Change in corpus allatum function during metamorphosis of the tobacco hornworm Manduca sexta: Regulation at the terminal step in juvenile hormone biosynthesis

Changes in activity of the corpora allata (CA) during larval-pupal-adult development of the tobacco hornworm Manduca sexta were studied by transplantation assays, measurements of in vitro juvenile hormone (JH) and JH acid synthesis, and determination of JH acid methyltransferase (JHAMT) and 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase activities. The data from these assays demonstrate that the CA cease to secrete JH by day 4 of the last larval instar (wandering stage). With regard to JH synthesis, they remain inactive throughout the prepupal, pupal, and most of the pharate adult periods. CA of females, but not of males, resume JH synthesis shortly before eclosion. The biochemical basis of the inactivation process is the loss of JHAMT activity. However, prepupal CA produce JH acids, as shown by enzyme and in vitro assays. Pupal and pharate adult CA do not synthesize JH acids although levels of HMG-CoA reductase activity seem to remain relatively high. Radiolabeled JH was recovered from hemolymph of allatectomized prepupae that had been injected with radiolabeled JH acid. These results provide further evidence that certain peripheral tissues (eg, imaginal discs) convert JH acid secreted by the prepupal CA to JH and, thus, that JH acid is a prohormone in the prepupal period. The CA change from hormone secretion to prohormone secretion during larval-prepupal transformation, a unique functional alteration in an endocrine gland.     

Juvenile hormone acid methyltransferase activity in imaginal discs of Manduca sexta prepupae

The occurrence of a peak of juvenile hormone (JH) during the prepupal period has been noted in several lepidopterans. In Manduca sexta and Hyalophora cecropia this peak is known to prevent the precocious onset of adult differentiation in imaginal tissues. However, it has previously been observed in our laboratory that corpora allata (CA) of this age are incapable of making JH owing to a lack of the terminal synthetic enzyme, juvenile hormone acid methyltransferase (JHAMT). Since the CA are required for normal pupation, it is likely that JH acid is the product released by the prepupal CA. Therefore, we analyzed whether JH acid treatment would prevent precocious adultoid differentiation in allatectomized M. sexta larvae. JH acid injections were found to be as effective as JH in normalizing pupation, and acted in a time- and dose-dependent manner. This finding led to a question of whether injected or endogenous JH acid could be methylated to JH. Homogenates of several tissues from prepupae were assayed for the presence of JHAMT. Of the tissues assayed, only imaginal discs possessed significant levels of the enzyme. These results support our previously proposed mechanism for production of the prepupal JH peak in M. sexta.     

In vivo fluctuation of JH,JH acid,and ecdysteroid titer,and JH esterase activity,during development of fifth stadium Manduca sexta

Juvenile hormone (JH), JH acid, and ecdysteroid titer, and JH esterase activity, were measured in hemolymph from synchronous last stadium larvae of Manduca sexta. JH and JH acids were identified and quantified by GC-MS: JH I and II (and the corresponding acids) were the predominant JH homologs detected in males or females. Maximum levels of JHs and JH acids were observed just following ecdysis to the fifth (last) stadium (day 0, 0 hr) and at the prepupal stage (day 6–day 7). JH titer (≥ 1 ng JH I or II/ml) was higher than JH acid titer (∼0.7 ng JH I acid or JH II acid/ml) in very early fifth stadium larvae. However, this was reversed at the prepupal stage when higher titers of JH acids than JH were observed. JH acid titer began to rise prior to JH titer at the prepupal stage. JH esterase activity rose significantly only after JH or JH acid titers had begun to decline; maximum JH esterase activity was observed at day 3 and day 8. Ecdysteroid titer (measured by RIA) decreased during the last larval molt to a low level by day 0 (0 hr) and to undetectable levels at day 0 (12 hr) of the fifth stadium, by which time JH and JH acid levels had also declined substantially. Just prior to wandering, a small ecdysteroid peak was noted and a slightly elevated level of ecdysteroid was maintained for a further 2 days before a surge in ecdysteroid titer occurred at the prepupal stage, in synchrony with JH and JH acid titer maxima. There was no sexual dimorphism in timing or magnitude of JH, JH acid, and ecdysteroid titer or JH esterase activity.     

