Effects of juvenile hormone on polysome integrity

Juvenile hormone inhibits protein and RNA synthesis in cell cultures from Trichoplusia ni and in the testicular germinal cysts of Hyalophora cecropia pupae in vitro. Sucrose gradient analyses revealed that the polysomes of both the T. ni cells and the germinal cysts were disaggregated almost immediately after the addition of juvenile hormone in vitro with a corresponding dose-dependent increase in monosomes. It is suggested that previous reports revealing juvenile hormone inhibition of ecdysone stimulated RNA and protein synthesis may be due to polysome disaggregation. Further studies demonstrated that the effect is not restricted to insect cells and can be elicited by several other lipids devoid of juvenile hormone morphogenetic activity. Experiments with broken cell preparations and isolated polysomes suggest the necessity of cell membrane integrity for the effect on the polysomes. Several probing studies utilizing cycloheximide, ribonuclease, and high K⁺ concentrations were conducted on the means by which juvenile hormone and other lipids may elicit polysome disaggregation.     

Influence of juvenile hormone analogues on reproductive performance in the wasp, Habrobracon juglandis.

Egg production was reduced in adult virgin Habrobracon juglandis females treated topically with either acyclic or aromatic terpenoid ether, analogues of juvenile hormone. The latter type, particularly the compound possessing a 3,4 methylenedioxyphenyl group, was most effective against the wasp. The resulting changes in fecundity were due to interference with vitellogenic activity.The 3,4 methylenedioxyphenyl analogue treatment decreased hatchability in oöcytes exposed during vitellogenesis. Embryonic death in eggs derived from these cells was typified by blocked cleavage division.The relationship between chemical structure and biological activity supports the hypothesis that juvenile hormone analogues may act in part by blocking detoxification mechanisms in treated insects. This in turn, either separately or in combination with direct analogue action, adversely affects reproduction by inhibiting processes involving RNA synthesis.     

Adaptation of a radiochemical assay for juvenile hormone biosynthesis to study caste differentiation in a primitive termite

A radiochemical assay measuring juvenile hormone synthesis by corpora allata incubated in vitro was adapted for use with the termite Zootermopsis angusticollis. Corpora allata from 3–4-day old virgin female neotenic reproductives were used in these studies because this caste showed the highest rates of juvenile hormone synthesis (0.6 pmol h^?1 per pair corpora allata). Juvenile hormone-III synthesis was linear for up to 6 h over the range of concentrations of labelled l-methionine from 27–280 μM. Rates of juvenile hormone synthesis were stimulated up to 10-fold in a dose-dependent manner by the addition of farnesoic acid to the incubation medium. However, the relatively high concentration of 120 μM farnesoic acid reduced the rates of juvenile hormone synthesis. The radiochemical assay was used to determine rates of juvenile hormone synthesis in vitro by corpora allata from larvae with a queen and king vs orphaned larvae. The presence of reproductives resulted in a suppression of larval corpus allatum activity relative to orphaned controls.     

The roles of juvenile hormone and 20-hydroxy-ecdysone during vitellogenesis in isolated abdomens of Drosophila melanogaster

Both juvenile hormone and 20-hydroxy-ecdysone seem to be involved in the regulation of vitellogenesis in Drosophila melanogaster. It is the purpose of this paper to begin to define the functions of these two hormones. Although vitellogenin synthesis does not occur at a high rate in 1-day-old female abdomens isolated from the head and thorax before 0.75 hr after eclosion, both ZR515 (a juvenile hormone analogue) and 20-hydroxy-ecdysone can cause in these preparations vitellogenin synthesis and secretion into the haemolymph. The synthesis and secretion into the haemolymph of all three vitellogenins which are detectable by electrophoresis in sodium dodecyl sulphate-containing gels of polyacrylamide is promoted by both hormones. That result excludes the hypothesis that these two hormones regulate the synthesis of different vitellogenins. A dose-response curve showed that an injection of 0.2 μl of a 10^?6 M 20-hydroxy-ecdysone solution was sufficient to promote vitellogenin synthesis and secretion in isolated abdomens. Ovaries from isolated female abdomens treated with juvenile hormone analogue showed nearly normal amounts of all three vitellogenins and morphologically normal advanced vitellogenic follicles, whereas ovaries from isolated abdomens treated with 20-hydroxy-ecdysone contained little vitellogenin and no vitellogenic follicles. We conclude that under the conditions used, juvenile hormone permits vitellogenin uptake into the oöcyte much more readily than does 20-hydroxy-ecdysone.     

