The <Emphasis Type="Italic">ecdysoneless</Emphasis><Superscript>1</Superscript> Gene Regulates Metabolism of the Juvenile Hormone and Dopamine in <Emphasis Type="Italic">Drosophila melanogaster</Emphasis>

The dopamine (DA) content and the level of juvenile hormone (JH) degradation were studied in females of the wild-type Canton S strain and the ecdysoneless ¹ (ecd ¹) mutant, which does not produce ecdysone at a restrictive temperature (29°C). Exposure at the restrictive temperature considerably increased the JH-hydrolyzing activity and the DA content in five-day ecd ¹ females compared with flies of both strains growing at 19°C and Canton S females exposed at 29°C. In one-day ecd ¹ females, the level of JH degradation also increased at the restrictive temperature, but the DA content was low. The effect of ecdysone deficiency on the stress reaction in Drosophila melanogaster females was studied using changes in DA content and JH degradation as the reaction indicators. The ecd ¹ mutation did not prevent the initiation of the stress reaction in females exposed at the restrictive temperature, but changed its intensity (stress reactivity). The interaction of 20-hydroxyecdysone with JH and DA in regulating Drosophila reproduction under normal conditions and in stress is discussed.     

Developmental requirements for the ecdysoneless (ecd) locus in Drosophila melanogaster

The ecdysoneless locus in Drosophila melanogaster has been defined previously by a single conditional mutation, I(3)ecd¹, that causes an ecdysteroid deficit and larval death at the restrictive temperature, 29°C, although the primary role of the mutation in developmental processes has been unclear. Gene dosage and complementation studies reported here for ecd¹ and five nonconditional lethal alleles indicate that the ecd locus plays prezygotic and postzygotic roles essential for normal embryonic development, the successful completion of each larval molt, adult eclosion, and female fertility. The ecd locus is also required for normal macrochaete differentiation. For each observed phenotype, the severity of mutational effects was correlated with ecd mutant genotypes. In all cases, ecd¹ homozygotes were least affected. Mutants heteroallelic for ecd¹ and any one of four nonconditional recessive mutations were more severely affected than ecd¹ homozy-gotes, revealing these as hypomorphic alleles. For all phenotypic effects, mutants heteroallelic for ecd¹ and a dominant mutation (ecd^3D) were most severely affected. These individuals died during embryogenesis at 29°C and developed no macrochaetes on the dorsal thorax when transferred to 29°C during the white prepupal stage. The ecd^3D mutation also caused female semisterility in heterozygotes. Ecdysteroid regulation has been implicated previously in all the developmental processes disrupted by these ecd mutations except for macrochaete differentiation. © 1993 Wiley-Liss, Inc.     

The in vivo production of Bacillus popilliae var. rhopaea spores

The effect of various factors on the yield of Bacillus popilliae var. rhopaea spores formed in Rhopaea verreauxi larvae have been studied. Lack of adequate food, temperatures above and below 23°C, and infecting doses above 10⁶ spore larva, all significantly lowered spore yield per larva. Larval age had a pronounced effect; second-instar and young third-instar larvae produ ed about 1 × 10¹⁰ spores while old third-instar larvae produced about 4 × 10¹⁰ spores. Incubation of larvae for longer than 4 weeks did not increase spore yield per larva. Yields were similar whether larvae were infected by injection or per os. Three other host species could be used to mass-produce B. popilliae var. rhopaea spores but all were less efficient than R. verreauxi. Milky third-instar R. verreauxi larvae, which were field collected, yielded 1.57 × 10¹⁰ spores per larva.     

Molecular characterization of the Drosophila melanogaster urate oxidase gene, an ecdysone-repressible gene expressed only in the malpighian tubules.

The urate oxidase (UO) gene of Drosophila melanogaster is expressed during the third-instar larval and adult stages, exclusively within a subset of cells of the Malpighian tubules. The UO gene contains a 69-base-pair intron and encodes mature mRNAs of 1,224, 1,227, and 1,244 nucleotides, depending on the site of 3' endonucleolytic cleavage prior to polyadenylation. A direct repeat, 5'-AAGTGAGAGTGAT-3', is the proposed cis-regulatory element involved in 20-hydroxyecdysone repression of the UO gene. The deduced amino acid sequences of UO of D. melanogaster, rat, mouse, and pig and uricase II of soybean show 32 to 38% identity, with 22% of amino acid residues identical in all species. With use of P-element-mediated germ line transformation, 826 base pairs 5' and approximately 1,200 base pairs 3' of the D. melanogaster UO transcribed region contain all of the cis elements allowing for appropriate temporal regulation and Malpighian tubule-specific expression of the UO gene.     

