. This property of a DHP-sensitive PAA receptor distinguishes the binding sites identified in cockroach skeletal muscle from those in cockroach nervous tissue and indicates that pharmacologically distinct putative Ca²⁺ channel subtypes are present in insect nerve and muscle. © 1993 Wiley-Liss, Inc.     

Binding of lipophorin to the fat body of the migratory locust

The interaction of locust high density lipophorin (HDLp) with pieces of fat body tissue was studied at 33°C using a radiolabelled ligand binding assay. Under the assay conditions, binding of tritium-labelled HDLp ([³H]HDLp) was demonstrated to correlate linearly with tissue concentration up to ∼ 7 mg of fat body protein per ml of incubation medium. The [³H]HDLp binding that was displaceable by a 20-fold excess of unlabelled HDLp (which is an approximation of the specific binding) reached equilibrium after ∼ 2 h, whereas low levels of non-displaceable binding increased linearly during this time interval. Analysis of the concentration dependent total binding of [³H]HDLp revealed the presence of a specific binding site with an equilibrium dissociation constant of K_d = 3.1 (±0.5) × 10⁻⁷ M and a maximal binding capacity of 9.8 (±0.5) ng μg⁻¹ tissue protein. Competition experiments demonstrated that the affinity of unlabelled HDLp for the binding site is similar to the affinity of [³H]HDLp. Unlabelled low density lipophorin (LDLp), however, was shown to have an approx. 20-fold lower affinity for the binding site.     

Further characterization of the juvenile hormone binding protein from the cytosol of a Drosophila cell line: Use of a photoaffinity label

Further characterization of the juvenile hormone (JH) binding protein from the cytosol of Drosophila melanogaster Kc cells has been accomplished with the use of a photoaffinity analogue of JH. The analogue, 10,11-epoxy(2E,6E)farnesyl diazoacetate (EFDA), is tritiated in the 10-position. Following photolysis with short-wave ultraviolet light, it can be demonstrated that [³H]EFDA binds specifically to the cytosolic JH binding protein. This binding is inhibited if irradiation occurs in the presence of either unlabelled JH I or JH III. Both JH homologues protect the binding site equally against [³H]EFDA. No protection is observed with either methoprene or farnesyl acetate, a close structural analogue of EFDA that lacks the diazo photoactivatable group.The cytosolic JH binding protein, following covalent labelling with tritiated EFDA, was characterized by gel filtration column chromatography, velocity sedimentation through sucrose gradients, both native and denaturing gels, and binding to DNA cellulose. The binding protein has a molecular weight of approx. 49,200 and may consist of two subunits.     

Activité comparée des hormones juvéniles en C-18 (JH-I) et en C-16 (JH-III) chez Locusta migratoria

The comparative activity of C-16 and C-18 juvenile hormones is studied in Locusta migratoria on four well-known physiological functions of the corpora allata by means of a single injection of a solution of hormone in oil at doses of 50, 100, and 200 μg/animal. Judged on morphogenesis and pigmentation, JH-I (C-18 JH) as well as JH-III (C-16 JH) show a real juvenilizing effect. The potency of JH-I is much higher than that of JH-III because the first hormone only produces supernumerary larvae and most modified green animals. JH-I counterbalances exactly the lack of CA on the gonadotropic function whereas JH-III allows only about 50 per cent development of oöcytes. The cardiotropic activity of JH-I is similar to that of the CA. The C-18 juvenile hormone is until now the only studied ‘juvenilizing’ compound which increases the heartbeat. JH-III appears to have no noticeable effect on the heart.These results combine to prove that only JH-I has an activity similar to the Locusta corpora allata on morphogenesis, pigmentation, ovarian maturation, and the cardiac activity of L. migratoria.     

