Regulation of dopa decarboxylase gene expression in the larval epidermis of the tobacco hornworm by 20-hydroxyecdysone and juvenile hormone

Dopa decarboxylase (DDC) which converts dopa to dopamine is important for cuticular melanization and sclerotization in insects. An antibody to Drosophila DDC was found to precipitate both DDC activity and a 49-kDa polypeptide synthesized by the epidermis of molting Manduca larvae. Using the Drosophila DDC gene, we isolated the Manduca DDC gene which on hybrid selection produced a 49-kDa translation product precipitable by the Drosophila DDC antibody. The 3.1-kb DDC mRNA appeared 12 hr after head capsule slippage (HCS) and reached maximal levels 7 hr later. Peak expression was twofold higher in melanizing allatectomized larvae and could be depressed to normal levels by application of 0.1 micrograms juvenile hormone I at HCS. Infusion of 1 microgram/hr 20-hydroxyecdysone (20-HE) for 18 hr beginning 2 hr after HCS or addition of 1 microgram/ml 20-HE to the culture medium for 24 hr prevented the normal increase in DDC mRNA. When Day 2 fourth instar epidermis was explanted before the molting ecdysteroid rise and cultured with 1-3 micrograms/ml 20-HE for 17 hr and then for 24 hr in hormone-free medium, DDC expression was three- to fourfold higher than that in epidermis cultured in the absence of hormone. Twelve or more hours of incubation with 20-HE was required for an increase in DDC mRNA, but continuous exposure to 20-HE prevented the increase. In all cultures an initial rapid increase in DDC mRNA was observed which decayed with time in vitro and apparently was associated with the wound response. Thus, ecdysteroid during a larval molt is necessary to program the later expression of DDC, but the subsequent decline of the ecdysteroid is required for this expression to occur.     

Regulation of melanization of tobacco hornworm larval cuticle in vitro

When tobacco hornworm larvae (Manduca sexta) are allatectomized 5-6 hr before head capsule slippage in the molt to the fifth (final) larval instar, the new cuticle melanizes 3 hr before ecdysis. After explantation between 7 and 3 hr before the onset of melanization, the new cuticle was found to melanize in vitro in Grace's medium only if beta-alanine was removed. When explanted at the onset of melanization, the presence of beta-alanine had no effect on melanization. The addition of either dopa or dopamine was found to be necessary for complete melanization of pieces explanted before the onset of melanization with 0.3 mM of either dopa or dopamine being optimal. Both of these compounds were incorporated into the cuticular melanin. In this optimal medium, melanization occurred over about a 9-hr period after a 5- to 6-hr lag period presumably required for adjustment to the medium. Fifty ng/ml 20-hydroxyecdysone was found to inhibit melanization of pieces explanted 7 hr but not 3 hr before melanization. The hormone neither inhibited uptake of dopa into the epidermis nor prevented melanization in the cuticle once the prophenoloxidase in the premelanin granules was activated. Therefore, 20-hydroxyecdysone may inhibit the activation of the phenoloxidase in the pre-melanin granules, or may inhibit the incorporation of dopa into the granules.     

Roles of dopa decarboxylase and phenoloxidase in the melanization of the tobacco hornworm and their control by 20-hydroxyecdysone

Summary WhenManduca sexta larvae are allatectomized 5 h before head capsule slippage (HCS) in the final larval molt, the new larval cuticle contains granules that melanize 3 h before ecdysis when the ecdysteroid titer falls (Curtis et al. 1984). In both the epidermis and hemolymph of these allatectomized larvae dopamine was higher than dopa prior to and at the time of melanization. Dopamine also increased in the new cuticle as melanization began. Dopa decarboxylase (DDC) activity increased in the epidermis, cuticle, and fat body beginning 16 h after HCS, with a two-fold greater increase in the epidermis of allatectomized larvae. Both -MDH and -fluoromethyl-dopa inhibited epidermal DDC activity and inhibited melanization in vitro when dopa was used as a precursor. Addition of dopamine to the medium allowed melanization in the presence of the inhibitors. All these results indicate that dopamine is likely the primary precursor of cuticular melanin. The diphenoloxidase in the premelanin granules was activated in vivo between 19 and 21 h after HCS and was found to prefer dopamine to dopa and not to convert tyrosine to melanin. The activation of the prophenoloxidase was inhibited by 20-hydroxyecdysone (20-HE), both in vivo and in vitro, if hormone was given by 16 h after HCS. Infusion of 1.2 g/ml 20-HE into allatectomized larvae for 24 h from HCS prevented both the increase in DDC activity and the activation of the premelanin granules. Although the larvae ecdysed after a 15 h delay, melanization never occurred.Abbreviations -MDH L-3-(3,4 dihydroxyphenyl)-2-hydrazine-methylpropionic acid - -FM-dopa R-S--fluoromethyl-dopa - DCC dopa decarboxylase - 20-HE 20-hydroxyecdysone - JH juvenile hormone - HCS head capsule slippage     

