Your search keyword '"Juvenile Hormones metabolism"' showing total 34 results

1. The zona pellucida protein piopio regulates the metamorphosis and reproduction in Tribolium castaneum.

Author

Zhang L, Ge R, Yang Y, Chen K, and Li C

Subjects

Animals, Female, Reproduction, Phylogeny, Juvenile Hormones metabolism, Zona Pellucida metabolism, Gene Expression Regulation, Developmental, Larva growth & development, Larva genetics, Larva metabolism, Tribolium genetics, Tribolium growth & development, Tribolium metabolism, Insect Proteins metabolism, Insect Proteins genetics, Metamorphosis, Biological

Abstract

The zona pellucida domain protein piopio (Pio) was only reported to mediate the adhesion of the apical epithelial surface and the overlying apical extracellular matrix in Drosophila melanogaster, but the developmental roles of Pio were poorly understood in insects. To address this issue, we comprehensively analyzed the function of Pio in Tribolium castaneum. Phylogenetic analysis indicated that pio exhibited one-to-one orthologous relationship among insects. T. castaneum pio had a 1236-bp ORF and contained eight exons. During development pio was abundantly expressed from larva to adult and lowly expressed at the late stage of embryo and adult, while it had more transcripts in the head, epidermis, and gut but fewer in the fat body of late-stage larvae. Knockdown of pio inhibited the pupation, eclosion, and reproduction of T. castaneum. The expression of vitellogenin 1 (Vg1), Vg2, and Vg receptor (VgR) largely decreased in pio-silenced female adults. Silencing pio increased the 20-hydroxyecdysone titer by upregulating phm and spo expression but decreased the juvenile hormone (JH) titer through downregulating JHAMT3 and promoting JHE, JHEH-r4, and JHDK transcription. These results suggested that Pio might regulate the metamorphosis and reproduction via modulating the ecdysone and JH metabolism in T. castaneum. This study found the novel roles of pio in insect metamorphosis and reproduction, and provided the new insights for analyzing other zona pellucida proteins functions in insects., (© 2024 Wiley Periodicals LLC.)

Published

2024

2. Ecdysone and gene expressions for chromatin remodeling, histone modification, and Broad Complex in relation to pupal commitment in Bombyx mori.

Author

Saito M, Fujimoto S, and Kawasaki H

Subjects

Animals, Chromatin Assembly and Disassembly, Pupa genetics, Pupa metabolism, Histone Code, Insect Proteins genetics, Insect Proteins metabolism, Ecdysterone pharmacology, Ecdysterone metabolism, Metamorphosis, Biological physiology, Juvenile Hormones pharmacology, Juvenile Hormones metabolism, Larva genetics, Larva metabolism, Gene Expression, Gene Expression Regulation, Developmental, Ecdysone, Bombyx metabolism

Abstract

In the present study, we tried to clarify when and how pupal commitment (PT) better to use PC occurs and what is involved in the PT of Bombyx mori. To clarify this, we examined the responsiveness of a wing disc to ecdysone, referring to metamorphosis-related BR-C, development-related Myc and Wnt, and chromatin remodeling-related genes at around the predicted PT stage of the Bombyx wing disc. Wing disc responsiveness to juvenile hormone (JH) and ecdysone was examined using Methoprene and 20-hydroxyecdysone (20E) in vitro. The body weight of B. mori increased after the last larval ecdysis, peaked at Day 5 of the fifth larval instar (D5L5), and then decreased. The responsiveness of the wing disc to JH decreased after the last larval ecdysis up to D3L5. Bmbr-c (the Broad Complex of B. mori) showed enhanced expression in D4L5 wing discs with 20E treatment. Some chromatin remodeler and histone modifier genes (Bmsnr1, Bmutx, and Bmtip60) showed upregulation after being cultured with 20E in D4L5 wing discs. A low concentration of 20E is suggested to induce responsiveness to 20E in D4L5 wing discs. Bmbr-c, Bmsnr1, Bmutx, and Bmtip60 were upregulated after being cultured with a low concentration of 20E in D4L5 wing discs. The expression of Bmmyc and Bmwnt1 did not show a change after being cultured with or without 20E in D4L5 wing discs, while enhanced expression was observed with 20E in D5L5 wing discs. From the present results, we concluded that PT of the wing disc of B. mori occurred beginning on D4L5 with the secretion of low concentrations of ecdysteroids. Bmsnr1, Bmutx, Bmtip60, and BR-C are also involved., (© 2024 Wiley Periodicals LLC.)

Published

2024

3. Involvement of Methoprene-tolerant and Krüppel homolog 1 in juvenile hormone-mediated vitellogenesis of female Liposcelis entomophila (End.) (Psocoptera: Liposcelididae).

Author

Yang BB, Miao SY, Lu YJ, Wang SS, Wang ZY, and Zhao YR

Subjects

Female, Animals, Vitellogenesis, Transcription Factors metabolism, RNA Interference, Neoptera metabolism, Insect Proteins genetics, Insect Proteins metabolism, Juvenile Hormones metabolism, Methoprene pharmacology

Abstract

Methoprene-tolerant (Met) as an intracellular receptor of juvenile hormone (JH) and the Krüppel-homolog 1 (Kr-h1) as a JH-inducible transcription factor had been proved to contribute to insect reproduction. Their functions vary in different insect orders, however, they are not clear in Psocoptera. In this study, LeMet and LeKr-h1 were identified and their roles in vitellogenesis and ovarian development were investigated in Liposcelis entomophila (Enderlein). Treatment with exogenous JH III significantly induced the expression of LeKr-h1, LeVg, and LeVgR. Furthermore, silencing LeMet and LeKr-h1 remarkably reduced the transcription of LeVg and LeVgR, disrupted the production of Vg in fat body and the uptake of Vg by oocytes, and ultimately led to a decline in fecundity. The results indicated that the JH signaling pathway was essential to the reproductive process of this species. Interestingly, knockdown of LeMet or LeKr-h1 also resulted in fluctuations in the expression of FoxO, indicating the complex regulatory interactions between different hormone factors. Besides, knockdown of both LeMet and LeKr-h1 significantly increased L. entomophila mortality. Our study provides initial insight into the roles of JH signaling in the female reproduction of psocids and provided evidence that RNAi-mediated knockdown of Met or Kr-h1 is a potential pest control strategy., (© 2022 The Authors. Archives of Insect Biochemistry and Physiology published by Wiley Periodicals LLC.)

Published

2023

4. Cloning and characterization of Aedes aegypti juvenile hormone epoxide hydrolases (JHEHs).

Author

Borovsky D, Van Ekert E, Buytaert E, Peeters T, and Rougé P

Subjects

Female, Animals, Tandem Mass Spectrometry, Epoxide Hydrolases genetics, Epoxide Hydrolases chemistry, Epoxide Hydrolases metabolism, Larva, Recombinant Proteins metabolism, DNA, Complementary genetics, Cloning, Molecular, Juvenile Hormones metabolism, Aedes genetics, Aedes metabolism

Abstract

Juvenile hormone epoxide hydrolase (JHEH) plays an important role in the metabolism of juvenile hormone III (JH III) in insects. To study the role that JHEH plays in female Aedes aegypti JHEH 1, 2, and 3 complementary DNA (cDNAs) were cloned and sequenced. Northern blot analyses show that the three transcripts are expressed in the head thorax, the gut, the ovaries, and the fat body of females. Molecular modeling shows that the enzyme is a homodimer that binds JH III acid (JH IIIA) at the catalytic groove better than JH III. The cDNA of JHEH 1 and 2 are very similar indicating close relationship. Knocking down of jheh 1, 2, and 3 in adult female and larval Ae. aegypti using double-stranded RNA (dsRNA) did not affect egg development or caused adult mortality. Larvae that were fed bacterial cells expressing dsRNA against jheh 1, 2, and 3 grew normally. Treating blood-fed female Ae. aegypti with [12- 3 H](10R) JH III and analyzing the metabolites by C 18 reversed phase chromatography showed that JHEH preferred substrate is not JH III but JH IIIA. Genomic analysis of jheh 1, 2, and 3 indicate that jheh 1 and 2 are transcribed from a 1.53 kb DNA whereas jheh 3 is transcribed from a 10.9 kb DNA. All three genes are found on chromosome two at distinct locations. JHEH 2 was expressed in bacterial cells and purified by Ni affinity chromatography. Sequencing of the recombinant protein by MS/MS identified JHEH 2 as the expressed recombinant protein., (© 2022 Wiley Periodicals LLC.)