Demonstration of Type I Insulin-Like Growth Factor Receptors on Human Platelets

Abstract

Human platelets, freshly isolated from healthy human adults, express receptors for insulin-like growth factor I. The IC₅₀ for displacement of ¹²⁵I-IGF-I binding by unlabeled IGF-I was 0.2 nM, by IGF-II 32 nM and by insulin 160 nM. Scatchard analysis of IGF-I binding demonstrates dissociation constants of 0.14 ± 0.08 nM for high affinity binding site and 54 ± 18 nM for low affinty binding site. The presence of the α-subunit of type I IGF receptor, as high affinity binding site, was verified by affinity crosslinking of ¹²⁵I-IGF-I to platelet surface membranes. Under reducing con-conditions a M_r= 135,000 band was preferentially labeled. The complete type I IGF receptor complex, which revealed under nonreducing conditions, has an approximately molecular mass of M_r > 400,000. The immunoprecipitation of the ¹²⁵I-IGF-I cross-linked type I receptor with αIR-3 confirmed the results achieved by affinity crosslinking.     

Synthesis and secretion of a precursor hemolymph juvenile hormone-binding protein in the adult female cockroach Leucophaea maderae

Hemolymph juvenile hormone-binding protein (JHBP) is synthesized and secreted from fat body in the adult female cockroach, Leucophaea maderae. The data in this paper suggest it is initially secreted from the fat body as a larger peptide whereas data in the accompanying paper demonstrate that JHBP is apolipophorin I. Using media from cultures of fat body maintained in vitro, a JH-binding component was found that is JH III saturable, has a K_D of 1.5 × 10⁻⁸ M, binds JH III > JH II > JH I, and has a sedimentation value of 6.5S on high salt sucrose gradients. Each of these properties is identical to those of the JHBP extracted from the hemolymph. To identify the protein that bound JH, media proteins were photoaffinity labeled with 10-[10,11-³H]epoxyfarnesyl diazoacetate ([³H]EFDA). The results revealed that two media proteins bound [³H]EFDA in the absence of JH III, but not in the presence of 100-fold excess JH III. The molecular weights of the two media peptides were estimated by SDS-PAGE to be 275,000 and 220,000.To determine if the JHBP found in media of fat body cultures was due to hemolymph contamination of fat body, incorporation of [³H]leucine into newly synthesized and secreted fat body proteins during a 48 h culture period was monitored. During the culture period, linear increases in the concentrations of radiolabeled 275 and 220 kD JHBP were observed. Monoclonal antibodies specific for the 220 kD hemolymph JHBP were found to recognize both the 275 and 220 kD JHBPs in the media.To investigate the possibility that the 275 kD protein is a precursor to the 220 kD protein and that components of the hemolymph process or modify the precursor, hemolymph was introduced into fat body cultures and relative concentrations of the 275 and 220 kD media JHBPs were determined. Addition of hemolymph to these organ cultures resulted in an increase in the concentration of radiolabeled 220 kD JHBP and a proportional decrease in the concentration of radiolabeled 275 kD JHBP, suggesting that the 275 kD protein is a precursor to the 220 kD hemolymph JHBP. The mechanism of processing or modification remains undetermined.     

Apparent “negative cooperativity” kinetics in the absence of a nonlinear Scatchard plot of thyrotropin-receptor interaction in a human thyroid adenoma

A human thyroid adenoma (benign nodule) was identified which exhibited a linear Scatchard plot of ¹²⁵I-TSH binding, characteristic of a single class of binding site with high affinity (K_d = 0.5±0.1 nM) and low binding capacity (0.8±0.2 pmol/mg protein). In contrast, Scatchard analysis of binding to adjacent normal thyroid was nonlinear, suggesting the presence of high and low-affinity binding sites with K_d's of 0.4±0.2 and of 27.9±11.0 nM and capacities of 0.7±0.3 and 1.8±1.0 pmol/mg protein, respectively. Dissociation of bound ¹²⁵I-TSH from membranes of both adenoma and normal tissue revealed identical enhancement of dissociation in the presence of excess native hormone, thought to be evidence for the “negative cooperativity” model of hormone-receptor interaction. Furthermore, adenylate cyclase from both tissues was equally responsive to TSH. Thus, a thyroid adenoma which contains TSH-responsive adenylate cyclase still exhibited enhanced dissociation by native hormone, even though Scatchard analysis yielded a single, non-cooperative class of binding sites. This suggests that enhanced dissociation of bound hormone does not provide a demonstration of negatively-cooperative site-site interaction. Furthermore, nonlinear Scatchard plots, typical of TSH binding in normal thyroid, represent two classes of binding sites, of which the high affinity type is responsible for stimulation of adenylate cyclase.     

