cDNA cloning of the Cry1Aa receptor variants from Bombyx mori and their expression in mammalian cells

We cloned cDNA of three variants of BtR175, a putative Bombyx mori receptor for Bacillus thuringiensis Cry1Aa delta-endotoxin by PCR. These variants were likely to be allelic to BtR175. cDNA of BtR175b, the most distant variant from BtR175, was introduced into mammalian cells. BtR175b protein was expressed in the plasma membrane of the cells and showed binding activity to Cry1Aa.     

Location of the Bombyx mori 175kDa cadherin-like protein-binding site on Bacillus thuringiensis Cry1Aa toxin

To identify and gain a better understanding of the cadherin-like receptor-binding site on Bacillus thuringiensis Cry toxins, it is advantageous to use Cry1Aa toxin, because its 3D structure is known. Therefore, Cry1Aa toxin was used to examine the locations of cadherin-like protein-binding sites. Initial experiments examining the binding compatibility for Cry1Aa toxin of partial fragments of recombinant proteins of a 175kDa cadherin-like protein from Bombyx mori (BtR175) and another putative receptor for Cry1Aa toxin, amino peptidaseN1, from Bo.mori (BmAPN1), suggested that their binding sites are close to each other. Of the seven mAbs against Cry1Aa toxin, two mAbs were selected that block the binding site for BtR175 on Cry1Aa toxin: 2A11 and 2F9. Immunoblotting and alignment analyses of four Cry toxins revealed amino acids that included the epitope of mAb 2A11, and suggested that the area on Cry1Aa toxin blocked by the binding of mAb 2A11 is located in the region consisting of loops2 and 3. Two Cry1Aa toxin mutants were constructed by substituting a Cys on the area blocked by the binding of mAb 2A11, and the small blocking molecule, N-(9-acridinyl)maleimide, was introduced at each Cys substitution to determine the BtR175-binding site. Substitution of Tyr445 for Cys had a crippling effect on binding of Cry1Aa toxin to BtR175, suggesting that Tyr445 may be in or close to the BtR175-binding site. Monoclonal antibodies that blocked the binding site for BtR175 on Cry1Aa toxin inhibited the toxicity of Cry1Aa toxin against Bo.mori, indicating that binding of Cry1Aa toxin to BtR175 is essential for the action of Cry1Aa toxin on the insect.     

Affinity Maturation of Cry1Aa Toxin to the Bombyx mori Cadherin-Like Receptor by Directed Evolution

Improvement of the activity and insecticidal spectrum of cloned Cry toxins of Bacillus thuringiensis should allow for their wider application as biopesticides and a gene source for gene-modified crops. The insecticidal activity of Cry toxins depends on their binding to the receptor. Therefore, as a model, we aimed to generate improved binding affinity mutant toxins against Bombyx mori cadherin-like receptor (BtR175) using methods of directed evolution with the expectation of insecticidal activity improved mutants. Four serial amino acid residues of ⁴³⁹QAAG⁴⁴² or ⁴⁴³AVYT⁴⁴⁶ of Cry1Aa were replaced with random amino acids and were displayed on the T7 phage for library construction. Through five cycles of panning of the phage libraries using BtR175, 11 mutant phage clones were concentrated, and mutant toxin sequences were confirmed. The binding affinities of the three mutants were 42-, 15-, and 13-fold higher than that of the wild type, indicating that mutants with improved binding affinity to cadherin can be easily selected from randomly replaced loop 3 mutant libraries using directed evolution. We discuss the development of a genetic engineering method based on directed evolution to improve the binding affinity of Cry toxin to receptors.     

