The receptor for Bacillus thuringiensis CrylA(c) delta-endotoxin in the brush border membrane of the lepidopteran Manduca sexta is aminopeptidase N

A 120 kDa glycoprotein in the larval midgut membrane of the Iepidopteran Manduca sexta, previously identified as a putative receptor for Bacillus thuringiensis CrylA(c) δ-endotoxin, has been purified by a combination of protoxin affinity Chromatography and anion exchange chromatography. In immunoblotting experiments, the purified glycoprotein has the characteristics predicted of the receptor: it binds CrylA(c) toxin In the presence of GlcNAc but not GalNAc; it binds the lectin SBA; but it does not bind CrylB toxin. N-terminal and internal amino acid sequences obtained from the protein show a high degree of similarity with the enzyme aminopeptidase N (EC 3.4.11.2). When assayed for aminopeptidase activity, purified receptor preparations were enriched 5.3-fold compared to M. sexta brush border membrane vesicles. We propose that the receptor for CrylA(c) toxin in the brush border membrane of the lepidopteran M. sexta is the metalloprotease aminopeptidase N.     

Intestinal amino acid absorption in tobacco hornworm larvae is stimulated by potassium and sodium but not rubidium or lithium

We used rapid filtration assays to determine the ion selectivity of ion gradientdriven phenylalanine uptake by brush border membrane vesicles prepared from the larval midgut of the tobacco hornworm (Manduca sexta). Phenylalanine uptake by these vesicles is stimulated by both potassium and sodium. Phenylalanine uptake by larval M. sexta midgut brush border membrane vesicles is voltage sensitive and shows little selectivity for potassium over sodium. However, phenylalanine uptake by these vesicles is stimulated by neither rubidium nor lithium.     

Phenylglyoxal suppresses cationic lysine/K+ symport under alkaline conditions in brush border membrane vesicles from larval Manduca sexta midgut

The arginine-specific reagent, phenylglyoxal, decreases the initial rate of lysine/K⁺ symport (cotransport) as well as maximum lysine accumulation at pH 9.2, by brush border membrane vesicles obtained from the larval midgut of the lepidopteran, Manduca sexta. The symport of a neutral amino acid, leucine, remained unaffected. Following exposure to phenylglyoxal, the apparent dissociation constant for lysine increased by a factor of 2.5 whereas the maximum uptake rate decreased by a factor of 0.4. More than one arginine residue appears to react with phenylglyoxal. Apparently phenylgyoxal reacts preferentially with arginine residues on a symporter that is specific for positively charged lysine. Phenylglyoxal shows promise as a specific covalent label for the identification of a cationic amino acid symporter. © 1995 Wiley-Liss, Inc.     

Na-dependent uptake of phenylalanine in the midgut of a cockroach (Blabera gigantea)

Summary A net absorption of sodium ions and ofl-phenylalanine, in the absence of chemical gradients, occurs across the isolated midgut of the cockroachBlabera gigantea. Both sodium and amino acid net fluxes were abolished by the haemolymphatic addition of the Na–K ATPase inhibitor ouabain, at a concentration 1 mM. A purified fraction of brush border membranes, prepared from the midgut tissue by Ca-precipitation, was used to investigate the occurrence of a cotransport system in the luminal membrane of the cockroach enterocyte. An inwardly directed Na gradient (100 mM outside the vesicles, 0 mM inside) drives the uphill movement of phenylalanine into the vesicular space, whilst other monovalent cations fail to induce the concentrative uptake of the amino acid. Moreover, the amino acid uptake seems to be dependent on the transmembrane potential, since inwardly directed gradients of different sodium salts determine a decreasing rate of phenylalanine uptake in agreement with the presumptive permeabilities of Na counterions. These data suggest the presence of a Na-phenylalanine cotransport system located on the brush border membrane ofB. gigantea midgut.Abbreviations BBMV brush border membrane vesicles - HEPES N-2-hydroxyethyl-piperazine-N-2-ethanesulfonic acid - PD transepithelial electrical potential difference - TMA tetramethylammonium - Tris tris-(hydroxymethyl) aminomethane     

Southern analysis of BT-R 1, the Manduca sexta gene encoding the receptor for the Cry1Ab toxin of Bacillus thuringiensis