Published

2023

5. The RNA helicase DDX3 is required for ovarian development and oocyte maturation in Locusta migratoria.

Author

Wang J, Li T, Deng S, Ma E, Zhang J, and Xing S

Subjects

Animals, Egg Proteins genetics, Egg Proteins metabolism, Female, Gene Expression, Genes, Insect, Insect Proteins genetics, Insect Proteins metabolism, Juvenile Hormones metabolism, Nymph genetics, Nymph physiology, Oogenesis physiology, Ovary metabolism, Phylogeny, RNA Interference, Receptors, Cell Surface genetics, Receptors, Cell Surface metabolism, Signal Transduction, Vitellogenesis physiology, Vitellogenins genetics, Vitellogenins metabolism, Locusta migratoria genetics, Locusta migratoria physiology, Oocytes growth & development, Ovary growth & development, RNA Helicases genetics, RNA Helicases metabolism

Abstract

DDX3 represents a well-defined subfamily of DEAD-box RNA helicase and exerts multiple functions in RNA metabolism, cell cycle, tumorigenesis, signal pathway, and fertility. Our previous study has shown that LmDDX3, the ortholog of DDX3 in Locusta migratoria, is ubiquitously expressed, and with a high abundance in testis and ovary. Knockdown of LmDDX3 results in a lethal phenotype in nymph, but it still remains unclear for its role in reproductive process. In this study, we therefore characterized LmDDX3 expression in female adult locust and analyzed its function in oocyte development. LmDDX3 was expressed in all tissues examined with significant more transcripts in ovary and hindgut. In ovary, a strong expression level was detected at the day just after adult eclosion, and a dramatic reduction then occurred during the oocyte development. LmDDX3 RNAi led to a reduced vitellogenin (Vg) expression in fat body via partially at least, the JH signaling pathway, and caused an upregulation of vitellogenin receptor (VgR) in ovary, and thus blocked the ovarian development and oocyte maturation. Sequence and phylogenetic analysis indicated that LmDDX3 was closely related to termite DDX3. Taken together, these data reveal a critical role for LmDDX3 in regulating the transcription of Vg and VgR, two major factors in vitellogenesis that is a key process required for ovary development and oocyte maturation in locust, and contribute thereof a new putative target for locust biological control., (© 2021 Wiley Periodicals LLC.)

Published

2021

6. Juvenile hormone upregulates sugarbabe for vitellogenesis and egg development in the migratory locust Locusta migratoria.

Author

Zeng B, Ye Y, Ma J, and Song J

Subjects

Animals, Drosophila Proteins genetics, Fat Body metabolism, Female, Insect Proteins metabolism, Oogenesis physiology, Transcription Factors genetics, Transcription Factors metabolism, Vitellogenins metabolism, Juvenile Hormones metabolism, Locusta migratoria genetics, Locusta migratoria metabolism, Vitellogenesis physiology, Zinc Fingers genetics, Zinc Fingers physiology

Abstract

Sugarbabe is a C 2 H 2 zinc-finger transcription factor that is sensitive to sugar and essential for lipid biosynthesis in larvae of Drosophila melanogaster. However, the role of Sugarbabe in adult insect development remains unexplored. Vitellogenesis is a nutrient-dependent process that is promoted by juvenile hormone (JH) in many insect species. Here, we cloned an ortholog gene of D. melanogaster Sugarbabe (DmSug) in the migratory locust Locusta migratoria. The locust Sugarbabe (LmSug) has five C 2 H 2 zinc-finger motifs similar to DmSug. LmSug was expressed at a low level in adult female locusts raised under poor nutrient conditions. JH treatment increased the expression level of LmSug. Knockdown of the JH receptor gene Met caused a reduction of LmSug expression. Depletion of the LmSug transcript level caused a significant reduction in vitellogenin expression in the fat body, resulting in impaired oocyte development and ovary growth. The results suggest that LmSug is expressed in response to JH, and plays an essential role in female insect reproduction., (© 2020 Wiley Periodicals LLC.)

Published

2021

7. IDENTIFICATION AND HORMONE INDUCTION OF PUTATIVE CHITIN SYNTHASE GENES AND SPLICE VARIANTS IN Leptinotarsa decemlineata (SAY).

Author

Shi JF, Mu LL, Guo WC, and Li GQ

Subjects

Amino Acid Sequence, Animals, Chitin Synthase chemistry, Chitin Synthase metabolism, Cloning, Molecular, Coleoptera classification, Coleoptera growth & development, DNA, Complementary genetics, DNA, Complementary metabolism, Ecdysterone metabolism, Insect Proteins chemistry, Insect Proteins metabolism, Isoenzymes genetics, Juvenile Hormones metabolism, Larva enzymology, Larva genetics, Larva growth & development, Larva metabolism, Phylogeny, RNA, Messenger genetics, RNA, Messenger metabolism, Real-Time Polymerase Chain Reaction, Sequence Alignment, Chitin Synthase genetics, Coleoptera enzymology, Coleoptera genetics, Gene Expression Regulation, Insect Proteins genetics

Abstract

Chitin synthase (ChS) plays a critical role in chitin synthesis and excretion. In this study, two ChS genes (LdChSA and LdChSB) were identified in Leptinotarsa decemlineata. LdChSA contains two splicing variants, LdChSAa and LdChSAb. Within the first, second, and third larval instars, the mRNA levels of LdChSAa, LdChSAb, and LdChSB coincide with the peaks of circulating 20-hydroxyecdysone (20E) and juvenile hormone (JH). In vitro culture of midguts and an in vivo bioassay revealed that 20E and an ecdysteroid agonist halofenozide stimulated the expression of the three LdChSs. Conversely, a reduction of 20E by RNA interference (RNAi) of an ecdysteroidogenesis gene LdSHD repressed the expression of these LdChSs, and ingestion of halofenozide by LdSHD RNAi larvae rescued the repression. Moreover, disruption of 20E signaling by RNAi of LdEcR, LdE75, LdHR3, and LdFTZ-F1 reduced the expression levels of these genes. Similarly, in vitro culture and an in vivo bioassay showed that exogenous JH and a JH analog methoprene activated the expression of the three LdChSs, whereas a decrease in JH by RNAi of a JH biosynthesis gene LdJHAMT downregulated these LdChSs. It seems that JH upregulates LdChSs at the early stage of each instar, whereas a 20E pulse triggers the transcription of LdChSs during molting in L. decemlineata., (© 2016 Wiley Periodicals, Inc.)

Published

2016

8. CHARACTERIZATION AND FUNCTIONAL STUDY OF A PUTATIVE JUVENILE HORMONE DIOL KINASE IN THE COLORADO POTATO BEETLE Leptinotarsa decemlineata (Say).

Author

Fu KY, Lü FG, Guo WC, and Li GQ

Subjects

Amino Acid Sequence, Animals, Coleoptera growth & development, EF Hand Motifs, Juvenile Hormones metabolism, Larva enzymology, Larva growth & development, Molecular Sequence Data, Phosphotransferases (Alcohol Group Acceptor) genetics, RNA Interference, RNA, Double-Stranded metabolism, RNA, Messenger metabolism, Coleoptera enzymology, Phosphotransferases (Alcohol Group Acceptor) metabolism

Abstract

Juvenile hormone diol kinase (JHDK) is an enzyme involved in JH degradation. In the present article, a putative JHDK cDNA (LdJHDK) was cloned from the Colorado potato beetle Leptinotarsa decemlineata. The cDNA consists of 814 bp, containing a 555 bp open reading frame encoding a 184 amino acid protein. LdJHDK reveals a high degree of identity to the previously reported insect JHDKs. It possesses three conserved purine nucleotide-binding elements, and contains three EF-hand motifs (helix-loop-helix structural domains). LdJHDK mRNA was mainly detected in hindgut and Malpighian tubules. Besides, a trace amount of LdJHDK mRNA was also found in thoracic muscles, brain-corpora cardiaca-corpora allata complex, foregut, midgut, ventral ganglia, fat body, epidermis, and hemocytes. Moreover, LdJHDK was expressed throughout all developmental stages. Within the first, second, and third larval instar, the expression levels of LdJHDK were higher just before and right after the molt, and were lower in the intermediate instar. In the fourth larval instar, the highest peak of LdJHDK occurred 56 h after ecdysis. Ingestion of double-stranded RNA (dsRNA) against LdJHDK successfully knocked down the target gene, increased JH titer, and significantly upregulated LdKr-h1 mRNA level. Knockdown of LdJHDK significantly impaired adult emergence. Thus, we provide a line of experimental evidence in L. decemlineata to support that LdJHDK encodes function protein involved in JH degradation., (© 2015 Wiley Periodicals, Inc.)