Characterization of juvenile hormone-binding proteins of hemolymph of Locusta migratoria

The binding of juvenile hormone (JH) by components from hemolymph of adult female Locusta migratoria was characterized to establish whether hemolymph JH-binding proteins could be distinguished from a protein of fat body (BP-1) that may be a JH receptor. Hemolymph was analyzed by the hydroxyapatite assay, gel separation chromatography, polyacrylamide gel electrophoresis, and density gradient centrifugation. Three fractions that bound JH were separated from whole hemolymph by DEAE cellulose column chromatography, and these differed from all three cytosol-binding components. The major hemolymph component (H-A) showed relatively stable binding of JH, a slight loss of binding capacity after delipidation, and a K_d for JH-I of 16 nM. The K_ds for JH-l and JH-lll with unfractionated hemolymph were 26 and 42 nM respectively. The order of effectiveness of competitors for binding of [³H]JH-l was JH-lll > JH-l ? methoprene > hydroprene ? acids of methoprene and hydroprene. The data indicated that unlabeled JH-lll was bound more effectively than its radioactive counterpart. The sedimentation values determined by sucrose density gradient ultracentrifugation were 13-14 S for hemolymph, and the sedimentation value was not altered by the inclusion of 0.4 M KCl throughout the gradient. The data indicated that H-A resembled the specific JH carriers and differed from the putative receptor of fat body cytosol by several criteria.     

A specific photoaffinity label for hemolymph and ovarian juvenile hormone-binding proteins in Leucophaea maderae

A tritium-labeled diazocarbonyl juvenile hormone (JH) analog, (10-[10,11-3H]epoxyfarnesyl diazoacetate, [3H]EFDA), covalently bound to proteins in both hemolymph and ovarian extracts when reaction mixtures were irradiated with UV light. The addition of various concentrations of unlabeled JH III selectively inhibited [3H]EFDA photoattachment to proteins. Using the Scatchard method of analysis, [3H]EFDA bound specifically and with relatively high affinity (KD = 1.5 X 10(-6) M) to a macromolecule in each extract, although nonspecific binding to other molecules was also present (20-50%). To determine if [3H]EFDA bound at the JH III-binding site on the binding proteins, radioactive [3H]JH III or [3H]EFDA was complexed with proteins in the presence of various concentrations of either unlabeled JH III or JH I under equilibrium conditions. The results demonstrated that the natural hormone, JH III, displaced both bound labeled ligands 4.1 +/- 0.5 times better than the homolog JH I. Thus, the photoaffinity label [3H]EFDA bound at the same site on the protein as [3H] JH III. Fluorescent autoradiography of [3H]EFDA-labeled proteins separated by sodium dodecyl sulfate electrophoresis revealed that several proteins in both hemolymph and ovarian extracts bound [3H]EFDA. To determine the specificity of binding, extracts were irradiated with UV light in the presence of unlabeled JH III and [3H]EFDA. The results demonstrated that JH III prevented photoattachment of [3H]EFDA to a major protein in each extract. The molecular weight of these proteins was estimated at approximately 200,000 for both the hemolymph protein and the ovarian protein.     