Effects of ecdysone and juvenile hormone on DNA metabolism of imaginal disks of Drosophila melanogaster

Imaginal disks of Drosophila melanogaster isolated en masse and incubated in Robb's tissue culture medium incorporate ³H-thymidine into nuclear DNA. Both α- and β-ecdysone stimulate the rate of ³H-thymidine incorporation into disk DNA. Concentrations of ecdysone that induce complete evagination of disks in vitro cause the initiation of DNA synthesis in some disk cells. Juvenile hormone has no effect on DNA synthesis in control disks. However, juvenile hormone blocks the ecdysone stimulation of DNA synthesis. It is proposed that juvenile hormone and ecdysone act in a balanced fashion to regulate DNA synthesis in imaginal disks.     

Control of juvenile hormone production: the relationship between precursor supply and hormone synthesis in the tobacco hornworm,Manduca sexta

Tissue culture conditions for the production of juvenile hormone by excised corpora allata from the tobacco hornworm, Manduca sexta, were optimized and hormone output was monitored by incorporation of [¹⁴C-methyl]-methionine. Production was moderate in early fifth instar but undetectable in late fifth instar larvae. It was low in pupae, unmeasurable in adult males and high in adult females. Hormone production by glands of adult females was unaffected by the presence in the medium of juvenile hormone III, the hormone analogue, Methoprene, dibutyrylcyclic AMP, dibutyryl cyclic GMP and 25-hydroxycholesterol, an inhibitor of cholesterol synthesis in mammals.The assay of the enzyme 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase in homogenates of corpora allata from M. sexta was optimized and activity in homogenates from animals at various life stages was determined. The correlation between the activity of the enzyme and hormone production by intact glands was excellent in all cases examined except for adult males, which have very high HMG-CoA reductase levels, but produce no hormone.Unlike the HMG-CoA reductase of mammalian tissue, the activity of corpus allatum enzyme is unaffected by Mg²⁺ ATP or fluoride ion, an inhibitor of phosphoprotein phosphatase. The activity is also unaffected by the presence of cAMP, cGMP, IBMX or 25-hydroxycholesterol.     

Effects of alpha amanitin and juvenile hormone analogue (ZR-515) on labelling of RNA and protein in adult Drosophila

Approximately 2% of the RNA molecules of young adult D. melanogaster females is associated with poly(A) sequences. Topical application of juvenile hormone analogue (ZR-515) increased the polyadenylated fraction of RNA to 8%. Alpha amanitin blocked the JHA-induced increase in poly-A containing sequences and suppressed protein synthesis within the first 24 hours of adult life.     

Juvenile hormone III biosynthesis by the larval corpora allata of Manduca sexta

A radioimmunoassay (RIA) for juvenile hormone III has been established which quantifies the biosynthesis of this hormone in vitro by the corpora allata of larvae and pupae of the tobacco hornworm, Manduca sexta. The specificity of the RIA for homologues and metabolites of juvenile hormone III was determined and it was found that the antibody was specific for juvenile hormone III and its acid. The juvenile hormone III RIA activity synthesized in vitro by corpora allata from day-5 last-instar larvae was identified as juvenile hormone III by high pressure liquid chromatography. The kinetics of hormone synthesis by corpora allata from selected stages during larval-pupal development revealed differential rates of synthesis, suggesting that juvenile hormone III may have a hormonal function in the larva and that regulation of its synthesis may occur. The significance of these developmental fluctuations in rates of juvenile hormone III synthesis by the corpora allata is discussed in relation to the haemolymph titres of the hormone.     

The effect of juvenile hormone on prothoracic gland function during the larval-pupal development of Manduca sexta: An in situ and in vitro analysis

The application of juvenile hormone I or ZR 512 to neck-ligated, day-5 fifth instar (V₅) larvae reduced the time to pupation in a dose-dependent manner when compared to neck-ligated controls treated with methyl epoxy stearate. Haemolymph ecdysteroid titres determined by radioimmunoassay (RIA) reflected the ability of juvenile hormone I and ZR 512 to stimulate larval-pupal development, i.e. the ecdysteroid titres were similar to those of normally developing larvae although the ecdysteroid peak elicited by ZR 512 lagged that in the normal titre by 1 day, while that elicited by juvenile hormone I lagged the ecdysteroid peak in normal larvae by 2 days. Neck-ligated V₅ larvae that were untreated ultimately pupated and the haemolymph ecdysteroid peak eliciting pupation in these animals was 7 μg/ml haemolymph, almost double that of normal animals and ZR 512- and juvenile hormone I-treated, ligated larvae. The data indicated that juvenile hormone I does stimulate the prothoracic glands but to determine whether this stimulation was direct or indirect, an in vitro approach was taken. Prothoracic glands from V₅, V₆ and V₇ larvae were incubated in vitro under conditions in which they could be stimulated by prothoracicotropic hormone, and were exposed to concentration of free juvenile hormones I, II, III or ZR 512 ranging from 10^?5M to 10^?10M. In no case were the prothoracic glands stimulated in a dose-dependent manner that would be indicative of hormone activation. Similar results were obtained when juvenile hormone bound to binding protein was incubated with the prothoracic glands. Studies with the acids of the three juvenile hormone homologues revealed them to be ineffective in activating prothoracic glands, although juvenile hormone III acid does appear to inhibit the synthesis of ecdysone by day-0 pupal prothoracic glands. The significance of the latter effect is unknown. It is concluded from these data that juvenile hormone can, indeed, activate late larval prothoracic glands in situ, but does so indirectly.     