Developmental expression of three genes for larval cuticular proteins of the tobacco hornworm, Manduca sexta

Three cDNA clones coding for the 12.8, 13.3, and 14.6 kDa larval cuticular proteins of the tobacco hornworm, Manduca sexta, were isolated and characterized. Hybridization to abdominal epidermal RNA from different stages showed that the genes for the 12.8 and 13.3 kDa proteins were expressed only during larval life. By contrast, the gene for the 14.6 kDa protein was expressed throughout the segment during the feeding, growing larval stages, then only in the flexible intersegmental regions during the deposition of endocuticle in the pharate pupa and adult. Quantitative RNA dot blot hybridizations showed that the RNA for each protein disappeared during the larval molt when the ecdysteroid titer was high, then reappeared during the preecdysial deposition of endocuticle. All disappeared when the epidermis became pupally committed at the onset of wandering. Exposure of the fourth instar epidermis to 20-hydroxyecdysone (20HE) in vitro under conditions that lead to the formation of a new larval cuticle by 48 hr caused the disappearance of these RNAs by 18 hr. Exposure of Day 2 fifth instar epidermis to 20HE in vitro caused a depression of these RNAs which in the case of the RNAs coding for the 12.8 and 13.3 kDa proteins was partially prevented by simultaneous exposure to methoprene, a juvenile hormone (JH) mimic. By contrast, the RNA for the 14.6 kDa protein was suppressed by exposure to methoprene alone. Thus, each of these larval cuticular genes is turned off by high ecdysteroid; the presence or absence of JH determines whether or not this suppression is permanent in some or all cells.     

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.     

Developmental expression and hormonal regulation of different isoforms of the transcription factor E75 in the tobacco hornworm Manduca sexta

E75A and E75B, isoforms of the E75 orphan nuclear receptor, are sequentially up-regulated in the abdominal epidermis of the tobacco hornworm Manduca sexta by 20-hydroxyecdysone (20E) during larval and pupal molts, with E75A also increasing at pupal commitment (Zhou et al., Dev. Biol. 193, 127-138, 1998). We have now cloned E75C and show that little is expressed in the epidermis during larval life with trace amounts seen just before ecdysis. Instead, E75C is found in high amounts during the development of the adult wings as the ecdysteroid titer is rising, and this increase was prevented by juvenile hormone (JH) that prevented adult development. By contrast, E75D is expressed transiently during the larval and pupal molts as the ecdysteroid titer begins to decline and again just before ecdysis, but in the developing adult wings is expressed on the rise of 20E. Removal of the source of JH had little effect on either E75C or E75D mRNA expression during the larval and pupal molts. At the time of pupal commitment, in vitro experiments show that 20E up-regulates E75D and JH prevents this increase. Neither E75A nor E75D mRNA was up-regulated by JH alone. Thus, E75C is primarily involved in adult differentiation whereas E75D has roles both during the molt and pupal commitment.     