棉铃虫中肠钙粘蛋白、氨肽酶N及碱性磷酸酯酶的抗血清对Cry1Ac和Cry2Aa毒力的影响

【目的】Cry1A和Cry2A类Bt蛋白通过特异性地与昆虫中肠上的受体蛋白结合而发挥杀虫作用,现已广泛应用于转基因抗虫作物。本研究旨在进一步明确Cry2A类蛋白的作用机制和Cry1A受体蛋白在Cry2A发挥毒力中的作用。【方法】本研究首先提取了棉铃虫Helicoverpa armigera的BBMV,制备了钙粘蛋白(CAD)、氨肽酶N(APN)和碱性磷酸酯酶(ALP)3种受体蛋白的抗体和抗血清;然后,利用Western blot检测BBMV上这3种受体蛋白后,利用抗体封闭技术比较了敏感棉铃虫和Cry1Ac抗性棉铃虫(BtR)中3种受体蛋白的抗血清对Cry1Ac和Cry2Aa毒力的影响。【结果】对敏感品系棉铃虫,这3种已知的Cry1Ac受体蛋白抗血清显著地降低了Cry1Ac和Cry2Aa的毒力。其中APN抗血清对Cry1Ac毒力的影响最大,棉铃虫幼虫的死亡率降低了84.44%;ALP抗血清对Cry2Aa的毒力影响最大,棉铃虫幼虫死亡率比对照降低了71.04%。Cry1Ac对Cry1Ac抗性棉铃虫(BtR)的毒力显著降低,Cry2Aa的毒性也减弱。在Cry1Ac抗性棉铃虫(BtR)中,3种受体抗血清对Cry1Ac的影响比在敏感棉铃虫中的影响小,尤其是CAD和APN抗血清对Cry1Ac毒力的抑制率显著低于在敏感棉铃虫中的抑制作用;CAD和ALP抗血清对Cry2Aa毒力的影响与在敏感棉铃虫中的影响差异不显著,但APN抗血清可以显著降低Cry2Aa对Cry1Ac抗性棉铃虫(BtR)的毒力。【结论】棉铃虫CAD,APN和ALP不仅参与了Cry1Ac的杀虫过程,也对Cry2Aa毒力有一定的影响,而且这3种蛋白可能与棉铃虫对Cry1Ac和Cry2Aa产生抗性及交互抗性相关。     

An α‐amylase is a novel receptor for Bacillus thuringiensis ssp. israelensis Cry4Ba and Cry11Aa toxins in the malaria vector mosquito Anopheles albimanus (Diptera: Culicidae)

Bacillus thuringiensis ssp. israelensis (Bti) produces four Cry toxins (Cry4Aa, Cry4Ba, Cry10Aa and Cry11Aa), and two Cyt proteins (Cyt1Aa and Cyt2Ba), toxic to mosquito‐larvae of the genus Aedes, Anopheles and Culex, important human disease vectors that transmit dengue virus, malaria and filarial parasites respectively. Previous work showed that Bti is highly toxic to Anopheles albimanus, the main vector for transmission of malaria in Mexico. In this work, we analysed the toxicity of isolated Cry proteins of Bti and identified an An. albimanus midgut protein as a putative Cry4Ba and Cry11Aa receptor molecule. Biossays showed that Cry4Ba and Cry11Aa of Bti are toxic to An. albimanus larvae. Ligand blot assays indicated that a 70 kDa glycosylphosphatidylinositol‐anchored protein present in midgut brush border membrane vesicles of An. albimanus interacts with Cry4Ba and Cry11Aa toxins. This protein was identified as an α‐amylase by mass spectrometry and enzymatic activity assays. The cDNA that codes for the α‐amylase was cloned by means of 5′‐ and 3′‐RACE experiments. Recombinant α‐amylase expressed in Escherichia coli specifically binds Cry4Ba and Cry11Aa toxins.     

Comparative Study of Bacillus thuringiensis Cry1Aa and Cry1Ac δ-Endotoxin Activation, Inactivation and In Situ Histopathological Effect in Ephestia kuehniella (Lepidoptera: Pyralidae)

A comparative study of different steps in the mode of action of the individual Bacillus thuringiensis kurstaki BNS3 Cry1Aa and Cry1Ac δ-endotoxins on E. kuehniella larvae was performed in order to investigate the origin of the difference in the response of this larvae to each of the latter. Proteolytic activation was shown to be one of the main steps impaired in E. kuehniella tolerance to Cry1Aa. The absence of two proteinase activities as well as an altered activity level observed in the case of Cry1Aa would be the consequence of proteinase-mediated tolerance of E. kuehniella to this toxin. In situ binding and histopathological effect analyses allowed concluding that the binding of the toxin to BBMV receptors is the key step in E. kuehniella tolerance to Cry1Aa toxin. The latter was slightly bound to apical membranes of epithelial cells that remained intact, whereas Cry1Ac was tightly bound to completely damaged cells basal membranes.     