Published

2015

9. Different pattern of Galleria mellonella jhbp gene expression in high five and Sf9 cells.

Author

Andruszewska G, Ożyhar A, Kochman M, and Schmidt M

Subjects

Animals, Gene Expression Regulation, Insect Proteins genetics, Juvenile Hormones metabolism, Moths growth & development, Promoter Regions, Genetic, Sf9 Cells, Insect Proteins metabolism, Moths metabolism

Abstract

Juvenile hormone binding protein (JHBP) is the key element of the system that transmits hormone signals to target tissues. Recently, we found that the core promoter of the jhbp gene is strongly under the control of the TATA box and the transcription start site. In this report, we have shown that the jhbp promoter contains distal regulatory elements whose functionality clearly depends on the particular cell environment and that the scope of research from one cell line is insufficient to generalize the conclusions of the analysis. Cf1/Usp (where Usp is ultraspiracle protein previously known as Cf1, chorion factor 1) elements suppressed transcription of the reporter gene in the High Five cell line but not in the Sf9 cell line. However, upstream from all three Cf1/Usp elements there is a DNA sequence, containing the Zeste element, which activates jhbp in both systems. We found that juvenile hormone strongly inhibited the activity of the jhbp promoter in the Sf9 cell line, whereas it did not have an effect in the High Five cell line. A second key hormone that controls insect development--20-hydroxyecdysone, was also found to suppress the transcription of jhbp. This is the first report describing how these two hormones affect jhbp gene expression in different cell lines., (© 2013 Wiley Periodicals, Inc.)

Published

2013

10. Methoprene influences reproduction and flight capacity in adults of the rice leaf roller, Cnaphalocrocis medinalis (Guenểe) (Lepidoptera: Pyralidae).

Author

Sun BB, Jiang XF, Zhang L, Stanley DW, Luo LZ, and Long W

Subjects

Age Factors, Animal Migration, Animals, China, Female, Male, Muscles chemistry, Reproduction, Time Factors, Triglycerides metabolism, Juvenile Hormones metabolism, Methoprene metabolism, Moths physiology

Abstract

Juvenile hormone (JH) influences many aspects of insect biology, including oogenesis-flight syndrome tradeoffs between migration and reproduction. Drawing on studies of many migratory insects, we posed the hypothesis that JH influences migratory capacity and oogenesis in the rice leaf roller, Cnaphalocrocis medinalis. We treated adults moths (days 1, 2 and 3 postemergence) with the JH analog (JHA), methoprene, and then recorded the influences of JHA treatments on reproduction. JHA treatment on day 1 postemergence, but not on the other days, shortened the preoviposition period, although JHA did not influence total fecundity, oviposition period, or longevity. We infer day 1 postemergence is the JH-sensitive stage to influence reproduction. Therefore, we treated moths on day 1 postemergence with JHA and recorded flight capacity, flight muscle mass, and triacylglycerol (TAG) accumulation. JHA treatments did not influence flight speed, but led to reductions in flight durations and flight distances. At day 3 posttreatment (PT), JHA-treated females flew shorter times and less distance than the controls; JHA-treated males, however, only flew shorter times than the controls. JHA treatments led to reductions in flight muscle mass in females at days 2-3 PT and reductions in TAG content in females at day 3 PT, but, these parameters were not influenced by JHA in males. These findings strongly support our hypothesis, from which we infer that JH is a major driver in C. medinalis oogenesis-flight syndrome tradeoffs. Our data also reveal a JH-sensitive stage in adulthood during which JH influences the oocyte-flight syndrome in C. medinalis., (© 2012 Wiley Periodicals, Inc.)

Published

2013

11. Cyp15F1: a novel cytochrome P450 gene linked to juvenile hormone-dependent caste differention in the termite Reticulitermes flavipes.

Author

Tarver MR, Coy MR, and Scharf ME

Subjects

Amino Acid Sequence, Animals, Base Sequence, Gene Expression, Gene Knockdown Techniques, Genes, Insect, Isoptera growth & development, Isoptera metabolism, Juvenile Hormones metabolism, Molecular Sequence Data, Phenotype, Pheromones, Polycyclic Sesquiterpenes, RNA Interference, Sequence Analysis, DNA, Sesquiterpenes, Cytochrome P-450 Enzyme System genetics, Insect Proteins genetics, Isoptera genetics

Abstract

Termites are eusocial insects that jointly utilize juvenile hormone (JH), pheromones, and other semiochemicals to regulate caste differentiation and achieve caste homeostasis. Prior EST sequencing from the symbiont-free gut transcriptome of Reticulitermes flavipes unexpectedly revealed a number of unique cytochrome P450 (Cyp) transcripts, including fragments of a Cyp15 family gene (Cyp15F1) with homology to other insect Cyp15s that participate in JH biosynthesis. The present study investigated the role of Cyp15F1 in termite caste polyphenism and specifically tested the hypothesis that it plays a role in JH-dependent caste differentiation. After assembling the full-length Cyp15F1 cDNA sequence, we (i) determined its mRNA tissue expression profile, (ii) investigated mRNA expression changes in response to JH and the caste-regulatory primer pheromones γ-cadinene (CAD) and γ-cadinenal (ALD), and (iii) used RNA interference (RNAi) in combination with caste differentiation bioassays to investigate gene function at the phenotype level. Cyp15F1 has ubiquitous whole-body expression (including gut tissue); is rapidly and sustainably induced from 3 h to 48 h by JH, CAD, and ALD; and functions at least in part by facilitating JH-dependent soldier caste differentiation. These findings provide the second example of a termite caste regulatory gene identified through the use of RNAi, and significantly build upon our understanding of termite caste homeostatic mechanisms. These results also reinforce the concept of environmental caste determination in termites by revealing how primer pheromones, as socioenvironmental factors, can directly influence Cyp15 expression and caste differentiation., (© 2012 Wiley Periodicals, Inc.)

Published

2012

12. Juvenile hormone changes associated with diapause induction, maintenance, and termination in the beet webworm, Loxostege sticticalis (Lepidoptera: Pyralidae).

Author

Jiang X, Huang S, and Luo L

Subjects

Animals, Larva growth & development, Juvenile Hormones metabolism, Moths growth & development, Photoperiod

Abstract

At 22°C and under a long-day photoperiod of L:D 16:8, all the last fifth instar Loxostege sticticalis larvae undergo prepupal stage and pupate without diapause. Under a short-day photoperiod of L:D 12:12, in contrast, they all enter diapause with approximately 36 days diapause maintenance and then terminate diapause spontaneously, although only 44% of the larvae terminated diapause successfully. Changes in hemolymph juvenile hormone (JH I) titers of diapause-destined larvae across diapause induction, maintenance and termination were examined using HPLC, and were compared with those of non-diapause-destined larvae from the fifth instar through pupation. JH I titer of the earliest fifth instar diapause-destined larvae remained at a high level with a peak of 220.4 ng/ml, though it decreased continuously to a minimum of 69.0 ng/ml on day 5 in the fifth instar when the larvae stopped feeding to enter diapause. During the diapause maintenance, JH I titer of the mature larvae increased significantly and maintained a high level until day 31 in prepupae. JH I titer declined and fluctuated at low level from 5 days before pupation. In contrast, JH I titer of both the fifth instar non-diapause-destined larvae and prepupae remained and fluctuated at low level consistently, as well as decreased before pupation. These results indicate that diapause induction and maintenance in this species might be a consequence of high JH, whereas diapause termination can be attributed to low JH titer, which was in agreement with the hormonal regulation observed in many other larval-diapausing insects., (© 2011 Wiley-Liss, Inc.)