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

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

Developmental profiles of the mRNAs for Manduca arylphorin and two other storage proteins during the final larval instar of Manduca sexta

When fat body mRNA from the tobacco hornworm larva, Manduca sexta, was translated in a rabbit reticulocyte lysate system, three major polypeptides were found, each having a different developmental profile. One mRNA coded for a 74 kilodalton (K) polypeptide doublet precipitated by an antibody to the arylphorin (manducin). This mRNA was present only during the intermolt feeding phase of the penultimate and the final larval instars. Its appearance 16–24 hr after larval ecdysis was dependent upon the incoming nutrient supply and independent of the juvenile hormone (JH) level. Immunoblots of proteins of the fat body, epidermis, and cuticle revealed the presence of arylphorin in all three tissues. Additionally, several small polypeptides that cross-reacted with the arylphorin antibody were found in the fat body during and up to 24 hr after the last larval molt and in the tanning pupal cuticle. The larval epidermis was also found to contain a small amount of arylphorin mRNA. At the time of the JH decline prior to the onset of metamorphosis, a female-specific mRNA coding for a 79 K translation product appeared. In allatectomized larvae this mRNA was detectable earlier, and its appearance in intact larvae was prevented by application of methoprene, indicating that JH regulates its appearance. At wandering a new mRNA that also codes for a 79 K polypeptide appeared in both sexes and was the major messenger present during the prepupal stage. Neither it nor the female-specific mRNA were translatable after pupal ecdysis.     

Identification and characterization of a novel postlarval hemolymph protein from Manduca sexta

The identification, purification and characterization of a new postlarval specific hemolymph protein from Manduca sexta is described. Incorporation of [³⁵S]methionine into Manduca sexta hemolymph proteins in vivo was investigated as a function of development. A major protein band of M_r ≈ 50,000 was highly labeled during the prepupal and adult stage but not in feeding larvae. This postlarval protein (PLP) was isolated from adult male hemolymph and its chemical and immunological properties determined. PLP is a basic protein (pI ～8.6). Electrophoresis under denaturing conditions reveals a subunit M_r ≈ 50,000 while the native protein has an apparent M_r ～ 85,000 by gel permeation chromatography. Anti-PLP serum recognized PLP but not other hemolymph proteins on immunoblots. In vitro translation of fat body mRNA followed by immunoprecipitation revealed that fat body is the site of PLP synthesis. Quantitation of PLP levels in hemolymph throughout development was performed and suggests PLP may play a role in adult development of M. sexta.     

Characterization of the proteins from Melanoplus bivittatus that bind juvenile hormone, and a refined EFDA photolabeling technique.

1. Juvenile hormone (JH) is specifically bound by a protein from hemolymph and fat body cytosol of the grasshopper, Melanoplus bivittatus. 2. This protein has a native molecular weight of 331,000 and subunits of 77,000. 3. Proteins that bind JH were covalently photolabeled with a JH analog, epoxyfarnesyl diazoacetate (EFDA). Samples were irradiated in spot plates and hydroxyapatite was used to separate bound from free [3H]EFDA. Differential solubilization was used to extract unlinked [3H]EFDA and solubilize [3H]EFDA linked to protein. 4. Hemolymph proteins of M(r) 479,000, 240,000 and 77,000 also bound [3H]EFDA. 5. Proteins that bound [3H]EFDA were not vitellogenins.     

Juvenile hormone acid synthesis and HMG-CoA reductase activity in corpora allata of Manduca sexta prepupae

Corpora allata (CA) of last instar larvae of Manduca sexta switch from juvenile hormone (JH) to JH acid secretion just before the onset of wandering behavior. JH acid secretion peaked during the prepupal period and ceased prior to pupal ecdysis. HMG-CoA reductase activity also peaked during the prepupal period and then declined. However, substantial enzyme activity was present in pupal and pharate adult glands. Removal of the brain at the wandering stage caused a reduction in JH acid secretion by prepupal CA. The profile of HMG-CoA activity in CA of debrained larvae resembled that of sham-operated larvae except that the prepupal peak was smaller than in control larvae. Addition of brain extracts to CA maintained in vitro neither stimulated not inhibited JH acid secretion and HMG-CoA reductase activity. It is suggested that the brain regulates CA activity in post-wandering stages via intact nerves.     