Synthesis of two storage proteins during larval development of the tobacco hornworm, Manduca sexta

Studies of synthesis and accumulation of the two storage proteins arylphorin and female-specific protein (FSP) during the final two larval instars of the tobacco hornworm showed both stage and temporal specificity. Arylphorin was present in both stages, but its synthesis ceased during the molt, during starvation, and at the wandering stage, and then resumed about 24 hr after the onset of feeding. During the larval molt about 25% of injected iodinated arylphorin was incorporated into the newly forming fifth instar cuticle. The cessation of arylphorin synthesis was mimicked by exposure of the fat body to 1 microgram/ml 20-hydroxyecdysone (20HE) in complete Grace's medium or to dilutions of Grace's medium greater than 50%. Lower concentrations of 20HE were ineffective, indicating that the cessation of synthesis in vivo was likely due to a combination of lack of excess nutrients and the hormonal milieu. The female-specific protein was not synthesized until the final larval instar, appearing first in females on Day 2 and later in males at the time of wandering, with synthesis continuing throughout the prepupal period. In vitro studies showed that this protein was synthesized as a 620-kDa protein, and then during secretion a 730-kDa immunoreactive form also appeared. Synthesis of FSP was inhibited by exposure of Day 2 fat body to 1 microgram/ml 20HE for 24 hr. Ligation followed by 20HE infusion showed that the disappearance of FSP from the hemolymph during the prepupal period was controlled by the rising ecdysteroid titer.     

Granular phenoloxidase involved in cuticular melanization in the tobacco hornworm: regulation of its synthesis in the epidermis by juvenile hormone

The granular phenoloxidase (PO) that is responsible for cuticular melanization in Manduca sexta larva was purified and an antibody was prepared. This granular PO was found to consist of four isozymes of 90 kDa with isoelectric points ranging from 5.7 to 5.85. The enzyme was immunologically and electrophoretically distinct from the cuticular wound PO, a second cuticular PO common to all larval cuticle, and the hemolymph PO. Both [14C]mannose and [14C]sialic acid were incorporated into the granular PO, showing that this granular PO was a glycoprotein whose sugar moiety was a complex oligosaccharide. When no juvenile hormone (JH) was present at the head capsule slippage (HCS) stage, the epidermis began synthesizing PO 6 hr later. This epidermal synthesis was maximal 12 hr after HCS at which time the PO appeared in the cuticle, and then synthesis declined. When synthesis ceased about 23 hr after HCS, no further incorporation into the cuticle was observed. As melanization proceeded, immunologically detectable cuticular PO decreased. Application of 0.1 microgram JH I at the time of HCS inhibited synthesis of PO by the epidermis and thus prevented melanization. JH application after PO synthesis had begun (8 hr after HCS) prevented its subsequent synthesis, causing partial melanization. Thus, the absence of JH is necessary during the period of epidermal synthesis of the granular PO to allow complete melanization.     

Developmental expression and spatial distribution of dopa decarboxylase in Drosophila

Regulation of the dopa decarboxylase gene of Drosophila has been studied at the genetic and molecular levels. Here we report a direct assay for the tissue and temporal regulation of Ddc. A dopa decarboxylase (DDC) peptide was obtained by bacterial expression of a portion of the DDC gene in a pUC plasmid. Antisera raised against this biologically purified DDC peptide react specifically with Drosophila DDC in histological preparations and protein blots. The levels of DDC cross-reacting material closely parallel the levels of enzyme activity observed during development, indicating that DDC is degraded during periods of declining activity. We find that DDC is expressed in only two tissues, namely, the epidermis and the nervous system of the larva and adult. Epidermal DDC was found within the epidermal cells and was not detected in the overlying cuticle. DDC-containing neurons were observed in the central as well as in the visceral nervous system. Paired and unpaired midline neurons in the ventral ganglia are arranged in a segmental pattern. A subset of the DDC-positive neurons appears to correlate with the serotonin-positive neurons suggesting that the others are producing only dopamine. We find that the DDC activity associated with the proventriculus and ovary is due to the presence of DDC in the stomatogastric and caudal system neurons specifically associated with those structures.     