Identification and characterization of Aedes aegypti aminopeptidase N as a putative receptor of Bacillus thuringiensis Cry11A toxin

Bacillus thuringiensis subsp. israelensis, which is used worldwide to control Aedes aegypti larvae, produces Cry11Aa and other toxins during sporulation. In this study, pull-down assays were performed using biotinylated Cry11Aa toxin and solubilized brush border membrane vesicles prepared from midguts of Aedes larvae. Three of the eluted proteins were identified as aminopeptidease N (APN), one of which was a 140 kDa protein, named AaeAPN1 (AAEL012778 in VectorBase). This protein localizes to the apical side of posterior midgut epithelial cells of larva. The full-length AaeAPN1 was cloned and expressed in Eschericia coli and in Sf21 cells. AaeAPN1 protein expressed in Sf21 cells was enzymatically active, had a GPI-anchor but did not bind Cry11Aa. A truncated AaeAPN1, however, binds Cry11Aa with high affinity, and also Cry11Ba but with lower affinity. BBMV but not Sf21 expressed AaeAPN1 can be detected by wheat germ agglutinin suggesting the native but Sf21 cell-expressed APN1 contains N-acetylglucosamine moieties.     

Cry1Fa对Cry1Ac抗性棉铃虫的毒力评价

为了防治多种鳞翅目害虫, 表达Cry1Fa的转基因玉米和棉花已在美国商业化种植。明确棉铃虫Helicoverpa armigera对Cry1Fa与Cry1Ac的交互抗性及这两种杀虫蛋白之间的协同作用, 可以为表达 Cry1Fa+Cry1Ac的转双价抗虫棉花的合理应用提供依据。本实验测定了Cry1Fa对棉铃虫敏感品系（96S）及用Cry1Ac筛选的抗性品系（BtR, 抗性倍数2 194.15倍）的毒力, 发现Cry1Fa对敏感棉铃虫的毒力远低于Cry1Ac, LC₅₀值是Cry1Ac的504.80倍; 而且抗性品系BtR对Cry1Fa存在19.98倍的交互抗性。Cry1Fa与Cry1Ac混用可以提高Cry1Fa毒杀敏感棉铃虫的效果, 尤其是Cry1Fa浓度较低时, 加入Cry1Ac, 可以显著增加Cry1Fa的毒力; 但只有加入较高浓度的Cry1Fa时才能增加Cry1Ac的毒力。由于BtR品系已经对Cry1Ac产生抗性, Cry1Ac对抗性棉铃虫的毒力明显降低; 在较高浓度的Cry1Ac中加入Cry1Fa可以显著增加棉铃虫的死亡率（P=0.0015, F=6.88, df=6）, 但最高死亡率仅为58.33%。D-饱和最优试验的结果证实, Cry1Ac对于敏感棉铃虫的死亡率的影响达到显著水平（t₁=13.76﹥t_0.05）, Cry1Ac与Cry1Fa的交互作用对毒力的影响也达到显著水平（t₂₂=2.42﹥t_0.05; t₁₁=6.95﹥t_0.05; t₁₂=3.43﹥t_0.05）。Cry1Ac和Cry1Fa对抗性棉铃虫死亡率的影响都达到显著水平（t₁=3.03﹥t_0.05;t₂=2.59﹥t_0.05）, 但Cry1Ac是决定抗、 感棉铃虫死亡率的关键因素; Cry1Ac与Cry1Fa最佳浓度配比范围都是1.41~2.10 μg/cm2; 在抗性品系中, Cry1Ac和Cry1Fa的交互作用不显著。所以, 尽管Cry1F+Cry1A作物扩大了杀虫谱, 但棉铃虫对这两种蛋白存在交互抗性, 而且这两种蛋白混用对治理抗Cry1Ac棉铃虫的效果不理想, 因此不建议在中国种植表达Cry1F+Cry1A的棉花。关     

Pronase digestion of brush border membrane-bound Cry1Aa shows that almost the whole activated Cry1Aa molecule penetrates into the membrane

Bacillus thuringiensis insecticidal proteins, Cry toxins, following ingestion by insect larvae, induce insecticidal effect by penetrating the brush border membranes (BBM) of midgut epithelial cells. Purified, activated B. thuringiensis Cry1Aa bound to Bombyx mori BBMV or unbound Cry1Aa were vigorously digested with Pronase. Both digests were compared by Western blotting. Free Cry1Aa was digested to α-helix and/or to amino acids at 1 mg Pronase/mL within 2.4 h at 37 °C. Whereas, BBMV-bound Cry1Aa was very resistant to Pronase digestion and even at 2 mg for 24 h, 7.5 kDa and 30 kDa peptide were detected by α-2,3 antiserum, and α-4,5 and α-6,7 antisera, respectively. Another 30 kDa peptide was also detected by β-6-11 and domain III antisera. These fragments are believed either to be embedded in or to strongly interact with the BBMV. The 7.5 and former 30 kDa peptides are thought to be derived from α-2,3 helix and stretch of α-4 to α-7 helices. Furthermore the latter 30 kDa was thought to include the stretch of β-6 to domain III. Moreover, the embedded Cry1Aa molecule appears to be segregated in some areas of β-1-5 sheets, resulting in the above two 30 kDa peptides. From these digestion patterns, we proposed new membrane insertion model for single Cry1Aa molecule. On the other hand, in digestion of BBMV-bound Cry1Aa, 15 kDa peptide which was recognized only by α-4,5 antiserum was observed. This fragment must be dimeric α-4,5 helices and we discussed the origin of this peptide.     