Published

2011

13. Age- and task-dependent foraging gene expression in the bumblebee Bombus terrestris.

Author

Tobback J, Mommaerts V, Vandersmissen HP, Smagghe G, and Huybrechts R

Subjects

Animals, Base Sequence, Bees physiology, Cloning, Molecular, Cyclic GMP-Dependent Protein Kinases metabolism, Feeding Behavior physiology, Gene Expression, Hierarchy, Social, Imidazoles metabolism, Insect Proteins genetics, Insect Proteins metabolism, Insecticides metabolism, Juvenile Hormones metabolism, Molecular Sequence Data, Neonicotinoids, Nitro Compounds metabolism, Phylogeny, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, Sequence Analysis, DNA, Bees genetics

Abstract

In eusocial insects, the division of labor within a colony, based on either age or size, is correlated with a differential foraging (for) gene expression and PKG activity. This article presents in the first part a study on the for gene, encoding a cGMP-dependent protein kinase (PKG) in the bumblebee Bombus terrestris. Cloning of the open reading frame allowed phylogenetic tracing, which showed conservation of PKGs among social insects. Our results confirm the proposed role for PKGs in division of labor. Btfor gene expression is significantly higher in the larger foragers compared with the smaller sized nurses. More importantly, we discovered an age-related decrease in Btfor expression in both nursing and foraging bumblebees. We therefore speculate that the presence of BtFOR is required for correct adaptation to new external stimuli and rapid learning for foraging. In a second series of experiments, worker bumblebees of B. terrestris were treated with two insecticides imidacloprid and kinoprene, which have shown to cause impaired foraging behavior. Compared with controls, only the latter treatment resulted in a decreased Btfor expression, which concurs with a stimulation of ovarian growth and a shift in labor toward nest-related tasks. The data are discussed in relation to Btfor expression in the complex physiological event of foraging and side-effects by pesticides., (© 2010 Wiley Periodicals, Inc.)

Published

2011

14. Juvenile hormone-stimulated synthesis of acyl-glycerols and vitamin E in female accessory sexual glands of the fire bug, Pyrrhocoris apterus L.

Author

Jedlicka P, Cvacka J, and Sláma K

Subjects

Animals, Female, Gas Chromatography-Mass Spectrometry, Oviposition physiology, Heteroptera metabolism, Juvenile Hormones metabolism, Ovary metabolism, Triglycerides biosynthesis, Vitamin E biosynthesis

Abstract

Secretory cells of the female accessory sexual glands (AG) of P. apterus grow and produce yellow oily exocrine secretion in response to stimulation by endogenous juvenile hormone (JH) or exogenous treatments by JH analogues. The secretion determines the property of future egg shells by coating the chorion surface of the oocytes that are passing individually through the common uterus during oviposition. Diapausing females with a physiologically inhibited endocrine system or females with artificially removed hormonal sources show inactive ovaries and empty AG without the secretory products. Ovary-ectomised females with the intact neuroendocrine system develop hypertrophic AG loaded with the oily secretion. This shows that there is no direct dependence between formation of the oily secretion in AG and ovarian growth. Chemical analysis of the secretory products revealed the presence of acetylated glycerols, with the most abundant stearoyl-diacetyl-glycerol, stearoyl-acetyl-propionyl-glycerol, and the corresponding derivatives of arachidonic acid. In addition to this, the JH-activated secretory cells of AG also produced gamma- and delta-tocopherols. The possible antioxidant or antimutagenic action of these vitamin E compounds in insect reproduction has been emphasized.

Published

2009

15. Venom of Pteromalus puparum (Hymenoptera: Pteromalidae) induced endocrine changes in the hemolymph of its host, Pieris rapae (Lepidoptera: Pieridae).

Author

Zhu JY, Ye GY, Dong SZ, Fang Q, and Hu C

Subjects

Animals, Carboxylic Ester Hydrolases metabolism, Ecdysteroids metabolism, Hemolymph drug effects, Hemolymph metabolism, Juvenile Hormones metabolism, Lepidoptera drug effects, Lepidoptera metabolism, Microinjections, Pest Control, Biological, Pupa drug effects, Pupa metabolism, Pupa parasitology, Wasp Venoms administration & dosage, Lepidoptera parasitology, Wasp Venoms toxicity, Wasps pathogenicity

Abstract

Pteromalus puparum is a predominant endoparasitoid wasp of Pieris rapae. Its venom is the only active factor injected into host associated with oviposition. In this report, we explored whether the venom alone from this wasp affects the endocrine system of its host or not. We monitored the changes of hemolymph juvenile hormone (JH; only JH III detected), ecdysteroid, and juvenile hormone esterase activity (JHE) over 72 h in parasitized and venom-microinjected P. rapae pupae. Non-parasitized and PBS-microinjected P. rapae served as controls. Results showed that JH titers were significantly higher in parasitized and venom-microinjected pupae than that in control pupae during 24 to 72 h. After 12 h, JH titers were significantly promoted by parasitization and venom microinjection. JHE activities of non-parasitized and PBS-microinjected pupae were significantly higher than that of parasitized and venom-microinjected pupae, which was with a peak at 12 h (parasitized pupae) or 24 h (venom-microinjected pupae) during 6 to 48 and 12 to 36 h, respectively. The hemolymph titers of ecdysteroid in non-parasitized and PBS-microinjected pupae increased rapidly during 12 to 36 h with a peak at 36 h, and were higher than treatments before 48 h, while presenting a significant difference at 24 to 48 h between the treatments and controls. The results demonstrate that venom alone of this parasitoid wasp can disrupt its host's endocrine system., (Copyright 2009 Wiley-Liss, Inc.)

Published

2009

16. Molecular analysis of juvenile hormone analog action in controlling the metamorphosis of the red flour beetle, Tribolium castaneum.

Author

Parthasarathy R and Palli SR

Subjects

Animals, Gene Expression Regulation drug effects, Gene Expression Regulation physiology, Juvenile Hormones metabolism, Larva drug effects, Pupa drug effects, Coleoptera drug effects, Coleoptera growth & development, Fatty Acids, Unsaturated pharmacology, Juvenile Hormones pharmacology, Metamorphosis, Biological drug effects, Methoprene pharmacology

Abstract

The juvenile hormone analogs (JHA) are known to disrupt insect development but the molecular mechanisms of their action have been studied only in a few model insects belonging to orders Diptera and Lepidoptera. Here, we investigated the mechanisms of JHA action in red flour beetle, Tribolium castaneum, belonging to the order Coleoptera. Application of JHA during penultimate and final instar larval stages blocked larval-pupal metamorphosis and induced supernumerary larval molts. When compared to the control insects undergoing larval-pupal molt, down-regulation of expression of transcription factor, Broad, and up-regulation of other genes involved in 20-hydroxyecdysone (20E) action (FTZ-F1, E74) were observed in JHA-treated larvae undergoing supernumerary larval molts. The presence of JHA during the final instar larval stage blocked the midgut remodeling wherein programmed cell death (PCD) of larval cells and proliferation and differentiation of imaginal cells to pupal gut epithelium were impaired. The comparative analysis of 20E-induced gene expression in the midguts of JHA-treated and control insects revealed that JHA suppressed the expression of EcRA, EcRB, Broad, E74, E75A, and E75B, resulting in a block in PCD as well as proliferation and differentiation of imaginal cells.

