Identification of a unique pheromonotropic neuropeptide including double FXPRL motifs from a geometrid species, Ascotis selenaria cretacea, which produces an epoxyalkenyl sex pheromone

Virgin females of the Japanese giant looper (Ascotis selenaria cretacea, Assc) in the family of Geometridae secrete an epoxyalkenyl sex pheromone to attract males. To regulate its biosynthesis in the pheromone gland, Assc females produce a pheromone biosynthesis-activating neuropeptide (PBAN) in the suboesophageal ganglion (SG), as do females in many lepidopteran species. We have isolated Assc-PBAN cDNA, which encodes 181 amino acids, including a PBAN homologue and four other putative peptides: a diapause hormone (DH) homologue, alpha-SG neuropeptide (SGNP), beta-SGNP, and gamma-SGNP, all of which shared an FXPR(K)L motif on their C-termini. Although PBANs with 30-35 amino acids have been characterized from 15 other species, the Assc-PBAN homologue consisted of 28 amino acids and showed low homology (<46%) compared with the others. Assc-beta-SGNP with eight amino acids was also shorter than the other beta-SGNPs (16-22 amino acids). Furthermore, all of the known PBAN cDNAs have a GRR sequence between beta-SGNP and PBAN as a cleavage site, but the Assc-PBAN cDNA showed an unusual GR sequence at the corresponding position, indicating the possibility of non-cleavage between the beta-SGNP and PBAN. When the GR sequence was a cleavage site, the question arose of whether or not the glutamine residue at the N-terminus of the Assc-PBAN homologue was cyclized. To identify the sequence of the Assc-PBAN, the brain-SG extract was fractionated by HPLC referring to three synthetic peptides with the predicted sequences. The chromatographic behavior of the natural pheromonotropic peptide revealed the unique structure of Assc-PBAN including beta-SGNP, i.e., SVDFTPRLGRQLVDDVPQRQQIEEDRLGSRTRFFSPRL-NH(2), as the first determination of PBAN from the insects producing an epoxyalkenyl sex pheromone.     

RNA interference of pheromone biosynthesis-activating neuropeptide receptor suppresses mating behavior by inhibiting sex pheromone production in Plutella xylostella (L.)

Sex pheromone production is regulated by pheromone biosynthesis-activating neuropeptide (PBAN) in many lepidopteran species. We cloned a PBAN receptor (Plx-PBANr) gene from the female pheromone gland of the diamondback moth, Plutella xylostella (L.). Plx-PBANr encodes 338 amino acids and has conserved structural motifs implicating in promoting G protein coupling and tyrosine-based sorting signaling along with seven transmembrane domains, indicating a typical G protein-coupled receptor. The expression of Plx-PBANr was found only in the pheromone gland of female adults among examined tissues and developmental stages. Heterologous expression in human uterus cervical cancer cells revealed that Plx-PBANr induced significant calcium elevation when challenged with Plx-PBAN. Female P. xylostella injected with double-stranded RNA specific to Plx-PBANr showed suppression of the receptor gene expression and exhibited significant reduction in pheromone biosynthesis, which resulted in loss of male attractiveness. Taken together, the identified PBAN receptor is functional in PBAN signaling via calcium secondary messenger, which leads to activation of pheromone biosynthesis and male attraction.     

cDNA CLONING AND SEQUENCE DETERMINATION OF THE PHEROMONE BIOSYNTHESIS ACTIVATING NEUROPEPTIDE FROM THE SEABUCKTHORN CARPENTERWORM,Holcocerus hippophaecolus (LEPIDOPTERA: COSSIDAE)

The PBAN (pheromone biosynthesis activating neuropeptide)/pyrokinin peptides comprise a major neuropeptide family characterized by a common FXPRL amide at the C‐terminus. These peptides are actively involved in many essential endocrine functions. For the first time, we reported the cDNA cloning and sequence determination of the PBAN from the seabuckthorn carpenterworm, Holcocerus hippophaecolus, by using rapid amplification of cDNA ends. The full‐length cDNA of Hh‐DH‐PBAN contained five peptides: diapause hormone (DH) homolog, α‐neuropeptide (NP), β‐NP, PBAN, and γ‐NP. All of the peptides were amidated at their C‐terminus and shared a conserved motif, FXPR (or K) L. Moreover, Hh‐DH‐PBAN had high homology to the other members of the PBAN peptide family: 56% with Manduca sexta, 66% with Bombyx mori, 77% with Helicoverpa zea, and 47% with Plutella xylostella. Phylogenetic analysis revealed that Hh‐DH‐PBAN was closely related to PBANs from Noctuidae, demonstrated by the relatively higher similarity compared with H. zea. In addition, real‐time quantitative PCR (qRT‐PCR) analysis showed that Hh‐DH‐PBAN mRNA expression peaked in the brain–subesophageal ganglion (Br–SOG) complex, and was also detected at high levels during larval and adult stages. The expression decreased significantly after pupation. These results provided information concerning molecular structure characteristics of Hh‐DH‐PBAN, whose expression profile suggested that the Hh‐DH‐PBAN gene might be correlated with larval development and sex pheromone biosynthesis in females of the H. hippophaecolus.     