Various subspecies of the gram-positive bacterium Bacillus thuringiensis are known to produce a wide array of insecticidal crystal proteins (ICPs) upon sporulation. These ICPs act primarily on the brush border of midgut epithelial cells of susceptible larvae. Recently, a protein of 210 kDa, isolated from the midgut of Manduca sexta, has been demonstrated to bind the Cry1Ab toxin produced by B. thuringiensis subsp. berliner and is therefore postulated to be involved in mediating the toxicity of Cry1Ab. The cDNA encoding the 210 kDa protein, termed BT-R₁ (Bacillus thuringiensis receptor-1), was recently cloned, and shows limited homology to the cadherin superfamily of proteins. Quite naturally, there is a great deal of interest in the characterization of BT-R ₁ , the gene encoding the 210 kDa Cry1Ab binding protein. The studies presented here involve the use of various restriction fragments prepared from the cDNA encoding BT-R₁ as probes of Southern blots bearing M. sexta genomic DNA cleaved with a variety of restriction endonucleases. These Southern blot data reveal that there are two discrete regions within the M. sexta genome which encode sequences homologous to BT-R₁. On the basis of the signal intensities seen on Southern blots, it appears that only one of these genes encodes BT-R₁, whereas the other is a closely related homologue. Received: 27 March 1997 / Accepted: 30 June 1997     

粘虫类钙粘蛋白基因的克隆、序列分析及时空表达

昆虫中肠膜类钙粘蛋白（cadherin-like protein, CLP）是苏云金芽孢杆菌Bacillus thuringiensis (Bt)毒素的重要受体之一, 与Bt毒素的杀虫作用机制以及昆虫对Bt毒素的抗性等密切相关。本研究应用RT-PCR和RACE技术, 克隆了迁飞性重要害虫粘虫Mythimna separata类钙粘蛋白基因全长cDNA序列（命名为Msclp, GenBank登录号为JF951432）, 全长5 642 bp, 编码1 757个氨基酸, 推导的氨基酸序列具有昆虫类钙粘蛋白的特征结构, 包括1个信号肽、 1个前蛋白区、 12个钙粘蛋白重复、 1个近膜区、 1个跨膜区和1个胞质区。预测的分子量和等电点分别为196.786 kD和4.5。该蛋白与同科的烟夜蛾Helicoverpa assulta、 烟芽夜蛾Heliothis virescens、 棉铃虫Helicoverpa armigera及甜菜夜蛾Spodoptera exigua的类钙粘蛋白亲缘关系最近, 氨基酸序列一致性分别为61.77%, 61.66%, 61.26%和58.14%。荧光定量RT-PCR分析表明, 该类钙粘蛋白基因在不同龄期的粘虫幼虫中表达量差异极显著(P<0.01), 其中4龄幼虫相对表达量最高, 但与3龄、 6龄幼虫并没有显著性差异; 1和2龄幼虫表达量最低; 表达部位主要在粘虫中肠, 在中肠以外的虫体其他部位表达量极低。这些结果对于揭示转Bt作物对非靶标、 迁飞性粘虫的杀虫作用机制以及评价其潜在的对Bt毒素抗性机制等奠定了基础。     

Chromatographic and electrophoretic resolution of proteins and protein complexes from the larval midgut microvilli of Manduca sexta

The microvillar proteome of Manduca sexta larval midguts was analyzed by subjecting brush border membrane vesicles (BBMV) to two different two-dimensional approaches: (i) Anion exchange chromatography followed by SDS-PAGE and (ii) Blue Native-PAGE followed by SDS-PAGE. The first technique was superior to conventional 2-D gel electrophoresis in resolving the most abundant proteins associated with the midgut microvilli. Twenty of them were successfully identified as digestive enzymes, binding targets of the insecticidal Cry1A toxins from Bacillus thuringiensis (Bt), and signal transduction proteins. A homolog of the chlorophyllide A binding protein from the silkworm and several aminopeptidases N represent the most abundant proteins associated with the BBMV. The second technique revealed protein oligomeric complexes associated with midgut microvilli in vivo. Two such complexes contained subunits of the vacuolar ATP synthase complex, and one was an oligomer of the chlorophyllide A binding protein. An additional complex consisted of homo- or hetero-tetramers of three different aminopeptidases N (APNs). As APNs are well-known binding partners of Cry1A toxins, their quaternary structure has implications for Bt toxin mode of action. Both techniques provide a useful complement to conventional 2-D gel electrophoresis in analyzing the complex proteome of the microvillar membrane fraction.     