Involvement of carboxyl groups in chloride transport and reversible DIDS binding to band 3 protein in human erythrocytes

Noncovalent DIDS binding to Band 3 (AE1) protein in human erythrocyte membranes, modified by non-penetrating, water soluble 1-ethyl-3-(4-azonia-4,4-dimethylpentyl)-carbodiimide iodide (EAC), was studied at 0°C in the presence of 165 mM KCl. Under experimental conditions applied up to (48 ± 5) % of irreversible chloride self-exchange inhibition was observed. The apparent dissociation constant, KD, for “DIDS-Band 3” complex, determined from the chloride transport experiments, was (34 ± 3) nM and (80 ± 12) nM for control and EAC-treated resealed ghosts, respectively. The inhibition constant, Ki, for DIDS was (35 ± 6) nM and (60 ± 8) nM in control and EAC-treated ghosts, respectively. The reduced affinity for DIDS reversible binding was not a result of negative cooperativity of DIDS binding sites of Band 3 oligomer since Hill’s coefficients were indistinguishable from 1 (within the limit error) both for control and EAC-treated ghosts. By using tritium-labeled DIDS, 4,4’-diisothiocyanato-2,2’-stilbenedisulfonate ([³H]DIDS), the association rate constant, k₊₁ (M⁻¹s⁻¹), was measured. The mean values of (4.3 ± 0.7) × 10⁵ M⁻¹s⁻¹ for control and (2.7 ± 0.7) × 10⁵ M⁻¹s⁻¹ for EAC-treated ghosts were obtained. The mean values for K_D, evaluated from [³H]DIDS binding measurements, were (37 ± 9) nM and (90 ± 21) nM for control and EAC-modified ghosts, respectively. The results demonstrate that EAC modification of AE1 reduces about 2-fold the affinity of AE1 for DIDS. It is suggested that half of the subunits are modified near the transport site by EAC.     

The oligopeptide chemotactic factor receptor on human polymorphonuclear leukocyte membranes exists in two affinity states

The binding of the chemoattractant N-formyl-methionylleucyl-[³H]phenylalanine to intact polymorphonuclear leukocytes and membrane preparations was analyzed by computer methods. Whole viable cells bind the chemoattractant with a single dissociation constant (K_D) of 22.3 ± 2.4 nM and contain an average of 55,000 receptors percell. In contrast, the binding data using membrane preparations were consistent with the presence of two classes of binding sites with average K_Ds of 0.53 ± 0.01 nM and 24.4 ± 1.2 nM. The high affinity receptors accounted for ca. 25% of the binding sites. Increasing the receptor occupancy did not affect the rate of dissociation of the ligand-receptor complex thus negative cooperativity is not a likely explanation for the complex binding isotherms. On the other hand, the dissociation kinetics did agree with the two affinity receptor model.     

The structure of a juvenile hormone-binding lipophorin from the hemolymph of Diploptera punctata

The high molecular weight, high affinity juvenile hormone binding protein from the hemolymph of Diploptera punctata was identified as a lipophorin by gradient KBr ultracentrifugation and SDS gradient PAGE. This juvenile hormone binding lipophorin (JHBL) was composed of two subunits, apolipoprotein I (230 kDa mol. wt) and apolipoprotein II (80 kDa mol. wt). The density of the native protein was 1.15 g/ml. Photoaffinity labeling using the JH analog [³H]EFDA demonstrated that the JH binding site resides on apolipoprotein I. The amino acid composition of both native lipophorin and its two subunits was determined and the N-terminal sequence of the 80 kDa apolipoprotein described for 19 of the first 21 amino acids. This sequence did not have similarity to any known protein. The N-terminus of the 230 kDa apolipoprotein was blocked. The specificity of a monoclonal antibody to purified native JHBL was also demonstrated. We show that the monoclonal antibody was specific to the 230 kDa subunit and did not recognize the 80 kDa apolipoprotein.     