家蚕滞育激素-性信息素合成激活肽基因表达的调节

滞育激素和性信息素合成激活肽是两个重要的昆虫神经肽,这两个神经肽由一个基因编码．利用分子杂交和ＲＴ－ＰＣＲ技术,确定了滞育激素－性信息素合成激活肽基因表达的调节不属于转录后的调节,推定为翻译后形成一个大的前体多肽再剪接为几个成熟的神经肽分子．     

A new member of the PBAN family in Spodoptera littoralis: molecular cloning and immunovisualisation in scotophase hemolymph

In this article, we report evidence suggesting that the immunoreactive factor previously detected in Spodoptera littoralis scotophase hemolymph is PBAN, which supports a humoral route of the hormone to the pheromone gland. Western blot after native-PAGE of prepurified scotophase hemolymph extracts yielded an immunoreactive band with the same mobility as S. littoralis Br-SOG factor and the expected mobility for a noctuid PBAN. This band was not detected in photophase hemolymph extract. The identity of S. littoralis Br-SOG factor as PBAN was obtained from cDNA cloning using RT-PCR strategy. This allowed us to deduce the amino acid sequence of Spl-PBAN, which is highly homologous to other known PBANs. Moreover, we found that the PBAN encoding cDNA also encoded four other putative amidated peptides (Spl-DH homologue, Spl-alpha-NP, Spl-beta-NP and Spl-gamma-NP) that are identical or highly conserved among noctuids, and two non amidated peptides of unknown function. This cDNA organization is common to all known cDNAs encoding PBANs, leading to the release of different peptides after putative enzymatic cleavage of the preprohormone.     

Identification of a new member of PBAN family and immunoreactivity in the central nervous system from Adoxophyes sp. (Lepidoptera: Tortricidae)

Production of sex pheromones, Z9-14:OAc and Z11-14:OAc, of the smaller tea tortrix, Adoxophyes sp. was stimulated by injection of the female or male head extracts as well as synthetic pheromone biosynthesis activating neuropeptide (PBAN) into decapitated females. The amount of pheromone produced reached a maximum level 3 h after injection of synthetic PBAN into females. A cDNA isolated from brain-suboesophageal ganglion complex (Br-SEG) of A. sp. females contained an ORF of 576 nucleotides encoding 192 amino acids. Based on endoproteolytic sites, it can be predicted to be cleaved into five putative peptide domains including PBAN and four other neuropeptides. Ado-PBAN consisting of 31-amino acids is the shortest PBAN so far reported. Four other putative PBAN-encoding gene neuropeptides (PGN) are predicted with PGN-24, PGN-7, PGN-20, and PGN-8 amino acids. All of the peptides are amidated in their C-termini with a FXPR(or I, K)L structure, except for PGN-8 (TVKLTPRLamide). PBAN-like immunoreactive material was observed in Br, SEG and ventral nerve cord (VNC) of the female adult. In the brain, 5-7 pairs of neurons containing PBAN-like immunoreactivity were found in each protocerebral hemisphere. Three groups of cell clusters found in the SEG corresponded to the mandibular, maxillary and labial neurons as in other moths. PBAN-like immunoreactive neurons in the VNC were found in thoracic (three pairs) and abdominal ganglia (two pairs). As compared to other moths, a relatively low similarity of peptide sequences deduced from Ado-PBAN gene and a different expression pattern of PBAN-like immunoreactivity could indicate phylogenetical distance from the other species.     

Cloning and expression of the cDNA encoding the FXPRL family of peptides and a functional analysis of their effect on breaking pupal diapause in Helicoverpa armigera