Ecdysteroid regulation of the onset of cuticular melanization in allatectomized and Black mutant Manduca sexta larvae

The absence of juvenile hormone at the time of head cap slippage during the last-larval moult of the tabacco hornworm, Manduca sexta, causes deposition of premelanin granules into the outer regions of the newly forming endocuticle beginning 13 h later. These granules were found to contain an inactive phenoloxidase which becomes activated about 9 h later, 4 h before body melanization begins. The onset of melanization was not accelerated by melanization and reddish colouration hormone from Bombyx heads, extracts of pharate-adult corpora cardiaca or pharate-larval ventral nerve cords (sources of eclosion hormone), or extracts of pharate-larval suboesophageal ganglia or corpora cardiaca-corpora allata complexes. Instead the fall of the ecdysteroid titre to below 250 ng/ml 20-hydroxyecdysone equivalents appeared to be the cue that allowed melanization about 4.5 h later. Up to, but not after, this time both melanization and ecdysis could be delayed by exogenous 20-hydroxyecdysone in a dose-dependent fashion above 0.1 μg per larva. In vitro studies published elsewhere indicate that 20-hydroxyecdysone prevents the activation of the premelanin granules. Thus the granules can be deposited at the proper time in the newly forming endocuticle but their melanization is regulated by the declining ecdysteroid titre and it thus synchronized with other events occurring just before ecdysis.     

Haemolymph ecdysteroid levels and cellular events in the intermoult/moult sequence of Calpodes ethlius

The haemolymph ecdysteroid titre of the last larval and pupal stadia of Calpodes ethlius was determined by radioimmunoassay. During the last larval stadium, four significant ecdysteroid peaks are present, two of which have been reported for other Lepidoptera. The first peak occurs 12 hr after ecdysis and correlates temporally with nucleolar activity, RNA synthesis and organelle formation in the fat body and epidermis. It correlates also with fat body DNA synthesis, polyploidy and the initiation of a low rate of lipid synthesis. Another peak, at 78 hr, starts its increase when the prothoracic glands no longer require the influence of the brain to produce ecdysone for pupation, and marks the first critical period. It correlates with the initiation of epidermal DNA synthesis and mitosis, and with the progressive determination of pupal characteristics (change in commitment, reprogramming). This ecdysteroid peak may also be involved in the massive intermoult syntheses in the epidermis (lamellate cuticle, wax) and the fat body (lipid, protein). The largest ecdysteroid peak is seen at 162 hr, 6 hr after the tissues no longer require the prothoracic glands for pupation (second critical period). It correlates temporally with the cessation of massive synthetic activity in both epidermis and fat body and initiates preparation for pupal synthesis in both tissues. At this time the ratio of ecdysone: 20-hydroxyecdysone is ～ 1 : 6.6.In common with other Lepidoptera, a single large ecdysteroid peak occurs during the first half of the pupal stadium. Comparisons between these events and the ecdysteroid titre are made between Calpodes and other insects.     

Control of ommochrome synthesis by both juvenile hormone and melanization hormone in the cabbage armyworm,Mamestra brassicae

Summary Pigmentation of last instar larvae of the cabbage armyworm,Mamestra brassicae is of two types: melanin in the cuticle and ommochrome in the epidermis. The latter was found to be primarily xanthommatin. When allatectomy was performed 8 h before head capsule slippage (HCS) in the last larval molt, later ommochrome synthesis was inhibited. Application of juvenile hormone (JH) up to 12 h after HCS (9 h before ecdysis) (activity: methopreneJH I>JH II>JH III) restored ommochrome synthesis. After that time it has less and less effect.Removal of the suboesophageal ganglion from the larvae 8 h before HCS prevented both later ommochrome synthesis and melanization. Melanization of isolated abdomens was restored by implantation of 3 suboesophageal ganglia or injection of melanization and reddish coloration hormone (MRCH) 18 h after HCS. Restoration of ommochrome synthesis required exogenous JH in addition to melanization hormone from suboesophageal ganglion or MRCH. Therefore, melanization appears to be critical for the later onset of ommochrome synthesis even in a larva which has been exposed to JH during the critical period.Abbreviations CC·CA corpora cardiaca-corpora allata complex - JH juvenile hormone - MRCH melanization and reddish coloration hormone - HCS head capsule slippage     

Regulation of expression of arylphorin and female-specific protein mRNAs in the tobacco hornworm, Manduca sexta