Published

2009

17. Dopamine and octopamine regulate 20-hydroxyecdysone level in vivo in Drosophila.

Author

Rauschenbach IY, Chentsova NA, Alekseev AA, Gruntenko NE, Adonyeva NV, Karpova EK, Komarova TN, Vasiliev VG, and Bownes M

Subjects

Animals, Dopamine analysis, Dopamine Agents administration & dosage, Drosophila drug effects, Drosophila genetics, Ecdysterone analysis, Female, Juvenile Hormones analysis, Juvenile Hormones metabolism, Levodopa administration & dosage, Male, Mutation, Adrenergic alpha-Agonists pharmacology, Dopamine pharmacology, Dopamine Agents pharmacology, Drosophila metabolism, Ecdysterone metabolism, Octopamine pharmacology

Abstract

The effects of increased level of dopamine (DA) (feeding flies with DA precursor, L-dihydroxyphenylalanine, L-DOPA) on the level of 20-hydroxyecdysone (20E) and on juvenile hormone (JH) metabolism in young (2-day-old) wild type females (the strain wt) of Drosophila virilis have been studied. Feeding the flies with L-DOPA increased DA content by a factor of 2.5, and led to a considerable increase in 20E level and a decrease of JH degradation (an increase in JH level). We have also measured the levels of 20E in the young (1-day-old) octopamineless females of the strain Tbetah(nM18) and in wild type females, Canton S, of D. melanogaster. The absence of OA led to a considerable decrease in 20E level (earlier it was shown that in the Tbetah(nM18) females, JH degradation was sharply increased). We have studied the effects of JH application on 20E level in 2-day-old wt females of D. virilis and demonstrated that an increase in JH titre results in a steep increase of 20E level. The supposition that biogenic amines act as intermediary between JH and 20E in the control of Drosophila reproduction is discussed.

Published

2007

18. Effects of ecdysteroid agonist RH-2485 reveal interactions between ecdysteroids and juvenile hormones in the development of Sesamia nonagrioides.

Author

Eizaguirre M, López C, Schafellner C, and Sehnal F

Subjects

Animals, Body Weight, Ecdysteroids blood, Ecdysteroids metabolism, Hemolymph chemistry, Hydrazines metabolism, Juvenile Hormones blood, Juvenile Hormones pharmacology, Larva drug effects, Larva growth & development, Larva metabolism, Lepidoptera metabolism, Time Factors, Ecdysteroids agonists, Hydrazines pharmacology, Juvenile Hormones metabolism, Lepidoptera drug effects, Lepidoptera growth & development

Abstract

Larvae of Sesamia nonagrioides developing under long day (LD) conditions pupate in the 5th or 6th instar, whereas under the short day (SD) conditions, they undergo several supernumerary larval molts and are regarded as diapausing. The development in early larval instars occurs in the LD larvae at a moderate and in the SD larvae at a high juvenile hormone (JH) titer; ecdysteroid titer cycles similarly under both conditions. The transformation to pupa is initiated by a burst of ecdysteroids at undetectable JH levels, whereas extra larval molts in the diapausing larvae are associated with moderate JH titer and irregular rises of ecdysteroids. Application of 0.2 ppm RH-2485 to the diet of the 6th instar larvae promotes hormonal changes supporting metamorphosis in the LD larvae and slightly accelerates larval molts in the diapausing SD larvae. The 0.5- and 1-ppm doses revert these patterns of endocrine regulations to a mode typical for early larval instars. Particularly dramatic is a JH titer increase provoked within 24 h in the LD larvae. After the treatment, both the LD and SD larvae undergo a series of larval molts, suggesting that hormonal programming of the larval development has been stabilized. A few insects receiving 1 ppm RH-2485, and a high proportion of those fed with 5 ppm RH-2485, deposit two cuticles within a single apolysis and die.

Published

2007

19. Effects of octopamine on reproduction, juvenile hormone metabolism, dopamine, and 20-hydroxyecdysone contents in Drosophila.

Author

Gruntenko NE, Karpova EK, Alekseev AA, Chentsova NA, Bogomolova EV, Bownes M, and Rauschenbach IY

Subjects

Animals, Dopamine analysis, Drosophila melanogaster drug effects, Drosophila melanogaster physiology, Drosophilidae physiology, Ecdysterone analysis, Female, Fertility drug effects, Juvenile Hormones analysis, Juvenile Hormones metabolism, Male, Time Factors, Adrenergic alpha-Agonists pharmacology, Drosophilidae drug effects, Octopamine pharmacology, Oogenesis drug effects

Abstract

The effect of an experimentally increased octopamine content (feeding flies with OA) on the levels of juvenile hormone (JH) degradation, dopamine (DA), and 20-hydroxyecdysone (20E) contents, oogenesis, and fecundity of wild type Drosophila flies has been studied. OA feeding of the flies was found to (1) cause a considerable decrease in JH degradation in females, but not males, of D. melanogaster and D. virilis; (2) have no effect on DA content in D. melanogaster and D. virilis; (3) increase 20E contents in D. virilis females; (4) decrease to a large extent the number of vitellogenic (stages 8-10) and mature (stage 14) oocytes in D. virilis; and (5) decrease the fecundity of D. melanogaster and D. virilis. A possible mechanism of action of OA as a neurohormone on the reproductive function of Drosophila is discussed.

Published

2007

20. Significance of penetration, excretion, and transovarial uptake to toxicity of three insect growth regulators in predatory lacewing adults.

Author

Medina P, Smagghe G, Budia F, Del Estal P, Tirry L, and Viñuela E

Subjects

Animals, Carbon Radioisotopes, Diflubenzuron metabolism, Diflubenzuron pharmacology, Feces, Female, Hydrazines metabolism, Hydrazines pharmacology, Insecta drug effects, Insecta physiology, Insecticides metabolism, Insecticides pharmacology, Isotope Labeling, Juvenile Hormones metabolism, Juvenile Hormones pharmacology, Male, Ovary metabolism, Oviposition drug effects, Ovum drug effects, Pyridines metabolism, Pyridines pharmacology, Diflubenzuron pharmacokinetics, Hydrazines pharmacokinetics, Insecta metabolism, Insecticides pharmacokinetics, Juvenile Hormones pharmacokinetics, Pyridines pharmacokinetics

Abstract

Topical treatment of the predatory lacewing adults, Chrysoperla carnea (Stephens) (Neuroptera: Chrysopidae) before and after the onset of oviposition with diflubenzuron (DFB) at doses based on the maximum field recommended concentration resulted in a total inhibition of egg hatch due to death of the embryo. In contrast, pyriproxyfen (PYR) and tebufenozide (TEB) did not affect fecundity and egg fertility. To explain these differences in toxicity, the patterns of penetration through the cuticle, distribution inside the insect body, and excretion were studied using [(14)C]-labeled isotopes of each insect growth regulator (IGR). Penetration of DFB and TEB reached about 16 and 26% in 7 days, whereas 88% of PYR had penetrated in 24 h. However, the rate of excretion for PYR was very high, compared to that of DFB and TEB. Low amounts of absorbed radioactivity were recovered from the female body with the exception of DFB, the ovaries and the eggs deposited during a week. DFB and PYR concentration reached a peak in the eggs deposited at the fourth and second day after treatment, respectively. The current data indicate the importance of penetration through the insect cuticle. However, other mechanisms are likely to be involved in the selectivity of the current IGRs towards this beneficial insect., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

21. Juvenile hormone stimulated tyrosine kinase-mediated protein phosphorylation in the CNS of the silk worm, Bombyx mori.

Author

Arif A, Shanavas A, Murthy ChR, and Dutta-Gupta A

Subjects

Animals, Bombyx metabolism, Phosphorylation, Central Nervous System metabolism, Insect Proteins metabolism, Juvenile Hormones metabolism, Protein-Tyrosine Kinases metabolism, Sesquiterpenes metabolism

Abstract

In vitro studies with the larval CNS of the silkworm, Bombyx mori revealed the phosphorylation of a 48-kDa protein, which was not dependent on cyclic nucleotides. Studies also revealed modest phosphorylation of this protein by a calcium-dependent but calmodulin-independent mechanism. However, phosphorylation of this protein was greatly enhanced in the presence of juvenile hormone (JH) I by a calcium-independent mechanism. This stimulatory effect of JH was seen in both homogenates as well as in intact CNS of Bombyx. Immunoblotting studies revealed the cross-reaction of this 48-kDa protein with phosphotyrosine monoclonal antibody and the phosphorylation of this protein was inhibited by genistein. This study suggests that the 48-kDa protein is a substrate for tyrosine kinase. The phosphorylation of this protein was also observed in other larval tissues such as salivary gland, fat body, and epidermis of Bombyx., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

22. Juvenile hormone catabolism and oviposition in the codling moth, Cydia pomonella, as functions of age, mating status, and hormone treatment.