Stimulation of vitellogenin production by methoprene in prepupae and pupae of manduca sexta

Denaturing electrophoresis of hemolymph from prepupae of M. sexta showed trace amounts of polypeptides with mobilities corresponding to those of vitellogenin (Vg) apoproteins from adult females. Absence of the polypeptides in allatectomized insects suggested regulation by juvenile hormone (JH). Daily administration of 10 μg of the JH analog methoprene from day 4 of the fifth stage to day 0 of the pupal stage caused accumulation of these polypeptides. They were identified as apovitellogenins (apoVgs) immunochemically with Vg antiserum. Stimulation of Vg in response to methoprene varied with age. In all cases, day 0 female pupae were highly responsive. Vg synthesis was not stimulated when pupae were injected with 20-hydroxyecdysone (20-HE) in addition to methoprene. Methoprene-stimulated Vg synthesis was also abolished by inhibitors of mRNA or protein synthesis (α-amanitin, actinomycin, cycloheximide). This result indicated that methoprene-stimulated Vg accumulation requires gene expression. A Vg cDNA (2.1 kb) obtained by immunoscreening of the λgt 11 library, when used as a radiolabelled probe, hybridized with a 5.1 kb mRNA from total RNA of female fat body. It also hybridized with fat body RNA of normal prepupae and methoprene treated day 0 pupae but not with that of early fifth instars or solvent control pupae. The results indicate that the trace amounts of Vg found in prepupal stages are due to a weak expression of the Vg gene, which is stimulated by JH and repressed by 20-HE. © 1994 Wiley-Liss, Inc.     

Drosophila salivary gland proteins and pupation

Pulse-labeling experiments of salivary glands from the prepupal stages of development showed selectively high rates of synthesis of a set of low molecular weight proteins (6K–12K). These proteins are stably maintained in the salivary glands during prepupal development and are subsequently transported to the pupation fluid (found between the pupal case and the prepupal cuticle) when pupation occurs. These small polypeptides are very basic with the major components having isoelectric points of 8.6–8.7 and the minor components having isoelectric points of 9.1–9.5. This study shows the continuing function of the salivary glands—specifically, the synthesis and secretion of a set of proteins with a putative role in pupation.     

Juvenile hormone binding components of locust fat body

Juvenile hormone (JH) binding components from the fat body of the African migratory locust were analyzed in a search for a potential nuclear JH receptor. Biosynthetically prepared 10R[³H]JH III gave a high proportion of specific binding to isolated nuclei and extracted proteins; data obtained with the JH analogs, [³H]methoprene and [³H]pyriproxyfen, on the other hand, were obscured by abundant non-specific binding. The vast majority of the high affinity JH III binding activity present in cytosolic and nuclear extracts was due to a high molecular weight JH binding protein (JHBP) which has previously been identified in locust hemolymph. This protein has several chromatographic forms which interfered in the search for a nuclear JH receptor. When specific antiserum was used to remove JHBP from nuclear extracts, a novel JH binding activity (NBP) was detected. NBP could be separated from JHBP by precipitation with ammonium sulfate. NBP displayed a high affinity for JH III (Kd = 0.25 nM) and JH I and JH II competed strongly for JH III binding, whereas methoprene and pyriproxyfen showed apparent competition when present in 1,000-fold excess. NBP was present in nuclear extracts at approximately 25,000 sites per cell; levels were similar in male and female locusts and were not greatly affected by the presence or absence of JH. The characteristics of NPB make it a strong candidate for a nuclear JH receptor. © 1995 Wiley-Liss, Inc.     

Hormonally-regulated differential expression of the two duplicated insecticyanin genes,ins-a and ins-b,during development of the tobacco hornworm,Manduca sexta

The effects of juvenile hormone (JH) and 20-hydroxyecdysone (20E) on the developmental expression of the two insecticyanin genes, ins-a and ins-b, were investigated with two gene-specific probes. Removal of the corpora allata (-CA, source of JH) clearly delayed and down-regulated the epidermal expression of these genes but enhanced their expression in the fat body during the early development of the fifth instar. Application of JH I to the -CA larvae at the time of head capsule slippage completely restored the normal epidermal expression pattern of the two genes in the early fifth instar, then INS-a mRNA declined prematurely whereas INS-b mRNA remained similar to that in the intact larvae. By contrast, in the fat body of -CA larvae, the exogenous JH had little effect on the levels of INS-a mRNA, but enhanced expression of INS-b mRNA relative to intact larvae. Culture of epidermis from day 1 fifth instar larvae with 40 ng/ml 20E for up to 24 h accelerated the loss of INS-a mRNA without affecting the levels of INS-b mRNA. Both mRNAs declined in isolated larval abdomens over a 24 h period, and this decline was slowed by 1 g methoprene (a JH analog). Together these results indicate that JH controls the levels of the two mRNAs in both the epidermis and fat body, with additional factors involved in regulating these genes in the fat body during the molt and in the epidermis during the growth phase.     

Sequential gene activation by ecdysone in polytene chromosomes of Drosophila melanogaster. VI. Inhibition by juvenile hormones.