Evidence and bioassay for diuretic factors in the nervous system of larvalHeliothis virescens

Summary Diuretic factors were studied in the central nervous system of larvae of the tobacco budworm,Heliothis virescens, using [¹⁴C]urea as a sensitive indicator for water movement through isolated Malpighian tubules. The assay required Na⁺ and a pH of 6.0–6.2 for maximum activity. Malpighian tubules had high secretory activity in feeding larvae of the fifth instar, but the activity declined during the burrowing-digging stage that preceded pupation. Malpighian tubules from starved larvae showed a greater response to extracts of nervous tissues than did tubules from feeding larvae, and extracts showed a dose-response relationship with fluid secretion. Diuretic activity was distributed throughout all parts of the central nervous system with the brain having the most activity. Brain extracts increased fluid secretion by in vitro Malpighian tubules by more than 3-fold and doubled the rate of dye clearance from the hemolymph in vivo. Diuretic activity in nervous tissue extracts was unaffected by boiling but sensitive to proteases. Fluid secretion by in vitro tubules was increased by cAMP, dbcAMP, theophylline, octopamine and dopa. These studies provide evidence for the presence of diuretic factors in the central nervous system ofH. virescens larvae and describe a sensitive bioassay for these factors.Abbreviations AR activation ratio - cAMP cyclic AMP - dbcAMP dibutyryl cyclic AMP - dbcGMP dibutyryl cyclic GMP - Dopa dihydroxyphenylalanine - 5-HT 5-hydroxytryptamine - L1 larval instar - VCNS ventral central nervous system     

Developmental study of thermotolerance and the heat shock response inLucilia cuprina (Weidemann)

The ability to withstand thermal stress in a laboratory population of the blowflyLucilia cuprina (measured as per cent adult survival following varying periods of exposure to elevated temperature up to a maximum of 48°C) was in the order pupa > larva > adult. Pre-exposure to a mild heat shock (37°C) induced tolerance to temperatures which were otherwise lethal. An analysis of heat shock-induced protein synthesis during development at similar elevated temperatures presented patterns corresponding to the above observations on thermotolerance. The induced level of synthesis of major heat shock proteins (viz., 79, 69, 28, 20 and 19 kDa) were greater in larval tissues than in most of the adult tissues except gonads. The response varied between young (2 days) and old (30 days) adults in a tissue-specific manner. In general, heat shock protein 69 kDa was most abundant in all the tissues studied. Control as well as heat shocked Malpighian tubules of adults uniquely showed two major [³⁵S]methionine labelled bands corresponding to approximately 62 and 64 kDa. Immunoblots showed the 62 kDa protein to cross react with an antibody againstHelioihis HSP60. Although the synthesis of the 62 kDa polypeptide was prominent only in Malpighian tubules of adult blowflies, nearly equal levels of this HSP60 family polypeptide were present in all tissues (control as well heat shocked) except the larval salivary glands.     

Hormonally regulated expression of arginine kinase in Drosophila melanogaster

Summary Arginine kinase (AK) is present throughout the life cycle of Drosophila melanogaster, but there is a sharp, transient peak of AK activity during the prepupal period and a second period of elevated activity at the time of eclosion of the adult. Imaginal discs show the greatest increase in AK activity at the prepupal stage of those tissues assayed. The prepupal peak is not seen when the temperature-sensitive ecdysoneless mutant ecd-1 is shifted to 29° C at mid-third instar larval stage. The peak in activity reappears when ecd-1 is either shifted back to 20° C after 60 h at 29° C or is fed 20-hydroxyecdysone. At the restrictive temperature, imaginal discs from ecd-1 larvae progressively lose AK activity, whereas discs from 20-hydroxyecdysone-fed larvae have a marked increase in AK activity at stage P3 of the prepupal period. These data suggest that the prepupal peak is regulated by the hormone 20-hydroxyecdysone.     

The control of Malpighian tubule developmental physiology by 20-hydroxyecdysone and juvenile hormone

The control of developmental changes in Malpighian tubule cell structure and fluid secretion by 20-hydroxyecdysone and juvenile hormone in the skipper butterfly Calpodes ethlius were studied using (1) in vitro tissue culture, (2) in vivo injection and topical application and (3) tubule transplantation experiments. At pupation, 20-hydroxyecdysone initiates cell remodelling and switches off fluid secretion in the Malpighian tubules. Juvenile hormone inhibits these alterations provided that treatment is begun on the first day of the last larval stage. In the pupal stage, 20-hydroxyecdysone triggers the differentiation of adult cell structure which culminates in the renewal of fluid secretion. The results show that 20-hydroxyecdysone and juvenile hormone regulate Malpighian tubule function by altering cell structure and are discussed with respect to the hormonal reprogramming of the Malpighian tubule cells during development.     