Author

Cole TJ, Ramaswamy SB, Srinivasan A, and Dorn S

Subjects

Acetone pharmacology, Age Factors, Animals, Carbamates pharmacology, Carboxylic Ester Hydrolases analysis, Cholinesterase Inhibitors pharmacology, Chromatography, Thin Layer, Female, Gas Chromatography-Mass Spectrometry, Insecticides pharmacology, Isoflurophate pharmacology, Juvenile Hormones pharmacology, Male, Moths anatomy & histology, Moths metabolism, Oviposition drug effects, Acetone analogs & derivatives, Juvenile Hormones metabolism, Moths physiology, Oviposition physiology, Phenylcarbamates

Abstract

In vitro catabolism of juvenile hormone (JH) in haemolymph of adult female Cydia pomonella was ascribed mainly to juvenile hormone esterase (JHE) activity. No significant differences were noted between virgin and mated females 0-96 h post-emergence. Changes in JHE activity did not appear dependent upon fluctuations in JH titre; conversely, changes in JHE activity could not explain the changes in JH titres. Maximal JHE activity was recorded at 24 h (331.47 +/- 47.25 pmol/h/microl; 355.93 +/- 36.68 pmol/h/microl, virgin; mated insects, respectively) and preceded the peak in JH titres at 48 h. Topical application of JH II (10 ng-10 microg) or fenoxycarb (50 ng) enhanced JHE activity up to 640 and 56%, respectively. Treatment upon emergence with 10 microg JH II induced enzymic activity for less than 24 h, and when 10 microg JH II or 50 ng fenoxycarb were applied, circulating JH titres returned to control levels within 24 h. Oviposition was highly sensitive to exogenous JH and declined significantly with dosages >100 pg. To allow a degree of oocyte maturation before JH treatment, the hormone was administered at 6, 12, 24, or 48 h post-emergence and/or females were mated. Neither measure "protected" the system; oviposition declined immediately after JH application., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

23. Effects of calcium channel antagonists on the corpora allata of adult male loreyi leafworm Mythimna loreyi: juvenile hormone acids release and intracellular calcium level.

Author

Hsieh YC, Hsu EL, Chow YS, and Kou R

Subjects

Animals, Calcium metabolism, Calcium Channels drug effects, Juvenile Hormones metabolism, Male, Metals pharmacology, Nifedipine pharmacology, omega-Conotoxin GVIA pharmacology, Calcium Channel Blockers pharmacology, Corpora Allata drug effects, Corpora Allata physiology, Lepidoptera drug effects, Lepidoptera physiology

Abstract

The effects of voltage-dependent calcium channel (VDCC) antagonists and the non-specific calcium channel antagonists on both juvenile hormone acids (JHA) release and cytosolic free calcium concentration ([Ca2+]i) are investigated in the corpora allata (CA) of the adult males loreyi leafworm Mythimna loreyi. The VDCC antagonists used in this study are: the L-type antagonists diltiazem, nifedipine, and verapamil, the N-type antagonist omega-Conotoxin (CgTx) GVIA, the N- and P/Q-type antagonist omega-CgTx MVIIC, and the T-type antagonist amiloride. The non-specific calcium channel antagonists used in this study were cadmium (Cd2+), cobalt (Co2+), nickle (Ni2+), and lanthanum (La3+). The results show that both the DHPs-sensitive L-type antagonist nifedipine and the N-type antagonist omega-CgTx GVIA were able to inhibit JHA release, but only omega-CgTx GVIA was able to reduce the [Ca2+]i. Among the non-specific calcium channel antagonists, Cd2+ is the most potent in reducing JHA release but without obvious effect on the [Ca2+]i, La3+ significantly increases the [Ca2+]i but without effect on JHA release., (Copyright 2001 Wiley-Liss, Inc.)

Published

2001

24. Endocrine mechanisms controlling body-color polymorphism in locusts.

Author

Tanaka S

Subjects

Animals, Color, Juvenile Hormones metabolism, Models, Biological, Neuropeptides metabolism, Grasshoppers metabolism, Hormones metabolism, Insect Proteins, Polymorphism, Genetic

Abstract

The present article reviews recent published and unpublished findings on the hormonal mechanisms for the control of body-color polymorphism in locusts. Emphasis is placed on the dark color-inducing factors and their role in the induction of various types of body coloration observed under different environmental conditions. Implantation of corpora cardiaca (CC) taken from normal nymphs of Locusta migratoria induced dark color in nymphs of an albino strain. Using the albino strain for the bioassay, a neuropeptide, [His7]-corazonin, was identified as a dark color-inducing factor for L. migratoria and Schistocerca gregaria. In the former, depending upon the dose and timing of the injection, this peptide and juvenile hormone developed various body colors looking like those found in nature. The body coloration characteristic of gregarious forms was also induced in isolated albino nymphs and field-collected solitary nymphs. In S. gregaria, on the other hand, the peptide induced black patterns, but the orange or yellow background color observed in gregarious forms was not induced when the peptide was injected into solitary individuals. [His7]-corazonin also induced darkening in other grasshoppers and locusts, but not in katydids. Albino L. migratoria developed dark color when implanted with brains or CC taken from other insects belonging to 10 major insect orders, but not with those from Coleoptera. [His7]-corazonin or a similar compound is widespread among insects and plays a pivotal role in controlling body color in some species and presumably other physiological roles in other species. Arch., (Copyright 2001 Wiley-Liss, Inc.)

Published

2001

25. Significance of absorption, oxidation, and binding to toxicity of four ecdysone agonists in multi-resistant cotton leafworm.

Author

Smagghe G, Carton B, Decombel L, and Tirry L

Subjects

Absorption, Animals, Biological Assay, Feces, Insecticide Resistance, Larva, Oxidation-Reduction, Ecdysterone agonists, Hydrazines metabolism, Insect Control methods, Insecticides metabolism, Juvenile Hormones metabolism, Spodoptera metabolism

Abstract

Treatment of last-instar larvae of multi-resistant cotton leafworm Spodoptera littoralis with four dibenzoylhydrazines, methoxyfenozide (RH-2485), tebufenozide (RH-5992), halofenozide (RH-0345), and RH-5849, resulted in premature molting leading to death. Methoxyfenozide was the most toxic followed by tebufenozide, halofenozide, and RH-5849. To explain differences in toxicity, especially between multi-resistant and laboratory strains, absorption in the body tissues and oxidative metabolism were tested with 14C-labeled ecdysone agonist and a Lineweaver-Burk assay, respectively. Then to address different compound potencies in multi-resistant strains, the potency of the four ecdysone agonists was measured based on their ability to mimic the natural insect molting hormone, 20-hydroxyecdysone (20E) by inducing evagination in isolated imaginal wing discs. Using monoclonal antibody 9B9, the presence of ecdysteroid receptors in imaginal discs in vitro was confirmed. In parallel, Scatchard plot analysis with whole imaginal wing discs cultured with different concentrations of 3H-labeled ponasterone A indicated no significant difference in affinity and in number of target sites for binding between multi-resistant and susceptible laboratory strains. The four compounds tested caused the effect as agonists of 20E in vitro, and typically the order of their toxicities (LC50s) corresponded with that for evagination-induction with whole imaginal discs., (Copyright 2001 Wiley-Liss, Inc.)

Published

2001

26. c-Fos-related antigens in the central nervous system of an insect, Acheta domesticus.