Diapause hormone (DH) and pheromone biosynthesis activating neuropeptide (PBAN) are encoded by a single mRNA in the suboesophegeal ganglion (SG) and are responsible for induction of embryonic diapause in Bombyx mori and sex pheromone biosynthesis in lepidopteran insects. PBAN cDNA analyses revealed that the DH-like peptide is present in several species that have a pupal diapause. However, the function of the DH-like peptide remains unknown. In the present study, we cloned the cDNA encoding DH-PBAN in Helicoverpa armigera utilizing the rapid amplification of the cDNA ends method. The nucleotide se quence analysis revealed that the longest open reading frame of this cDNA encodes a 194-amino acid precursor protein that con tains a 33-aa PBAN, a 24-aa DH-like peptide, and three other neuropeptides, all of which have a common C-terminal pentapeptide motif FXPR/KL ( X=G, T, S). A homology search showed that H. armigera DH-like and PBAN are highly homologous to those from other insects. Northern blot analysis demonstrated a single message RNA corresponding to the size of Har-DH-PBAN cDNA from pupal SG with significantly higher expression in the SG of nondiapause pupae than diapausing pupae. Western blot analysis showed DH-like peptide expression from SG of both males and females. When DH-like peptide was injected into nondiapause larvae and pupae, it did not induce diapause, but rather efficiently broke pupal diapause in H. armigera. The ED(50) of DH to terminate pupal diapause is 20 pmol/pupae. The other four FXPRLamide neuropeptides from the DH-PBAN polyprotein precursor have cross activity for diapause termination. These observations therefore suggest a potential role for these FXPRL family peptides in promoting continuous development in several noctuid species. The high expression of this gene in pharate adults and adults indicates that the FXPRL family peptides may have multiple physiological functions.     

Structure and activity of Bombyx PBAN

Two structurally related molecular species of pheromone biosynthesis activating neuropeptides (PBANs), PBAN-I and -II, were isolated from adult heads of the silkworm, Bombyx mori, and characterized. PBAN-I is a carboxyl-terminally amidated 33-residue peptide. Structure-activity relationship studies revealed that 1) its carboxyl-terminal pentapeptide is the smallest size showing activity, 2) the carboxyl-terminal amide is indispensable for activity, and 3) oxidation of three Met residues in PBAN-I to Met(O) (methionine sulfoxide) caused marked enhancement of activity, and the three Met(O) residues contribute equally to the enhancement of activity. Molecular design of PBAN analogs using a carboxyl-terminal hexapeptide showed that modification of the amino-terminal amino group brought about a dramatic increase in activity. This increase was presumed to be mainly due to the increased stability in hemolymph. PBANs share the common carboxyl-terminal sequence, -Phe-Xaa-Pro-Arg-Leu-NH₂, with myotropic peptides isolated from locust and cockroach. Examination of cross-activity of these two groups of peptides revealed that PBAN and its analogs exhibited myotropic activity comparable to myotropic peptides, while myotropic peptides showed extremely high pheromonotropic activity. In B. mori, PBAN activates sex pheromone (bombykol) production presumably by promoting the reduction reaction from acyl to alcohol, which is the last step in the biosynthesis of bombykol. © 1994 Wiley-Liss, Inc.     

Identification and Determination of the Partial cDNA Encoding the Pheromone Biosynthesis Activating Neuropeptide in Helicoverpa armigera

Sex pheromone biosynthesis is induced in many moths by a neuropeptide, PBAN, consisting of 33-amino acid amidated at the C-terminus. The present study is concerned with cloning and characterizing the partial sequence of Hea-PBAN cDNA which is isolated from the brain and suboesophageal ganglion complex (Br-Sg) of Helicoverpa armigera adults. From the cDNA sequence, it can be predicted that the cDNA has a PBAN domain with 33 amino acids, LSDDMPATPADQEMYRQDPEQIDSRTKYFSPRL, with FSPRL amidated at the C-terminus. The amino acid sequence of predicted peptides including the PBAN, is identical to that of H. zea and H. assulta.     

Expression and evolution of delta9 and delta11 desaturase genes in the moth Spodoptera littoralis

Desaturation of fatty acids is a key reaction in the biosynthesis of moth sex pheromones. The main component of Spodoptera littoralis sex pheromone blend is produced by the action of Δ¹¹ and Δ⁹ desaturases. In this article, we report on the cloning of four desaturase-like genes in this species: one from the fat body (Sls-FL1) and three (Sls-FL2, Sls-FL3 and Sls-FL4) from the pheromone gland. By means of a computational/phylogenetic method, as well as functional assays, the desaturase gene products have been characterized. The fat body gene expressed a Δ⁹ desaturase that produced (Z)-9-hexadecenoic and (Z)-9-octadecenoic acids in a (1:4.5) ratio, whereas the pheromone gland Sls-FL2 expressed a Δ⁹ desaturase that produced (Z)-9-hexadecenoic and (Z)-9-octadecenoic acids in a (1.5:1) ratio. Although both Δ⁹ desaturases produced (Z)-9-tetradecenoic acid from myristic acid, transformed yeast grown in the presence of a mixture of myristic and (E)-11-tetradecenoic acids produced (Z,E)-9,11-tetradecadienoic acid, but not (Z)-9-tetradecenoic acid. The Sls-FL3 gene expressed a protein that produced a mixture of (E)-11-tetradecenoic, (Z)-11-tetradecenoic, (Z)-11-hexadecenoic and (Z)-11-octadecenoic acids in a 5:4:60:31 ratio. Despite having all the characteristics of a desaturase gene, no function could be found for Sls-FL4.     