Toxicity of argemone oil: Effect on hsp70expression and tissue damage in transgenic Drosophila melanogaster(hsp70-lacZ) Bg 9

The effect of argemone oil on hsp70expression and tissue damage was investigated by studying β-galactosidase activity, Western blotting and hybridization, and trypan blue staining in the larval tissues of transgenic Drosophila melanogaster(hsp70-lacZ)Bg ⁹. Different concentrations of argemone oil were mixed with food and third-instar larvae were allowed to feed on them for different time intervals (2, 4, 24, and 48 h). Argemone oil was found to induce hsp70even in the lowest concentration of the adulterant while maximum tissue damage was observed in the higher two treatment groups. Malpighian tubules and midgut tissue reflected maximum damage as evidenced by both high β-galactosidase activity and trypan blue staining in these tissues. A prior temperature shock treatment to the larvae was enough to protect the larvae from argemone oil-induced tissue damage as evidenced by little or no trypan blue staining. The present study suggests the cytotoxic potential of argemone oil and further strengthens the evidence for the use of hsp70as a biomarker in risk assessment. This revised version was published online in August 2006 with corrections to the Cover Date.     

The potential of Chrysopa carnea as a biological control agent of Myzus persicae on glasshouse chrysanthemums

Larvae of C. carnea lived for 13-4 days at 21·1°C and consumed an average of 385 second-instar Myzus persicae or 425 Aphis gossypii. At 15·5°C the larval lifespan was 29·5 days though the consumption of M. persicae was hardly affected. M. persicae developing on glasshouse chrysanthemum plants were eliminated by the introduction of 1-day-old larvae at aphid: chrysopid ratios up to 50:1; third-instar larvae achieved control at a ratio of 200:1. At very low aphid densities control was less effective. Control by C. carnea of aphid populations developing on glasshouse chrysanthemums can be predicted mathematically.     

The physiological response of larval <Emphasis Type="Italic">Chironomus riparius</Emphasis> (Meigen) to abrupt brackish water exposure

The physiological response of larval Chironomus riparius was examined following direct transfer from freshwater (FW) to brackish water (BW; 20% seawater). Endpoints of hydromineral status (hemolymph Na⁺, Cl⁻, and K⁺ levels, hemolymph pH, body water content, and whole body Na⁺/K⁺-ATPase and V-type H⁺-ATPase activity) were examined 1, 3, 5, 12 and 24 h following BW transfer. Larvae transferred from FW to FW served as a control. Hemolymph Na⁺ and Cl⁻ levels increased following BW transfer. Hemolymph pH was initially regulated, but significantly decreased after 24 h in BW. Changes in hemolymph ions were not caused by osmotic loss of water from the hemolymph, since larvae tightly regulated total body moisture content. Furthermore, salinity did not affect hemolymph K⁺. When larvae were transferred to BW, Na⁺/K⁺-ATPase (NKA) activity did not significantly alter relative to FW control animals. In contrast, V-type H⁺-ATPase (VA) activity in C. riparius significantly decreased in BW. In FW-reared C. riparius, whole body NKA and VA activities were equivalent. However, in the isolated gut with intact Malpighian tubules of FW-reared C. riparius, VA activity was significantly greater than whole body while NKA activity was equivalent. This suggested that gut and/or Malpighian tubule VA activity contributes significantly to whole body VA activity and that a decline in whole body VA activity in BW may be closely linked to alterations in the physiology of gut and Malpighian tubule tissue. Taken together, data indicate that VA is important for ion uptake in FW and that the NKA does not play a major role in regulating ion homeostasis when larvae are acutely exposed to BW.     

An ultrastructural analysis of the ecdysoneless ((l(3)ecd 1ts) ring gland during the third larval instar of Drosophila melanogaster