Author

Renucci M, Tirard A, Charpin P, Augier R, and Strambi A

Subjects

Animals, Antigens analysis, Cell Extracts, Cell Nucleus metabolism, Ecdysteroids, Female, Genitalia, Female physiology, Immunoenzyme Techniques, Juvenile Hormones metabolism, Kinetics, Staining and Labeling methods, Steroids metabolism, Subcellular Fractions, Central Nervous System chemistry, Gryllidae chemistry, Insect Proteins analysis, Proto-Oncogene Proteins c-fos analysis

Abstract

Fos-related antigens (Fra) were detected in the nuclei of neurones in young adult Acheta domesticus female crickets by immunohistochemical analysis, using an antibody that recognizes the amino-acid sequence 127-152 of c-Fos protein. Specificity of Fra immunoreactivity was confirmed by Western blot analysis of nuclear extracts from neural tissues. A major immunoreactive doublet with an apparent molecular mass of 52,000/54,000 Da was detected in nuclear extracts. Immunostaining of the 52,000/54,000 Da doublet showed variations in intensity during the first 5 days following the imaginal molt. Staining was more intense between day 2 and day 4 when ecdysteroid titers were high. Expression of Fra was low in allatectomized (i.e., deprived of juvenile hormone and ecdysteroids) and ovariectomized (i.e., deprived of ecdysteroids) females as compared to control females. These results show the involvement of hormone-regulated process in expression of Fra. The effect of nociceptive stimulation on Fra expression was tested. Twenty minutes after removal of the ovipositor, a supplementary band with an apparent molecular mass of 70,000 Da appeared in the nuclear extracts, then decreased and disappeared totally after 45 min. Several other Fos-related antigens with different temporal patterns of expression were also detected.

Published

2000

27. A juvenile hormone-repressible transferrin-like protein from the bean bug, Riptortus clavatus: cDNA sequence analysis and protein identification during diapause and vitellogenesis.

Author

Hirai M, Watanabe D, and Chinzei Y

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cloning, Molecular, DNA, Complementary, Female, Hemiptera growth & development, Hemiptera metabolism, Hemiptera physiology, Humans, Molecular Sequence Data, Sequence Analysis, DNA, Sequence Homology, Amino Acid, Vitellogenesis physiology, Hemiptera genetics, Juvenile Hormones metabolism, Transferrin genetics

Abstract

We found several juvenile hormone-responsive cDNAs in the bean bug, Riptortus clavatus, by using mRNA differential display (Hirai et al., 1998). One of them, a juvenile hormone-repressible cDNA, JR-3, was cloned, sequenced, characterized and identified as a transferrin (RcTf). RcTf cDNA encoded 652 amino acids with a calculated molecular weight of 71,453 Da. The deduced amino acid sequence showed significant homology with the transferin genes of several insects, Manduca sexta (43% identity), Blaberus discoidalis (43%), Aedes aegypti (43%), Drosophila melanogaster (36%), Sarcophaga peregrina (36%) and the human (25%). Antiserum was prepared by using recombinant RcTf protein expressed in Escherichia coli as an antigen. The antiserum reacted specifically with both the recombinant protein and the native protein from the bugs, with sizes of 70 and 75 kDa, respectively. The 75 kDa protein was partially purified from hemolymph of diapausing female bugs and the first ten amino acids were found to be identical to that of RcTf cDNA, indicating that the 75 kDa protein is RcTf. The tissue distribution of RcTf in the bug was examined by Western blot analysis. In diapausing animals, RcTf was detected in the fat body, hemolymph and ovary but not in the gut. In the post-diapause stage, RcTf was also detected in eggs, in addition to the fat body and ovary. These results indicate that RcTf is incorporated into the oocytes during vitellogenesis, and suggest that it may provide iron for the developing embryos., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

28. In vitro metabolism of pyriproxyfen by microsomes from susceptible and resistant housefly larvae.

Author

Zhang L, Kasai S, and Shono T

Subjects

Adipose Tissue metabolism, Aniline Hydroxylase metabolism, Animals, Drug Resistance, Houseflies drug effects, Juvenile Hormones metabolism, Larva, Cytochrome P-450 Enzyme System metabolism, Cytochromes b5 metabolism, Digestive System metabolism, Houseflies metabolism, Microsomes metabolism, Pyridines metabolism, Pyridines toxicity

Abstract

Levels of cytochrome P450 and b5 were investigated in microsomal enzymes of houseflies from the gut and fat body of the third instar larvae of a pyriproxyfen-resistant strain (YPPF) and two pyriproxyfen-susceptible strains (YS and SRS). In comparison to the YS and SRS strains, YPPF microsomes had higher levels of total cytochrome P450s in both the gut and fat body. Furthermore, microsomes from the gut and fat body of YPPF larvae were found to have a much greater ability to hydroxylate aniline than YS larvae. In vitro metabolism studies of pyriproxyfen indicated that the metabolic rates were much higher in both the gut and fat body of YPPF larvae than of YS and SRS larvae. The major metabolites of pyriproxyfen in houseflies were identified to be 4'-OH-pyriproxyfen and 5"-OH-pyriproxyfen. Cytochrome P450 inhibitors, piperonyl butoxide (PB) and 2-propynyl 2,3,6-trichlorophenyl ether (PTPE), decreased the metabolic rates significantly in all three strains. This study confirmed that microsomal cytochrome P450 monooxygenases play an important role in the pyriproxyfen resistance of the housefly. Furthermore, it suggests that the fat body must be as important as the gut for the metabolism of pyriproxyfen in resistant housefly larvae.

Published

1998

29. Mating in Heliothis virescens: transfer of juvenile hormone during copulation by male to female and stimulation of biosynthesis of endogenous juvenile hormone.

Author

Park YI, Shu S, Ramaswamy SB, and Srinivasan A

Subjects

Animals, Chromatography, Gas, Chromatography, High Pressure Liquid, Female, Genitalia, Male metabolism, Juvenile Hormones metabolism, Male, Mass Spectrometry, Corpora Allata metabolism, Juvenile Hormones biosynthesis, Lepidoptera metabolism, Sexual Behavior, Animal physiology

Abstract

Studies were undertaken to determine whether adult males of Heliothis virescens transfer juvenile hormone (JH) to females during copulation, and an in vitro radiochemical assay was used to determine whether mating causes an allatotropic effect, i.e., stimulation of JH biosynthesis by corpora allata (CA). In vitro, CA from 3-day-old mated females synthesized and released approximately 2.5 times total JH as that of CA from comparably aged virgin females. Of the homologues, JH II exhibited significant increase in mated females; JH I also increased but not significantly. JH III remained similar to that of virgin females. This is the first demonstration of an allatotropic effect of mating in moths. In contrast to the female, CA of virgin males did not produce any JH, but accessory sex glands (ASG) in 3-day-old males synthesized small amounts of JH. Immediately after adult emergence, male ASG contained approximately 1.5 ng JH I and II, which increased by 12 h after emergence and remained at this high level up to 54 h after emergence. JH III was barely detected in ASG. JH in ASG of mated male immediately after uncoupling was depleted almost completely, and 24 h later recovered to levels comparable to that of 54-h-old virgin male. Virgin female bursa copulatrix did not contain any JH, but mated female bursa, immediately after uncoupling, had JH at levels comparable to that observed in virgin male ASG. By 6 h after uncoupling, JH levels decreased dramatically in mated female bursa. These data suggest the transfer of JH to females by the male.

Published

1998

30. Overview of the regulation of metamorphosis-associated genes in Trichoplusia ni.

Author

Jones G, Schelling D, and Chhokar V

Subjects

Animals, Carboxylic Ester Hydrolases genetics, Gene Expression Regulation, Insect Hormones genetics, Juvenile Hormones metabolism, Moths, Genes, Insect, Insect Proteins, Metamorphosis, Biological genetics

Abstract

A review is presented of our ongoing research program on the regulation of metamorphosis-associated proteins in Trichoplusia ni. Toward the identification of mechanisms by which juvenile hormone (JH) regulates expression of metamorphosis-associated proteins, we have identified a protein that is induced by JH (juvenile hormone esterase) and a related esterase that is not JH-inducible. We have also identified three hexamerins that are suppressible by JH, and one hexamerin that is not JH-suppressible. Expression of the hexamerins is regulated at the transcriptional, translational, and posttranslational levels in T. ni. The rate of transcription of the JH esterase gene increases at the time of the prepupal peak in JH, and exogenous application of JH can cause, within 3 h, the rate of transcription to be the markedly elevated above normal. Using in vitro functional transcription assay, cell line transfection functional assay, and preliminary DNase I hypersensitive site mapping we were able to identify the functional TATA box and transcription start sites of JH-sensitive genes. These methods were also observed to be powerful in the detection of regulatory DNA motifs involved in the modulation of transcriptional activity constitutively imparted by a core promoter. The experimental systems described here will also be effective in identifying those components through which JH regulatory effects are mediated. Should JH act on the genes in a primary manner, then the transcription factor mediating that action may be the (a) JH receptor. Should the JH action be in a secondary manner, then the transcription factor(s) whose activity at the JHE gene is regulated by JH will provide the tool to track back to the location and nature of the primary JH action.