Two non-cross-hybridizing cDNA clones were isolated from a lambda gt11 cDNA library prepared from Day 2 fifth instar female fat body of Manduca sexta and shown by hybrid selection to code respectively for the two storage proteins arylphorin and female-specific protein (FSP). Analysis of the developmental expression of arylphorin showed its presence during the feeding phases of the penultimate (fourth) and final (fifth) larval instars and its absence during the molt. Abdominal ligation of larvae followed by infusion of Grace's medium showed that this amino acid-rich medium was able to maintain arylphorin expression in fourth instar larvae, but not continued high expression in fifth instar larvae. This nutrient medium however was sufficient to allow initiation of expression in newly ecdysed fifth larval abdomens. Infusion of 5 micrograms 20-hydroxyecdysone (20HE) caused a significant reduction of arylphorin RNA in ligated fourth larval abdomens, whereas 50 micrograms was required in Day 2 fifth larval abdomens to suppress this RNA. Thus, both the lack of incoming nutrients and the rising titer of ecdysteroid contribute to the loss of arylphorin mRNA at the molts and at wandering. By contrast, FSP mRNA was first detected in females on Day 2 of the fifth instar, but not in males until wandering, and then was present throughout the prepupal period. In females allatectomy caused the precocious appearance of FSP mRNA which was prevented by application of 10 micrograms methoprene, a juvenile hormone analog. Expression of FSP mRNA in males however appeared to be independent of hormonal milieu.     

Genetic elements near the structural gene modulate the level of dopa decarboxylase during Drosophila development

Summary Measurement of dopa decarboxylase (DDC) levels in 109 strains of Drosophila melanogaster isogenic for second chromosomes isolated independently from natural populations was undertaken. One of the most extreme variants, designated Ddc ⁺⁴, was shown to have about 20% more DDC activity at adult eclosion than a standard laboratory strain used for comparison. The DDC overproduction was shown to segregate with the second chromosome and was mapped to a position within 0.15 map units of the DDC structural gene. The variant was shown to be an underproducer of DDC activity at pupariation and the genetic element responsible for this trait mapped in an identical fashion to that causing overproduction. The temporal phenotype described above was observed in the epidermis but DDC activity levels in neural tissue were normal. Examination of CRM levels at pupariation and eclosion revealed that altered DDC protein levels were responsible for the variant DDC activity levels. Electrophoretic analysis under both denaturing and non-denaturing conditions indicated that the DDC molecules in Ddc ⁺⁴ and the laboratory strain were indistinguishable. These results suggest that alterations in a genetic element (or elements) lying in close proximity to the structural gene are responsible for the complex temporal phenotype of DDC activity exhibited in the variant Ddc ⁺⁴.Abbreviations CRM cross-reacting material - DDC dopa decarboxylase - PTU phenylthiourea     

Positive feedback regulation of prothoracicotropic hormone secretion by ecdysteroid – A mechanism that determines the timing of metamorphosis

When insect larvae have fully grown, prothoracicotropic hormone (PTTH) is released from the brain, triggering the initiation of metamorphic development through stimulation of ecdysteroid secretion by the prothoracic glands. The present study analyzes the mechanism that regulates the occurrence of this PTTH surge. In the silkworm Bombyx mori, the PTTH surge occurs on day 6 of the fifth instar and is preceded by a small rise in hemolymph ecdysteroid titer, which occurs late on day 5. We therefore hypothesized that this rise of ecdysteroid titer is involved in the induction of the PTTH surge. To test this hypothesis, two experiments were conducted. First, a small amount of 20-hydroxyecdysone was injected on day 4, two days before the expected day of the PTTH surge, to simulate the small rise in hemolymph ecdysteroid titer on day 5. This injection led to a precocious surge of PTTH the next day. Next, the hemolymph ecdysteroid titer on day 5 was artificially lowered by injecting ecdysteroid-22-oxidase, which inactivates 20-hydroxyecdysone. After this treatment, the PTTH surge did not occur on day 6 in 80% of the animals. These results indicate that a small rise of the hemolymph ecdysteroid titer plays a critical role in the induction of the PTTH surge. Since basal ecdysteroidogenic activity of the prothoracic glands increases with larval growth, a circulating level of ecdysteroids may convey information about larval maturity to the brain, to coordinate larval growth and metamorphosis. This is the first report in invertebrates to demonstrate positive feedback regulation of the surge of a tropic hormone by a downstream steroid hormone.