Identification of Aminopeptidase-N2 as a Cry2Ab binding protein in Manduca sexta

Bacillus thuringiensis Cry2Ab toxin has been used in combination with Cry1Ac for resistance management on the Bt-cotton that is widely planted worldwide. However, little is known regarding Cry2Ab mode of action. Particularly, there is a gap of knowledge on the identification of insect midgut proteins that bind Cry2Ab and mediate toxicity. In the case of Cry1Ab toxin, a transmembrane cadherin protein and glycosyl-phosphatidylinositol (GPI) anchored proteins like aminopeptidase-N1 (APN1) or alkaline-phosphatase (ALP) from Manduca sexta, have been shown to be important for oligomer formation and insertion into the membrane. Binding competition experiments showed that Cry2Ab toxin does not share binding sites with Cry1Ab toxin in M. sexta brush border membrane vesicles (BBMV). Also, that Cry2Ab shows reduced binding to the Cry1Ab binding molecules cadherin, APN1 or ALP. Finally, ligand blot experiments and protein sequence by LC–MS/MS identified APN2 isoform as a Cry2Ab binding protein. Cloning and expression of APN2 confirmed that APN2 is a Cry2Ab binding protein.     

Na+-independent l-arginine transport in rabbit renal brush border membrane vesicles

Na⁺-independent l-arginine uptake was studied in rabbit renal brush border membrane vesicles. The finding that steady-state uptake of l-arginine decreased with increasing extravesicular osmolality and the demonstration of accelerative exchange diffusion after preincubation of vesicles with l-arginine, but not d-arginine, indicated that the uptake of l-arginine in brush border vesicles was reflective of carrier-mediated transport into an intravesicular space. Accelerative exchange diffusion of l-arginine was demonstrated in vesicles preincubated with l-lysine and l-ornithine, but not l-alanine or l-proline, suggesting the presence of a dibasic amino acid transporter in the renal brush border membrane. Partial saturation of initial rates of l-arginine transport was found with extravesicular [arginine] varied from 0.005 to 1.0 mM. l-Arginine uptake was inhibited by extravesicular dibasic amino acids unlike the Na⁺-independent uptake of l-alanine, l-glutamate, glycine or l-proline in the presence of extravesicular amino acids of similar structure. l-Arginine uptake was increased by the imposition of an H⁺ gradient (intravesicular pH<extravesicular pH) and H⁺ gradient stimulated uptake was further increased by FCCP. These findings demonstrate membrane-potential-sensitive, Na⁺-independent transport of l-arginine in brush border membrane vesicles which differs from Na⁺-independent uptake of neutral and acidic amino acids. Na⁺-independent dibasic amino acid transport in membrane vesicles is likely reflective of Na⁺-independent transport of dibasic amino acids across the renal brush border membrane.     

Identification of the receptor for Bacillus sphaericus crystal toxin in the brush border membrane of the mosquito Culex pipiens (Diptera: Culicidae).

The binary toxin (Bin) from Bacillus sphaericus crystals specifically binds to soluble midgut brush border membrane proteins from Culex pipiens larvae. A single 60 kDa midgut membrane protein is identified as the binding protein. This protein is anchored in the mosquito midgut membrane via a glycosyl-phosphatidylinositol (GPI) anchor, and is partially released by phosphatidylinositol specific-phospholipase C (PI-PLC). Fractionation of soluble proteins by anion exchange chromatography indicates that the binding protein does not co-elute with leucine aminopeptidase activity. After partial purification, the sequences of internal amino acid fragments of the 60 kDa protein were determined. The peptide sequences were compared with data in GenBank, and showed a very high degree of similarity with enzymes belonging to the alpha-amylase family. Further enzymatic investigation showed that the receptor of the Bin toxin in C. pipiens larval midgut may be an alpha-glucosidase.     