Published

1996

31. Altered hexamerin regulation in prepupal Trichoplusia ni pseudoparasitized by Chelonus sp. near curvimaculatus.

Author

Jones D, Turner H, and Chhokar V

Subjects

Animals, Ecdysteroids, Female, Gene Expression, Hemolymph metabolism, Host-Parasite Interactions, Insect Hormones genetics, Juvenile Hormones metabolism, Larva metabolism, Moths embryology, Moths parasitology, Proteins metabolism, Pupa, Steroids metabolism, Insect Hormones metabolism, Insect Proteins, Moths metabolism, Wasps

Abstract

Adult female wasps of species in the subfamily Cheloninae inject an egg, venom, polydnavirus and other materials into the host egg during oviposition. Hosts then exhibit precocious expression of the metamorphic developmental program, but then further development by the precocious prepupa is suppressed. These effects occur in truly parasitized hosts (those that contain a live endoparasite larva) as well as in pseudoparasitized hosts (that do not contain a live endoparasite). We report here that during the precocious prepupal stage, the hexamerins BJHSP1 and BJHSP2 persist in the hemolymph of pseudoparasitized hosts, whereas in normal larvae these proteins are cleared from the hemolymph in response to the normal surge in prepupal ecdysteroids. Northern blot analysis of poly(A) RNA showed that the basis for this persistence is not an abnormally high abundance of the transcripts on the day following wandering in pseudoparasitized larvae. Nor is the source of the hexamerins the parasite larva, for it is missing from the pseudoparasitized hosts. The hypothesis that the persistence is due to a suppressed titer of ecdysteroids in pseudoparasitized hosts (reported earlier: [jones et al., Arch Insect Biochem Physiol 21:155 (1992)] was tested by use of a large size variant of pseudoparasitized hosts in which the prepupal ecdysteroid titer is partially restored by endogenous ecdysteroid production. In such pseudoparasitized prepupae, the two hexamerins were cleared from the hemolymph on the day following host wandering behavior, as in normal larvae. Thus, the regulatory basis of the persistence of the hexamerins BJHSP1 and BJHSP2 in the hemolymph of pseudoparasitized hosts appears to be at the posttranslational level, with suppression of the prepupal ecdysteroid titer causing omission of the normal trigger for fat body uptake of the hexamerins.

Published

1996

32. Biochemistry of proteins that bind and metabolize juvenile hormones.

Author

Prestwich GD, Wojtasek H, Lentz AJ, and Rabinovich JM

Subjects

Amino Acid Sequence, Animals, Carrier Proteins genetics, Epoxide Hydrolases metabolism, Fatty Acids, Unsaturated metabolism, Humans, Molecular Sequence Data, Receptors, Cell Surface metabolism, Carrier Proteins metabolism, Insect Proteins, Juvenile Hormones metabolism

Abstract

A diverse group of proteins has evolved to bind and metabolize insect juvenile hormones (JHs). Synthetic radiolabeled JHs and their photoaffinity analogs have enabled us to isolate and characterize JH binding proteins (JHBPs), a putative nuclear JH receptor, JH esterases (JHEs), JH epoxide hydrolases (JHEHs), and methyl farnesoate binding proteins (MFBPs). Highlights of recent progress on structural characterization of JHBPs and JHEHs of two lepidopterans will be described. Efforts to identify MFBPs of penaeid shrimp will be discussed, and the discovery of a possible vertebrate JHBP will be presented.

Published

1996

33. Activity of the corpora allata of adult female Leucophaea maderae: effects of mating and feeding.

Author

Aclé D, Brookes VJ, Pratt GE, and Feyereisen R

Subjects

Animals, Chromatography, High Pressure Liquid, Farnesol pharmacology, Female, Food Deprivation physiology, Juvenile Hormones metabolism, Methionine metabolism, Oocytes growth & development, Cockroaches metabolism, Corpora Allata metabolism, Juvenile Hormones biosynthesis

Abstract

Juvenile hormone III biosynthesis by corpora allata of adult female Leucophaea maderae was measured by an in vitro radiochemical assay. In fed females, JH III synthesis increases more than 20-fold after mating to a peak of 55 pmol/pair/h on day 9 and then rapidly declines. This increase in JH III synthesis concomitant with rapid oocyte growth in mated females is not observed in virgin females. The corpora allata from starved, virgin females appear to be inactive. The addition of 150 microM 2E,6E-farnesol (a) JH III precursor) to the incubation medium stimulates the corpora allata from starved, virgin females less than the corpora allata from starved, mated females. Both feeding and mating are necessary for the expression of a normal cycle of JH III synthesis in this cockroach.

Published

1990

34. Endocrine interrelationship between the parasitoid Chelonus sp. and its host Trichoplusia ni.

Author

Grossniklaus-Bürgin C and Lanzrein B

Subjects

Animals, Chromatography, High Pressure Liquid, Ecdysteroids, Hemolymph chemistry, Host-Parasite Interactions, Larva chemistry, Radioimmunoassay, Hymenoptera physiology, Insecta parasitology, Invertebrate Hormones metabolism, Juvenile Hormones metabolism

Abstract

The egg-larval parasitoid Chelonus sp. induces the precocious onset of metamorphosis in the 4th (penultimate) stadium of its host Trichoplusia ni, emerges from the prepupa, and then feeds on it. Qualitative and quantitative changes in ecdysteroids and juvenile hormone were measured. Hemolymph of 3rd-to 4th-instar host larvae and the parasitoids they contained, as well as nonparasitized and parasitized eggs, were analyzed. In the host hemolymph a broad peak of ecdysteroids during molting into the 4th stadium and a continuous increase from day 2 (onset of precocious wandering) until day 4 (emergence of parasitoid) were observed; 20-hydroxyecdysone and 20,26-dihydroxyecdysone were predominant. The juvenile hormone titer fluctuated in the 3rd and early 4th stadium and fell to undetectable levels shortly before the precocious onset of wandering. The parasitoid's ecdysteroids started to increase on the molt to the 2nd instar (= early 4th instar of the host) and thereafter fluctuated on a high level, 20-hydroxyecdysone, 20,26-dihydroxy-ecdysone, and ecdysone being predominant. The juvenile hormone titer was high in late 1st-instar parasitoids, decreased to low levels at ecdysis into the 2nd instar, and increased again to high levels in the 2nd-instar larvae at the time when their shape changed from flat to cylindrical. After ecdysis to the 3rd instar the juvenile hormone titer fell. A comparison revealed that both ecdysteroids and juvenile hormone fluctuate independently in parasitoid and host at most stages, suggesting that the parasitoid produces its own hormones. The first data on ecdysteroids and juvenile hormones in the egg stage of a parasitoid/host system are reported. At the stage of eye pigmentation parasitized eggs contained more immunoreactive midpolar ecdysteroids than non-parasitized ones. 20-Hydroxyecdysone and 20,26-dihydroxyecdysone were the predominant ecdysteroids in both nonparasitized and parasitized eggs, but the latter contained several additional ecdysteroids which were not seen in nonparasitized eggs. The titer of juvenile hormone was similar in both. Shortly before hatching the ecdysteroids were low in parasitized and nonparasitized eggs, but the content of juvenile hormone was much higher in the former. At this stage the majority of parasitoids have already eclosed and teratocytes are released. The results of HPLC analysis indicated the presence of juvenile hormone III together with juvenile hormones I and II in parasitized eggs, but only juvenile hormones I and II in nonparasitized eggs.

Published

1990