Characterization of termite lipophorin and its involvement in hydrocarbon transport

The transport of lipids constitutes a vital function in insects and requires the plasma lipoprotein lipophorin. In all insects examined to date, cuticular hydrocarbons are also transported through the hemolymph by lipophorin, and in social insects they play important roles not only in water proofing the cuticle but also in nestmate recognition. High-density lipophorin (HDLp), isolated from Reticulitermes flavipes plasma by KBr gradient ultracentrifugation, contains 66.2% protein and 33.8% lipids; hydrocarbons constitute its major neutral lipid (20.4% of total lipids). Anti-lipophorin serum was generated in rabbit and its specific association with lipophorin, and not with any other plasma proteins, was verified with Western blotting. Immunoprecipitation also confirmed that this antibody specifically recognizes lipophorin, because all hemolymph hydrocarbons of the termites R. flavipes and R. lucifugus and the cockroach Supella longipalpa, which associate only with lipophorin, were recovered in the immunoprecipitated protein. Cross-reactivity of the antiserum with lipophorin from related species was investigated by double immunodiffusion with 10 termite species in the genera Reticulitermes, Coptotermes, Zootermopsis, and Kalotermes, and with five cockroach species. Involvement of lipophorin in hydrocarbon transport was shown by injecting HDLp antiserum into Zootermopsis nevadensis and then monitoring the de novo biosynthesis of hydrocarbons and their transport to the cuticular surface; the antiserum significantly disrupted hydrocarbon transport. ELISA revealed a gradual increase in the lipophorin titer in successively larger R. flavipes workers, and differences among castes in lipophorin titers were highest between nymphs and first instar larvae.     

High affinity binding sites for [3H]-nitrendipine in rabbit uterine smooth muscle

The binding properties of the high affinity binding site for [³H]-nitrendipine on rabbit uteri membranes were investigated. The specific component had a dissociation constant of 0.46±.07nM and a maximal binding of 175±11 pmol/mg. A variety of other calcium channel blockers inhibited the binding of [³H]nitrendipine with varying potencies. Flunarizine demonstrated a high potency (IC₅₀ = 0.30 uM) in inhibiting binding while verapamil and bepridil were less potent with IC₅₀'s of approximately 0.6–1.5 uM. Diltiazem did not displace nitrendipine even at very high concentrations. Verapamil displayed negative cooperative inhibition suggesting that a second site exists on uterine membranes for the binding of other calcium channel blockers.     

Binding of β1-adrenoreceptor antagonist [3H]CGP 26505 in rat cerebral cortex and sinus atrial nodeantagonist [3H]CGP 26505 in rat cerebral cortex and sinus atrial node

Specific β₁-adrenoreceptors antagonist [³H]CGP 26505 binding was characterized in rat cerebral cortex and heart sinus atrial node. In both tissues [³H]CGP 26505 binding was maximal at 25°C, it was specific, saturable and protein concentration dependent. Scatchard analysis of saturation isotherms of specific [³H]CGP 26505 binding in cerebral cortex showed that [³H]CGP 26505 binds a single class of high affinity sites with a dissociation constant (K_D) of 1±0.3 nM and a maximal number of binding sites (B_max) of 40±2 fmol/mg of protein. In sinus atrial node, [³H]-CGP 26505 binds a single class of high affinity sites (K_D=1.9±0.4 nM, B_max=28±2 fmol/mg of protein).     

Identification of a juvenile hormone binding protein in the castes of the termite,Reticulitermes flavipes,by photoaffinity labeling

Hemolymph proteins of the Eastern subterranean termite, Reticulitermes flavipes (Isoptera, Rhinotermitidae, Rhinotermitinae) were examined from sterile and reproductive castes using native and denaturing polyacrylamide gel electrophoresis (PAGE). A high-mass protein (ca. 700 kDa) exhibited specific, JH III-displaceable photoaffinity labeling with [³H]EFDA, a diazoacetate analog of JH III. This protein was present in each termite caste, and had the characteristics of a glycosylated lipoprotein, i.e. a lipophorin. The JH-binding subunit of this protein showed a molecular size of 230 kDa using SDS-PAGE. The differences in the hemolymph proteins present in the soldiers, workers, larvae, nymphs, and replacement reproductives of this rhinotermitid are discussed.