Summary In the late third larval instar of Drosophila melanogaster, the prothoracic gland, an endocrine portion of the ring gland, synthesizes ecdysteroids at an accelerated rate. The resultant ecdysteroid titer peak initiates the events associated with metamorphosis. The normal prothoracic gland displays several ultrastructural features at this developmental stage that reflect increased steroidogenic activity, including extensive infoldings of the plasma membrane (membrane invaginations) and an increase in both the concentration of smooth endoplasmic reticulum (SER) (or transitional ER) and elongated mitochondria. By contrast, the prothoracic glands of larvae homozygous for a conditional larval lethal mutation, l(3)ecd ^1ts, not only fail to produce ecdysteroids at normal levels at the restrictive temperature (29° C), but also acquire abnormal morphological features that reflect the disruptive effects of the mutation. These abnormalities include an accumulation of lipid droplets presumed to contain sterol precursors of ecdysteroids, a disappearance of SER and a drastic reduction of membrane invaginations in the peripheral area of the cell. These morphological defects are observed in prothoracic glands dissected from larvae transferred from 18° C to 29° C approximately 24 h before observation and also within 4 h of an in vitro transfer to 29° C following dissection from wandering third instar larvae reared at 18° C. No ultrastructural abnormalities were noted in the corpus allatum portion of mutant ring glands. These observations further indicate the direct involvement of the ecd gene product in ecdysteroid synthesis and suggest a role for the gene in the proper transport of precursors to the site where they can be utilized in ecdysteroid biosynthesis.     

Structure and activity of salivary gland chromosomes of Drosophila gibberosa

In Drosophila gibberosa the maximum secretory output of the salivary glands is in the prepupa rather than in the late third-instar larva. Using salivary chromosome maps provided here we have followed puff patterns from late second-instar larvae through the time of histolysis of the salivary glands 28–32 h after pupariation and find low puff activity correlated with low secretory activity throughout much of the third larval instar. Ecdysteroid-sensitive puffs were not observed at the second larval molt but do appear prior to pupariation initiating an intense cycle of gene activity. The second cycle of ecdysteroid-induced gene activity a day later, at the time of pupation, appears somewhat damped, especially for late puffs. Salivary chromosome maps provided here may also be used to identify homologous loci in fat body, Malpighian, and midgut chromosomes.     

Analysis of metamorphosis in Drosophila melanogaster: Characterization of giant,an ecdysteroid-deficient mutant

The mutant allele giant of Drosophila melanogaster affects the timing and the level of increase in ecdysteroid titer normally occurring at puparium formation. The third larval instar is extended by 4 days in phenotypically “giant” individuals during which the imaginal discs mature slower than normal and finally take on the folding pattern characteristic of maturity at a time when normal individuals have already formed puparia. After puparium formation, development occurs at the same rate in giant and wild-type animals. Feeding 20-hydroxyecdysone at 94 hr after oviposition allows giant larvae to develop at the same rate as wild-type larvae and to produce normal-sized adults (although at 94 hr the imaginal discs of giant lack much of the folding pattern of mature discs). Radioimmunological determination of ecdysteroid titers in giant and normal individuals indicates that the peak of ecdysteroid activity associated with puparium formation is lower in giant and occurs 4 days later than normal. These results indicate that giant is an ecdysteroid-deficient mutant with major effects on metamorphosis. Unlike previously reported ecdysteroid-deficient mutants, however, giant larvae eventually develop into adults and may be induced to undergo complete metamorphosis at the same time as wild type by feeding 20-hydroxyecdysone.     

Alterations in the production of hemocytes due to a neoplastic mutation of Drosophila melanogaster

The hemocytes of a genetically induced, temperature-sensitive lethal mutation of Drosophila, Tum¹, were examined both quantitatively and qualitatively during the third larval instar. At the tumor-permissive temperature, 29°C, there was a fourfold increase in the concentration of circulating hemocytes in mutant larvae as compared to control. Additionally, the relative frequency of lamellocytes was 30 times greater in Tum¹ larvae than Basc in the early third instar. However, the severity of this abnormality gradually diminished as Tum¹ approached pupariation; though high frequencies of lamellocytes were always present. At the tumor-restrictive temperature (15°C) the concentration of circulating hemocytes was over twice that found at 29°C for Tum¹ larvae, and did not change during the course of third instar. However, in contrast to 29°C there was no abnormal increase in the frequency of lamellocytes at the tumor-restrictive temperature. Control larvae had equivalent concentrations of hemocytes at both temperatures. In one of two temperature shift experiments, Tum¹ larvae shifted from 15° to 29°C at the beginning of third instar expressed the abnormal hemocyte concentration and differentiation associated with larvae raised continuously at 29°C. In addition, Tum¹ larvae shifted from 29° to 15°C expressed reduced abnormalities of hemocyte differentiation, e.g., with fewer lamellocytes in circulation. The possibility of a temperature-sensitive period for the activation of the Tum¹ gene is discussed.     