水稻螟虫神经肽PBAN及其受体序列的生物信息学分析

【目的】性信息素合成激活肽(PBAN)是控制昆虫产生性信息素的激素,本文旨在分析水稻螟虫神经肽PBAN及其受体的序列。【方法】通过t Blastn同源检索从水稻螟虫基因组和转录组数据库中鉴定水稻螟虫PBAN神经肽及其受体序列,在此基础上进行序列比对及系统发生分析。【结果】发现二化螟Chilo suppressalis、三化螟Tryporyza incertulas和大螟Sesamia inferens的PBAN成熟肽序列均含有33个氨基酸残基,其C端五肽序列完全相同,3种水稻螟虫PBAN多肽相似度为54.55%~63.64%;发现二化螟PBAN受体3个异构体全长氨基酸序列(PBANR-A、PBANR-B和PBANR-C),均含有7个跨膜区域。【结论】进化树分析发现不同昆虫PBAN神经肽及其受体存在一定的保守性和多样性,并且在进化树上的位置几乎与昆虫系统发育分类一致,推测PBAN神经肽和PBAN受体在昆虫系统进化过程中可能存在协同进化现象。本研究为水稻螟虫PBAN神经肽及其受体的结构和功能分析提供基础。     

The identification of an age- and female-specific putative PBAN membrane-receptor protein in pheromone glands of Helicoverpa armigera: possible up-regulation by Juvenile Hormone

The present study was designed to determine the age and female specificity of a membrane protein that binds to a pheromone biosynthesis activating neuropeptide (PBAN) ligand and to elucidate the effect of Juvenile Hormone (JH) on binding as well as pheromone activation. The precise age at which developing adult females of Helicoverpa armigera begin to respond to PBAN was determined. PBAN activates in vitro pheromone biosynthesis as well as its intracellular second messenger, cAMP, only in intersegments of newly emerged adult female pheromone glands (i.e. 1-day-old females). An increase in response was observed in 2-day-old females. Intersegments of female pupae and the homologous tissues of adult males do not respond to PBAN. However, in the presence of Juvenile Hormone II (JH II) PBAN induced a response in females, 1 day before emergence (pharate females), but not in younger female pupae. This phenomenon was also observed after topical applications of the JH analog fenoxycarb (FX). In addition the response to PBAN by intersegments of FX-treated emerged adults increased significantly to the level of 2-day-old females. JH II also stimulated the level of incorporation of (35)S-labelled amino acids in female pupae into membrane proteins that are typical in adult intersegments. Using a photoaffinity-biotin labelled PBAN analog we demonstrate specific binding of a membrane protein (estimated MW: 50 kD) in adult females. This binding was not detected in female pupae 3 days before emergence. However, in such female pupae specific binding of the 50 kD protein by the photoaffinity-biotin labelled PBAN analog was induced after JH II or FX treatments thereby providing evidence that JH may up-regulate this putative receptor protein.     

Synthetic peptide analogs to barnacle settlement pheromone

Barnacle pheromone enhances the rate of settlement and metamorphosis of larvae of Balanus amphitrite Darwin. Analogs to the heterogeneous pheromone peptides were sought. Settlement assays were used to assess both the pheromone and the potential analogs. The pheromone has a lower threshold of activity at a concentration of 0.2 μg BSA protein equivalence l⁻¹. Treatment with carboxypeptidase eliminates biological activity. Series of dipeptides were tested to determine if dipeptides could promote settlement. Combinations of acidic, neutral, and basic amino acids in dipeptides were examined. Specific small peptides can mimic barnacle pheromone. Only peptides with a basic carboxy-terminal amino acid and either a neutral or a basic amino-terminal amino acid enhance settlement. Six peptides were shown to mimic pheromone activity at concentrations comparable to the native molecule. Some peptides were more potent than others. The most effective peptides were L-leucyl-L-arginine and L-histidyl-L-lysine which had a lower threshold of settlement enhancement of 2.0×10⁻¹⁰ M and caused a 130% increase in settlement rate at 2.0×10⁻⁸ M. Glycyl-glycyl-L-arginine, glycyl-L-histidyl-L-lysine, L-leucyl-glycyl-L-arginine and L-tyrosyl-L-arginine had thresholds between 2.0×10⁻⁸ M and 2.0×10⁻⁹ M. Peptide pheromone analogs should be useful in determining the nature and mechanism of barnacle pheromone receptor interactions.