In the salivary gland chromosomes of late-third instar larvae and in late (8- to 12-hr) prepupae of Drosophila melanogaster, there are ecdysone-induced sequences of puffing patterns which can be reproduced in vitro. These two sequences are separated by a period when the glands are thought to be exposed to a low titer of β-ecdysone and during which they acquire the competence to respond to ecdysone at the late prepupal puff sites. Attempts to modify either the late larval or the late prepupal responses to ecdysone in vitro by the simultaneous addition of juvenile hormone (JH) with ecdysone, to larval or prepupal glands, respectively, are unsuccessful. If, however, JH (ca. 10^?6M) is added to larval glands cultured 6 hr in ecdysone and then 3 hr in JH alone, the subsequent induction of prepupal ecdysone puffs is inhibited. Thus the role of JH appears to lie in modifying the acquisition of competence to respond to ecdysone rather than in a direct antagonism between the two hormones.     

mRNA changes during imaginal determination of the epidermal cells in the pupa ofGalleria mellonella L

Summary Changes in the mRNA population of the mesonotal epidermal cells were investigated inGalleria mellonella during the first 48 h after pupation. Total RNA was extracted and assayed by in vitro translation. The translational products were separated by sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) and visualized by autoradiography. The changing banding pattern of the in vitro synthesized proteins indicates changes in the cellular pattern of mRNAs, most of which occur between 6 h and 18 h after pupal ecdysis. These changes mostly consist in the decrease or disappearance of bands. The injection of juvenile hormone (JH) immediately after pupal ecdysis does not qualitatively influence mRNA changes, but does alter their time course, for they are postponed for 6–12 h. After the injection of 20-hydroxyecdysone (20HE) the same changes can again be seen, but they are greatly accelerated. A comparison of these results with known data on the time course of reprogramming and ecdysteroid titre leads to the conclusion that the mRNA changes in the epidermal cells are a prerequisite for the renewed expression of a developmental programme. This is independent of whether, in the absence of JH, a new programme is determined or whether, under the influence of JH, the previous programme is restored. 20HE does not have any effect on the change in the developmental programme. The change seems to occur as an active and autonomous process in the epidermal cells, in accordance with a genetically fixed developmental programme.     

Juvenile hormone metabolism in the plasma,integument, midgut,fat body,and brain during the last instar of the tobacco hornworm,Manduca sexta (L.)

Juvenile hormone (JH) III esterase and JH III epoxide hydrolase activity was found in the integument, midgut, fat body, and brain during last instar development of the tobacco hornworm, Manduca sexta. JH esterase activity was primarily located in the cytosol in these tissues while the majority of the JH epoxide hydrolase activity was found in the microsomes. A prewandering (on day 3) and postwandering (on day 8) peak in plasma JH III esterase activity occurs in the last instar of gate I M. sexta. The JH esterase activity profile in integument, midgut, fat body, and brain followed a similar pattern to that of the plasma. The only exception to this was the absence of the postwandering, prepupal (on day 8) JH esterase peak in the fat body. The topical application of the juvenoid, (RS)-methoprene, failed to induce fat body JH esterase activity but increased activity in the plasma, integument, midgut, and brain in M. sexta prepupae. These results indicate that the source of plasma JH esterase activity is not always the fat body as previously hypothesized. The developmental profile of tissue JH epoxide hydrolase activity was also similar to that of JH esterase suggesting that both enzymes may be regulated partly by the same factors and that JH epoxide hydrolase may also have an important, previously unrecognized functional role in JH regulation and insect metamorphosis. Multiple isoelectric forms of tissue-specific JH esterases and JH epoxide hydrolases were found in integument, midgut, fat body, and brain. The JH esterases in these tissues had isoelectric points more acidic than that for plasma. Tissue α-naphthyl acetate esterase, developmental profiles, and inhibitor sensitivity to 3-(octylthio)-1,1,1-trifluoropropan-2-one differed significantly from that for JH esterase, suggesting that they represent different enzymes. ©1992 Wiley-Liss, Inc.     