Cytotoxicity Analysis of Three Bacillus thuringiensis Subsp. israelensis δ-Endotoxins towards Insect and Mammalian Cells

Three members of the δ-endotoxin group of toxins expressed by Bacillus thuringiensis subsp. israelensis, Cyt2Ba, Cry4Aa and Cry11A, were individually expressed in recombinant acrystalliferous B. thuringiensis strains for in vitro evaluation of their toxic activities against insect and mammalian cell lines. Both Cry4Aa and Cry11A toxins, activated with either trypsin or Spodoptera frugiperda gastric juice (GJ), resulted in different cleavage patterns for the activated toxins as seen by SDS-PAGE. The GJ-processed proteins were not cytotoxic to insect cell cultures. On the other hand, the combination of the trypsin-activated Cry4Aa and Cry11A toxins yielded the highest levels of cytotoxicity to all insect cells tested. The combination of activated Cyt2Ba and Cry11A also showed higher toxic activity than that of toxins activated individually. When activated Cry4Aa, Cry11A and Cyt2Ba were used simultaneously in the same assay a decrease in toxic activity was observed in all insect cells tested. No toxic effect was observed for the trypsin-activated Cry toxins in mammalian cells, but activated Cyt2Ba was toxic to human breast cancer cells (MCF-7) when tested at 20 µg/mL.     

二化螟钙黏蛋白CAD1的原核表达及与Cry1Ac、Cry2Aa蛋白的结合

【目的】二化螟是水稻的重要害虫之一,钙黏蛋白(cadherin,CAD)是一类重要的Bt杀虫蛋白受体,在获得二化螟钙黏蛋白基因(Cs CAD1)的基础上,明确Cs CAD1蛋白与Cry1Ac和Cry2Aa蛋白的结合能力。【方法】利用PCR技术克隆Cs CAD1基因片段,将构建的p ET-28a-(+)-Cs CAD1重组质粒转入原核表达菌株BL21(DE3)中,IPTG诱导表达。目的蛋白经Ni柱亲和纯化后SDS-PAGE电泳检测,利用western blot和ligand blot技术分析其与Cry1Ac和Cry2Aa蛋白的结合能力。【结果】重组载体可在表达菌株BL21中表达一个约44 ku的蛋白,原核表达载体构建成功。SDS-PAGE显示该蛋白条带单一,且纯度较好。Ni柱亲和层析纯化该目的蛋白后进行Ligand blot分析,结果显示Cs CAD1重组蛋白可以与Cry1Ac和Cry2Aa蛋白结合。【结论】Cs CAD1蛋白可以与Cry1Ac和Cry2Aa蛋白结合,是潜在的Cry蛋白受体,所得结果有助于阐明Cry1Ac和Cry2Aa蛋白对二化螟的作用机制。     

Susceptibility of major lepidopterans to δ-endotoxins and a formulation of Bacillus thuringiensis (B.t.) on vegetable brassicas in Taiwan

Baseline susceptibility of Plutella xylostella, Crocidolomia binotalis and Hellula undalis to Bacillus thuringiensis (B.t.) δ-endotoxins (Cry1Aa, Cry1Ab, Cry1Ac, Cry1Ca) and a formulation (Xentari®) was assessed using a leaf-dip bioassay method. The toxins Cry1Ac, Cry1Aa and Cry1Ca were equally toxic to P. xylostella. Crocidolomia binotalis was highly susceptible to all Cry1A toxins and it was least sensitive to Cry1Ca. Conversely, H. undalis was highly sensitive to Cry1Ca, but less susceptible to Cry1A toxins. Hence, the susceptibility of H. undalis to Xentari®, a formulation containing Cry1C as a major toxin, was significantly higher than C. binotalis or P. xylostella.     