Biotinylation of Bacillus thuringiensis Insecticidal Crystal Proteins

Biotinylation of Bacillus thuringiensis insecticidal crystal proteins (ICPs) was evaluated for its potential use in an alternative ICP screening method and in the characterization of ICP receptors. In vivo biological activity of CryIA(b), as inferred from bioassays with Manduca sexta and Ostrinia nubilalis and from histopathological effects on O. nubilalis midgut cells induced by force feeding, was not affected by biotinylation at moderate biotinylation ratios. A competitive radioreceptor assay showed that there was only a minor reduction in binding affinity of biotin-labeled CryIA(b) for M. sexta brush border membrane vesicles. On midgut tissue sections, the binding pattern along the midgut epithelium and the staining intensity of biotinylated ICPs detected with streptavidin-enzyme conjugate were virtually identical to the binding pattern and staining intensity of native CryIA(b) detected with antibodies. The specificity of biotinylated ICP binding to larval midgut tissue was demonstrated by performing homologous competition experiments. The relationship between different ICP receptor types in Plutella xylostella, as inferred from radioligand binding studies, was confirmed by the results of heterologous competition experiments performed with biotinylated and native ICPs.     

Absorption pathways of amino acids in the midgut of Manduca sexta larvae

The unidirectional transport of leucine and aspartic acid by midgut epithelium cells of the tobacco ornworm, Manduca sexta, was investigated using brush border membrane vesicles. Both K⁺-stimulated and K⁺-insensitive transport pathways for these two amino acids were identified. Kinetic analyses and profiles of cis-inhibition by other amino acids demonstrated that leucine and aspartic acid are transported by separate pathways and exhibit different sensitivity to potassium ion.     

Structural domains involved in substrate selectivity in two neutral amino acid transporters

The ability of the two highly homologous Na⁺/Cl^–-dependent neutral amino acid transporters KAAT1 and CAATCH1, cloned from the midgut epithelium of the larva Manduca sexta, to transport different amino acids depends on the cotransported ion, on pH, and on the membrane voltage. Different organic substrates give rise to transport-associated currents with their own characteristics, which are notably distinct between the two proteins. Differences in amplitude, kinetics, and voltage dependence of the transport-associated currents have been observed, as well as different substrate selectivity patterns measured by radioactive amino acid uptake assays. These diversities represent useful tools to investigate the structural determinants involved in the substrate selectivity. To identify these regions, we built four chimeric proteins between the two transporters. These proteins, heterologously expressed in Xenopus laevis oocytes, were analyzed by two-electrode voltage clamp and uptake measurements. Initially, we exchanged the first three domains, obtaining the chimeras C3K9 and K3C9 (where numbers indicate the transmembrane domains and letters represent the original proteins), which showed electrophysiological and [³H]amino acid uptake characteristics resembling those of KAAT1 and CAATCH1, respectively. Subsequent substitution of the last four domains in C3K9 and K3C9 gave the proteins C3K5C4 and K3C5K4, which showed the same behavior as KAAT1 and CAATCH1 in electrophysiological and transport determinations. These results suggest that in KAAT1 and CAATCH1, only the central transmembrane domains (from 4 to 8) of the protein are responsible for substrate selectivity. structure and function; Manduca sexta     

Neither barium nor calcium prevents the inhibition by Bacillus thuringiensis δ-endotoxin of sodium- or potassium gradient-dependent amino acid accumulation by tobacco hornworm midgut brush border membrane vesicles

Rapid filtration assays were used to determine the effects of barium, calcium and an insecticidal δ-endotoxin from Bacillus thuringiensis on sodium and potassium ion gradient dependent phenylalanine accumulation by brush border membrane vescles from the larval midgut of the tobacco hornworm (Manduca sexta). Neither barium nor calcium had a significant effect on sodium ion gradient dependent phenylalanine accumulation by the membrane vesicles. Both barium and calcium inhibited potassium ion gradient dependent phenylalanine accumulation by the membrane vesicles. B. thuringiensis δ-endotoxin inhibited both sodium and potassium ion gradient dependent phenylalanine accumulation by the vesicles. Inhibition of both sodium and potassium ion gradient dependent phenylalanine accumulation increased similarly with increasing δ-endotoxin inhibition of either sodium or potassium dependent phenylalanine accumulation by the vesicles.     