Juvenile hormone modulates 20-hydroxyecdysone-inducible ecdysone receptor and ultraspiracle gene expression in the tobacco hornworm, Manduca sexta

 Insect molting and metamorphosis are orchestrated by ecdysteroids with juvenile hormone (JH) preventing the actions of ecdysteroids necessary for metamorphosis. During the molt and metamorphosis of the dorsal abdominal epidermis of the tobacco hornworm, Manduca sexta, the isoforms involved in the ecdysone receptor (EcR)/Ultraspiracle (USP) complex change with the most dramatic switch being the loss of USP-1 and the appearance of USP-2 during the larval and pupal molts. We show here that this switch in USP isoforms is mediated by high 20-hydroxyecdysone (20E) and that the presence of JH is necessary for the down-regulation of USP-1 mRNA. The decrease of USP-1 mRNA in day 2 fourth instar larval epidermis in vitro required exposure to a high concentration (10^–5 M) of 20E equivalent to the peak ecdysteroid concentration in vivo, whereas the increase of USP-2 mRNA occurred at lower concentrations (effective concentrations, EC₅₀=6.3×10^–7 M). During the pupal molt of allatectomized larvae which lack JH, USP-2 mRNA increased normally with the increasing ecdysteroid titer, whereas USP-1 mRNA remained high until pupation. When day 2 fifth instar larval epidermis was exposed to 500 ng/ml 20E in the absence of JH to cause pupal commitment of the cells by 24 h, USP-1 RNA remained at its high preculture level for 12 h, then increased two- to threefold by 24 h. The increase was prevented by the presence of 1 μg/ml JH I which also prevents the pupal commitment of the cells. By contrast, USP-2 mRNA increased steadily with the same EC₅₀ as in fourth stage epidermis, irrespective of the presence or absence of JH. Under the same conditions, mRNAs for both EcR-B1 and EcR-A isoforms were up-regulated by 20E, each in its own time-dependent manner, similar to that seen in vivo. These initial mRNA increases were unaffected by the presence of JH I, but those seen after 12 h exposure to 20E were prevented by JH, indicating a difference in response between larvally and pupally committed cells. The presence of JH which maintained larval commitment of the cells also prolonged the half-life of the EcR proteins in these cells. These results indicate that both EcR and USP RNAs are regulated by 20E and can be modulated by JH in a complex manner with only that of USP-2 apparently unaffected. Received: 16 July 1998 / Accepted: 5 August 1998     

Estimation of Fractional Turnover Rate of Aldolase in Skeletal Muscle of the Adult Rat by Simultaneous Administration of Glutamic Acid-1 -14C and Glutamic Acid-3-3H

The spc operon of Escherichia coli encodes 11 ribosomal proteins and SecY. The secY gene and downstream rpmJ encoding a ribosomal protein, L36, are located distal to the promoter of the spc operon. It has been suggested that the stability of SecY mRNA depends on rpmJ unless a ρ-independent terminator is inserted immediately downstream of secY. Moreover, it has been suggested that RpmJ is dispensable for E. coli. We constructed rpmJ null strains, AY101 (ΔrpmJ::tetA) and AY201 (ΔrpmJ::cat), by replacing rpmJ with tetA, which encodes a membrane protein responsible for tetracycline-resistance, and cat, which encodes a cytoplasmic chloramphenicol acetyltransferase, respectively. Depletion of RpmJ did not inhibit protein synthesis, whereas the growth of AY101 was defective at high temperatures. The level of SecY mRNA decreased significantly in both disruptants even though the ρ-independent terminator was inserted immediately downstream of secY. Some periplasmic proteins were missing in the disruptants with a concomitant increase in the amount of phage shock protein in the inner membrane. These phenotypes caused by the rpmJ null mutation were corrected by a plasmid carrying secY, but not by one carrying rpmJ.     

运用 mRNA 体外展示技术筛选胸苷酸合成酶 RNA 亲和肽

以体外选择方法筛选不同功能的核酸、肽和蛋白质是近年的研究热点, mRNA 体外展示是一种新兴的高效多肽选择技术,其基本原理是通过含嘌呤霉素寡核苷酸的 Linker 使 mRNA 与它编码的肽或蛋白质共价结合,形成 mRNA- 蛋白质融合体,这一方法已用于多种功能肽的鉴定 . 以 mRNA 体外展示技术进行了由大容量多肽库中 (>1013) 筛选胸苷酸合成酶 (thymidylate synthase , TS) RNA 亲和肽的研究,通过精密的实验设计,建立了一套完整有效的筛选方法,并对实验条件进行了优化 . 已进行了 8 轮筛选,结果表明,以 mRNA 体外展示技术获得的多肽分子,可以与 TS mRNA 亲和 . 将测序结果与初始肽库进行比较,发现亲和肽中碱性氨基酸及芳香族氨基酸含量明显增加,说明其在与 RNA 结合中具有重要作用 . mRNA 展示技术作为一种大容量文库的体外筛选方法,将广泛应用于与固定化靶物质具高度亲和性及特异性的多肽和蛋白质的筛选 .