Effects of methoprene,a juvenile hormone analogue,on the larval and pupal stages of the yellow fever mosquito, Aedes aegypti

Exposure of early fourth-instar larvae of Aedes aegypti to the juvenile hormone analogue Altosid ZR15^® (methoprene) significantly increased the concentration of carbohydrates in the haemolymph of late fourth-instar larvae and reduced the haemolymph carbohydrate concentration of 24-h-old pupae relative to controls. Such treatment also effected a decline in haemolymph amino nitrogen levels of the pupal stage and a depletion of haemolymph proteins in late fourth-instar larvae as well as pupae. Two of nine protein fractions in the haemolymph of larvae were significantly depleted following methoprene treatment. Fourteen soluble protein fractions were present in the haemolymph of control pupae; two of these were missing from the pupae which were treated as larvae with methoprene. A further protein fraction, common to the haemolymph of both treated and control pupae, was significantly reduced in concentration as a consequence of exposure to methoprene. The juvenile hormone analogue impaired the capacity of the fat bodies of late fourth-instar larvae and pupae to synthesise proteins, resulting in a lowered concentration of fat body proteins. Glycogen levels in the fat bodies of treated larvae were significantly lower than in controls and glycogenolysis was suppressed due to an overall depletion of glycogen phosphorylase and, in pupae, a lowered ratio of active: inactive enzyme. The data are consistent with the proposition that the juvenile hormone analogue elicits neuroendocrinological changes in the target insect.     

Additive effects of thyroid hormone,growth hormone and testosterone on deoxyribonucleic acid-dependent ribonucleic acid polymerase in rat-liver nuclei

1. The stimulations of DNA-dependent RNA polymerase in isolated rat-liver nuclei by thyroid hormone, human growth hormone and testosterone are compared. 2. Single or multiple administrations of growth-promoting doses of tri-iodo-l-thyronine, human growth hormone and testosterone stimulate the Mg²⁺-activated RNA-polymerase reaction in nuclei from thyroidectomized, hypophysectomized and castrated rats respectively. The magnitude of stimulation was proportional to the degree of enhancement of liver growth by each hormone. After a single injection, the latent period preceding the stimulation was 1, 2 and 10hr. for growth hormone, testosterone and tri-iodothyronine respectively. The time-course of stimulation of enzyme activity and the synthesis of rapidly labelled nuclear RNA in vivo were also different for each hormone. 3. Growth hormone administration failed to stimulate the Mn²⁺/ammonium sulphate-activated RNA-polymerase reaction. Thyroid hormone and testosterone, however, stimulated it but the effect was less pronounced and occurred several hours later than that observed for the Mg²⁺-activated RNA-polymerase reaction. 4. In combination experiments, hypophysectomized or the thyroidectomized rats were given growth hormone or tri-iodothyronine in a single or repeated doses at levels that produced the maximum stimulation of Mg²⁺-activated RNA-polymerase activity. Taking into account the different latent period for each hormone, a single administration of the second hormone caused an additional stimulation of the enzyme activity. Similar additive effects were observed in thyroidectomized–castrated rats after treatment with tri-iodothyronine and testosterone. The magnitude of the additional stimulation caused by the administration of the second hormone was compatible with the capacity of that hormone to promote liver growth in rats deprived of it. 5. It is concluded that, although these hormones have some similar effects, the regulation of nuclear RNA synthesis may be mediated via different routes for each hormone.     