Absence of non-target effects of two Bacillus thuringiensis coleopteran active δ-endotoxins on the bulb mite, Rhizoglypus robini (Claparède) (Acari, Acaridae)

Transgenic crops with plant‐incorporated protectants are often more specific than synthetic insecticides and have the potential to reduce impacts on non‐target organisms. In this study we assessed the impact of Cry3Aa and Cry3Bb1 coleopteran‐active δ‐endotoxins on the bulb mite, Rhizoglypus robini. The effect of Cry3Aa prototoxin in solutions of the biopesticide Novodor^® on mite survival was assessed in laboratory studies. Survival of R. robini exposed to Cry3Aa in a short‐term contact and ingestion experiment was not affected, although R. robini was significantly affected by the insecticide Fipronil^® used as a positive control. Similarly, R. robini exposed in a longer duration feeding trial to the Cry3Aa toxin in artificial diet were also not significantly affected. When Cry3Aa was tested on the positive control insect, Leptinotarsa decemlineata, reduced weight of larvae and increased mortality was recorded. The effect of Cry3Bb1 toxin in transgenic corn tissues on R. robini food choice was assessed in a laboratory study. In no‐choice tests a greater proportion of R. robini were found on garlic roots than on Cry3Bb1 transgenic corn and a near‐isogenic non‐transgenic corn. In a choice test, more R. robini was recovered on garlic roots than on either corn variety, and on Cry3Bb1 corn than on non‐transgenic corn. In large field plots using specific mite traps across the growing season, R. robini mite populations were not significantly different between Cry3Bb1 corn and non‐transgenic corn alone or non‐transgenic corn treated with different combinations of two insecticides. Our results, combined with results from other studies, suggest that transgenic plants expressing the Cry3Aa or Cry3Bb1 Bacillus thuringiensis toxins are likely to have negligible impact on R. robini mite populations.     

二化螟APN1的原核表达及其与Cry2Aa蛋白的结合特性研究

【目的】Bt杀虫蛋白发挥杀虫活性的重要前提是Cry蛋白能够与昆虫中肠上皮细胞刷状缘膜囊(BBMVs)上的受体蛋白结合。在前期获得二化螟氨肽酶N1(Aminopeptidase N,APN1)基因全长序列的基础上,明确二化螟APN1多肽片段与Cry2Aa的结合能力。【方法】将二化螟APN1序列片段在大肠杆菌BL21(DE3)中表达,利用蛋白质单向电泳和ligand blotting技术分析二化螟APN1多肽片段与Cry2Aa的结合能力。【结果】重组载体可在表达菌株BL21(DE3)中表达一个约70 ku的蛋白,纯化后的多肽条带单一,纯度较好。Ligand blot分析结果显示,表达的二化螟APN1多肽片段可以与活化的Cry2Aa杀虫蛋白结合,且结合条带随着重组蛋白上样量的降低而减弱。【结论】APN1多肽片段可以与Cry2Aa结合,为阐明APN1基因的功能奠定基础,也为其他Bt蛋白的受体蛋白相关研究提供新的借鉴。     

Cloning and Characterization of Two Novel Crystal Protein Genes, <Emphasis Type="Italic">cry54Aa1</Emphasis> and <Emphasis Type="Italic">cry30Fa1</Emphasis>, from <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> Strain BtMC28

Bacillus thuringiensis strain BtMC28 was isolated from the soil sample in China. Two novel crystal protein genes were found by using the PCR-RFLP method. Moreover, the full-length sequences of two novel genes were obtained by a single oligonucleotide nested (SON)-PCR upstream and downstream strategy. Sequence analysis revealed that one gene encoded a polypeptide of 673 amino acid residues with a molecular mass of 76.3 kDa, 38% identical to Cry10Aa, and the other encoded a polypeptide of 687 amino acid residues with a molecular mass of 77.1 kDa, 74% identical to Cry30Aa. These two novel crystal protein genes were designated as cry54Aa1 and cry30Fa1 by Bt Insecticidal Crystal Proteins Nomenclature Committee, respectively. The Cry54Aa1 and Cry30Fa1 proteins retained five conserved regions commonly found in the existing Cry proteins. Cry54Aa1 protein exhibited insecticidal activities against Laphygma exigua (Lepidoptera), Helicoverpa armigera (Lepidoptera), and Aedes aegypti (Diptera) when its encoding gene was expressed in an Escherichia coli host strain. The authors, Furong Tan and Jun Zhu contributed equally to this work.     