A novel milky disease organism from Australian scarabaeids: Field occurrence,isolation, and infectivity

A novel milky disease organism has been found causing disease in Aphodius tasmaniae and other scarabaeid larvae in the field in Australia. The sporangium is exceptionally long, measuring 10.5 × 1.5 μm, with a small central spore, measuring 1.0 × 0.6 μm. The vegetative cell is about half the size of the sporangium. The disease was easily transmitted by injection of spores into the hemocoel, with typically milky symptoms developing in 2–4 weeks. Spores will form in vivo at temperatures down to 12°C. For A. tasmaniae third-instar larvae, the ID₅₀ by injection was 3 × 10² spores/larva, yet no infection resulted when larvae were reared in peat containing up to 10⁸ spores/g, i.e., the disease was not successfully transmitted per os. All 10 species of scarabaeids tested were susceptible to the disease when spores were injected; however, all attempts to infect larvae per os were unsuccessful. In vitro culture was also unsuccessful.     

ECDYSTEROIDS IN THE LARVA OF HAEMAPHYSALIS LONGICORNIS NEUMANN (ACARI: IXODIDAE)*

Abstract The ecdysteroids (ECs) concentration and their components in the larvae of Haemaphysalis longicornis were determined by radioimmunoassay (RIA) and high performance liquid chromatography (HPLC). ECs ware found in feeding and engorged larvae and absent in unfed larvae. During feeding and the first 3 days after engorgement, ECs were in low level (less than 14. 35pg EE /larva). On the 5th day, they began to increase sharply (29. 87pg EE /larva) and reached their peak (56. 04pg EE /larva) on the 7th day. Then they declined to low value again (19. 38pg EE /larva). HPLC analysis revealed that the ECs components of the RIA peak could be 20-hydroxyecdysone (20E) and ecdysone (E) on the ratio of 20E: E = 3. 07: 1, which meant 20E was probably the main effective hormone.     

Malpighian tubules of larval Aedes aegypti are hormonally stimulated by 5-hydroxytryptamine in response to increased salinity

Two environmental parameters, feeding status and salinity, are expected to affect water and ion balance of the aquatic larvae of Aedes aegypti. Evidence was obtained for regulation of Malpighian tubule fluid secretion rates in response to changes in each of these parameters. Exposure to increased salinity induces release into the hemolymph of material with diuretic effects on Malpighian tubules. Diuretic material is present in hemolymph of larvae raised in higher salinities, rapidly appears in the hemolymph of larvae following transfer from dilute water to higher salinity, and rapidly disappears from the hemolymph following transfer from higher salinity to dilute water. Feeding status affects diuretic properties of both hemolymph and Malpighian tubules. Feeding causes hemolymph to become diuretic relative to hemolymph from nonfeeding larvae. Malpighian tubules removed from feeding larvae have greater basal fluid secretion rates and also appear to have greater maximal fluid secretion capacity than do tubules removed from nonfeeding larvae. Larval hemolymph [5-HT] was found to increase fivefold in response to elevated salinity but was unaffected by feeding status. Methiothepin, a 5-HT receptor antagonist, inhibited stimulation of fluid secretion by 5-HT and blocked the diuretic effects of hemolymph from larvae exposed to higher salinity but was without effect on stimulation of fluid secretion by diuretic peptide. During the course of this investigation, a preliminary pharmacological characterization of the 5-HT receptor on Aedes Malpighian tubules, suggesting that this receptor may be pharmacologically distinct from other described insect 5-HT receptors, was obtained. Arch. Insect Biochem. Physiol. 34:123–141, 1997. © 1997 Wiley-Liss, Inc.     

Number of Malpighian Tubules in Larvae and Adults of Stingless Bees (Hymenoptera: Apidae) from Amazonia

The number of Malpighian tubules in larvae and adults of bees is variable. Larvae of Apis mellifera L. have four Malpighian tubules, while adults have 100 tubules. In stingless bees, this number varies from four to eight. The objectives of this study were to provide characteristics of the Malpighian tubules as well as to quantify their number in larvae and adults of six species of Meliponinae, Melipona seminigra merrillae Cockerell, Melipona compressipes manaosensis Schwarz, Melipona rufiventris Lepeletier, Scaptotrigona Moure, Frieseomelitta Ihering, and Trigona williana Friese. Malpighian tubules were dissected from larvae and adults, measured, quantified, and maintained in microtubes with Dietrich??s solution. The numbers of Malpighian tubules were constant only for larvae of M. rufiventris (four and eight) and Scaptotrigona sp. (four). The most frequent number of tubules in the Melipona group was seven and eight in larvae, and 70 and 90 in adults. In the Trigona group were four and 20 to 40, for larvae and adults, respectively. The results showed differences in the number of Malpighian tubules among the species analyzed and also between the larvae and adults of the same species. Despite the variation observed, species of the group Melipona always have a larger number and longer Malpighian tubules in both larvae and adults as compared to the Trigona group, which may indicate an evolutionary trend of differentiation between these groups.