Amino acid and divalent ion permeability of the pores formed by the Bacillus thuringiensis toxins Cry1Aa and Cry1Ac in insect midgut brush border membrane vesicles

The pores formed by Bacillus thuringiensis insecticidal toxins have been shown to allow the diffusion of a variety of monovalent cations and anions and neutral solutes. To further characterize their ion selectivity, membrane permeability induced by Cry1Aa and Cry1Ac to amino acids (Asp, Glu, Ser, Leu, His, Lys and Arg) and to divalent cations (Mg²⁺, Ca²⁺ and Ba²⁺) and anions (SO₄²⁻ and phosphate) was analyzed at pH 7.5 and 10.5 with midgut brush border membrane vesicles isolated from Manduca sexta and an osmotic swelling assay. Shifting pH from 7.5 to 10.5 increases the proportion of the more negatively charged species of amino acids and phosphate ions. All amino acids diffused well across the toxin-induced pores, but, except for aspartate and glutamate, amino acid permeability was lower at the higher pH. In the presence of either toxin, membrane permeability was higher for the chloride salts of divalent cations than for the potassium salts of divalent anions. These results clearly indicate that the pores are cation-selective.     

Immunocytochemical localization of a vacuolar-type ATPase in Malpighian tubules of the ant Formica polyctena

The presence of a vacuolar-type ATPase in Malpighian tubules of the ant Formica polyctena was investigated immunocytochemically, using antibodies to vacuolar ATPases of Manduca sexta midgut and bovine kidney. Specific labelling was observed at the brush border of the epithelium extending along the entire length of the tubules. These findings agree with the current view that a vacuolar ATPase is situated at the apical membrane of Malpighian tubule cells and other insect epithelial cells, being the energizing element of an electrogenic potassium pump. When antibodies were tested on tubules in different secretion conditions prior to fixation, no differences were observed in the distribution of the vacuolar ATPase.This work was supported by grants from the European Community (SCI-CT90-0480), from the Ministerio de Educación y Ciencia DGICYT, Spain (CE 91-0002), and from the Deutsche Forschungsgemeinschaft (Wi 698-3).     

Occurrence of three different binding sites for Bacillus thuringiensis δ-endotoxins in the midgut brush border membrane of the potato tuber moth,phthorimaea operculella (zeller)

The potato tuber moth is susceptible to at least three insecticidal crystal proteins (ICPs) from Bacillus thuringiensis: CrylA(b), CrylB, and CrylC. To design useful combinations of toxin genes either in transgenic plants or in new genetically modified B. thuringiensis strains, it is necessary to determine the binding characteristics of the different ICPs so as not to combine a pair sharing the same binding site. This has been accomplished using two different techniques: ¹²⁵I-labeling of the ICPs with further measurement of the radioactivity bound to brush border membrane vesicles, and microscopic visualization of the bound ICPs by enzyme-linked reagents such as antibodies or streptavidin using biotinylated ICPs. Our results show that CrylA(b), CrylB, and CrylC bind to different sites in the brush border membrane of midgut epithelial cells. Also, the affinity of the binding sites for the ICPs and their concentration in brush border membrane vesicles has been determined in a laboratory strain and a storage collected population. No significant differences were found between these two strains. © 1994 Wiley-Liss, Inc.     

Proteomic analysis of the mosquito Aedes aegypti midgut brush border membrane vesicles

We analyzed brush border membrane vesicle proteins from isolated midguts of the mosquito Aedes aegypti, by two proteomic methods: two-dimensional gel electrophoresis (isoelectric focusing and SDS-PAGE) and a shotgun two-dimensional liquid chromatographic (LS/LS) approach based on multidimensional protein identification technology (MudPIT). We were interested in the most abundant proteins of the apical brush border midgut membrane. About 400 spots were detected on 2D gels and 39 spots were cored and identified by mass spectrometry. 86 proteins were identified by MudPIT. Three proteins, arginine kinase, putative allergen and actin are shown to be the most predominant proteins in the sample. The total number of 36 proteins detected by both methods represents the most abundant proteins in the BBMV.     

Bacillus thuringiensis subsp. Aizawai δ-endotoxin inhibits the k+/amino acid cotransporters of lepidopteran larval midgut

1. The δ-endotoxin of Bacillus thuringiensis subsp. aizawai inhibits in a dose-dependent manner the K⁺-driven accumulation of histidine and lysine as well as their equilibrative uptake into brush border membrane vesicles from the midgut of Bombyx mori larvae.2. The decrease of uptake in the absence of a K⁺-gradient is neither due to a leakage of the labelled substrate from the vesicles nor to a reduction of the osmotically active space available, as a result of a detergent-like effect of the toxin.3. The toxin acts as a non competitive inhibitor of the K⁺/amino acid cotransporters of the larval midgut of Lepidoptera, with no preference for a specific transport system.