Comparison of the localization of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> Cry1A δ-endotoxins and their binding proteins in larval midgut of tobacco hornworm, <Emphasis Type="Italic">Manduca sexta</Emphasis>

Tobacco hornworm, Manduca sexta, is a model insect for studying the action of Bacillus thuringiensis (Bt) Cry toxins on lepidopterans. The proteins, which bind Bt toxins to midgut epithelial cells, are key factors involved in the insecticidal functions of the toxins. Three Cry1A-binding proteins, viz., aminopeptidase N (APN), the cadherin-like Bt-R₁, and membrane-type alkaline phosphatase (m-ALP), were localized, by immunohistochemistry, in sections from the anterior, middle, and posterior regions of the midgut from second instar M. sexta larvae. Both APN and m-ALP were distributed predominantly along microvilli in the posterior region and to a lesser extent on the apical tip of microvilli in the anterior and middle regions. Bt-R₁ was localized at the base of microvilli in the anterior region, over the entire microvilli in the middle region, and at both the apex and base of microvilli in the posterior region. The localization of rhodamine-labeled Cry1Aa, Cry1Ab, and Cry1Ac binding was determined on sections from the same midgut regions. Cry1Aa and Cry1Ab bound to the apical tip of microvilli almost equally in all midgut regions. Binding of Cry1Ac was much stronger in the posterior region than in the anterior and middle regions. Thus, binding sites for Bt proteins and Cry1A toxins are co-localized on the microvilli of M. sexta midgut epithelial cells.     

The synergic and antagonistic activity of Cry1Ab and Cry2Aa proteins against lepidopteran pests

Cry1Ab and Cry2Aa were overexpressed in Escherichia coli BL21(DE3), and their proportions were determined for evaluating their synergic and antagonistic interactions on Ephestia kuehniella and Plodia interpunctella. Results indicated antagonistic interaction on both lepidopteran pests, and it was concluded that 1 : 1 combination of Cry1Ab:Cry2Aa should be avoided in control programmes for these larvae.     

Assessment of protoxin composition of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> strains by use of polyacrylamide gel block and mass spectrometry

Assessment of protoxin composition in Bacillus thuringiensis parasporal crystals is principally hampered by the fact that protoxins in a single strain usually possess high sequence homology. Therefore, new strategies towards the identification of protoxins have been developed. Here, we established a powerful method through embedding solubilized protoxins in a polyacrylamide gel block coupled to liquid chromatography-tandem mass spectrometry (LC-MS/MS) analysis of in-gel-generated peptides for protoxin identification. Our model study revealed that four protoxins (Cry1Aa, Cry1Ab, Cry1Ac and Cry2Aa) and six protoxins (Cry4Aa, Cry4Ba, Cry10Aa, Cry11Aa, Cyt1Aa, and Cyt2Ba) could be rapidly identified from B. thuringiensis subsp. kurstaki HD1 and subsp. israelensis 4Q2-72, respectively. The experimental results indicated that our method is a straightforward tool for analyzing protoxin expression profile in B. thuringiensis strains. Given its technical simplicity and sensitivity, our method might facilitate the present screening program for B. thuringiensis strains with new insecticidal properties. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users. Zujiao Fu and Yunjun Sun contributed equally to this work.     

A 104 kDa Aedes aegypti aminopeptidase N is a putative receptor for the Cry11Aa toxin from Bacillus thuringiensis subsp. israelensis

The Cry11Aa protein produced in Bacillus thuringiensis subsp. israelensis, a bacterial strain used worldwide for the control of Aedes aegypti larvae, binds midgut brush border membrane vesicles (BBMV) with an apparent K_d of 29.8 nM. Previously an aminopeptidase N (APN), named AaeAPN2, was identified as a putative Cry11Aa toxin binding protein by pull-down assays using biotinylated Cry11Aa toxin (Chen et al., 2009. Insect Biochem. Mol. Biol. 39, 688–696). Here we show this protein localizes to the apical membrane of epithelial cells in proximal and distal regions of larval caeca. The AaeAPN2 protein binds Cry11Aa with high affinity, 8.6 nM. The full-length and fragments of AaeAPN2 were cloned and expressed in Escherichia coli. The toxin-binding region was identified and further competitive assays demonstrated that Cry11Aa binding to BBMV was efficiently competed by the full-length AaeAPN2 and the fragments of AaeAPN2b and AaeAPN2e. In bioassays against Ae. aegypti larvae, the presence of full-length and a partial fragment (AaeAPN2b) of AaeAPN2 enhanced Cry11Aa larval mortality. Taken together, we conclude that AaeAPN2 is a binding protein and plays a role in Cry11Aa toxicity.