Regulation of vitellogenin synthesis by juvenile hormone analogue in Coccinella septempunctata

Vitellogenesis in the lady beetle, Coccinella septempunctata, is controlled by juvenile hormone (JH). When immature females were reared on an artificial diet, they were characterized by hypertrophy of the fat bodies and slow development of the ovaries. Vitellogenin (Vg) synthesis in the fat body remained at a very low level throughout adult development. RNA synthesis also stayed at a relatively low level. Treatment with hydroprene induced vitellogenesis in these non-fecund females. Stimulation in Vg synthesis in hormone-treated females was demonstrated both in vivo and in fat body culture. Synthesis of fat body RNA also increased after hormone treatment. Fat body RNA from hormone-treated females directed the synthesis of Vg polypeptides both in Xenopus oocytes and in a reticulocyte lysate. Thus the induction of Vg synthesis by JH involves an increase in the level of translatable Vg mRNA.     

Effects of three compounds with anti-juvenile hormone activity and a juvenile hormone analogue on endogenous juvenile hormone levels in the tobacco hornworm, Manduca sexta

The ability of three anti-juvenile hormones and one juvenile hormone analogue to reduce in vivo juvenile hormone levels in Manduca sexta has been investigated. Two compounds. FMev (tetrahydro-4-fluoromethyl-4-hydroxy-2H-pyran-2-one) and ETB (ethyl-4-[2-(tert-butylcarbonyloxy)butoxy]-benzoate) reduced the titres of juvenile hormones I and II to near the levels of detection in topically treated larvae. Precocene III (7-ethoxy-6-methoxy-2,2-dimethylchromene) was inactive but the juvenile hormone analogue hydroprene was as effective as the two anti-juvenile hormones in reducing endogenous juvenile hormone titres in larvae. FMev was also shown to reduce the level of juvenile hormones II and III in pharate adults.     

Biosynthesis and release of juvenile hormone during the reproductive cycle of the ring-legged earwig

Corpora allata of adult female Euborellia annulipes, incubated in medium containing ³H-methionine, synthesized and released juvenile hormone III. Labelled material co-migrating with methyl farnesoate was also found, suggesting this as an intermediate in the pathway of juvenile hormone III production. Juvenile hormone was not appreciably stored in the glands, but was released into the medium. In normal medium, 93.6 ± 1.6% of the total juvenile hormone III synthesized was released and 96.5% ± 0.3 in medium supplemented with 60 μM farnesoic acid. The rate of juvenile hormone III biosynthesis/release in vitro remained constant for at least 8 hr for glands of different activities. The rate of juvenile hormone production was closely correlated with the gonadotrophic cycle. In females with previtellogenic ovarian follicles (0.26 ± 0.004 mm), hormone production was only 0.59 ± 0.13 fmol hr⁻/corpus allatum; production increased to 1.52 ± 0.25 fmol hr⁻¹/corpus allatum when basal follicles were growing rapidly, and remained high during the period of oviposition. By 3 days following oviposition when females were brooding clutches, hormone production had declined to 0.46 ± 0.13 fmol hr⁻¹/corpus allatum. The addition of 60 μM farnesoic acid to the medium enhanced juvenile hormone biosynthesis at each stage examined. Lastly, elevating the level of l-methionine in the medium also enhanced hormone biosynthesis. Maximal hormone production was 32.8 ± 10.9 fmol hr⁻¹/corpus allatum, at an l-methionine concentration of 51 μM.     

Inhibition of the corpora allata of last-instar male larvae of the cockroach, Diploptera punctata

Normal rates of juvenile hormone synthesis, cell number and volume of corpora allata were measured in penultimate and final-instar male larvae of Diploptera punctata. The rate of juvenile hormone synthesis per corpus allatum cell was highest on the 4th day of the penultimate stadium, declined slowly for the remainder of that stadium, and rapidly after the first day of the final stadium.Regulation of the corpora allata in final-instar males was studied by experimental manipulation of the corpora allata followed by in vitro radiochemical assay of juvenile hormone synthesis. Nervous inhibition of the corpora allata during the final stadium is suggested by the observation that rates of juvenile hormone synthesis increased following denervation of the corpora allata at the start of the stadium; this operation induced a supernumerary larval instar. Juvenile hormone synthesis by corpora allata denervated at progressively later ages in the final stadium and assayed after 4 days decreased with age at operation. This suggests an increasingly unfavourable humoral environment in the final stadium, which was confirmed by the low rate of juvenile hormone synthesis of adult female corpora allata implanted into final-instar larvae. Thus, inhibitory factors or lack of stimulatory factors in the haemolymph may act with neural inhibition to suppress juvenile hormone synthesis in final-instar males.     

In vitro studies of cerebral cortical RNA and nucleotide metabolism in hypothyroidism.

—Thyroid hormone deficiency induced during the neonatal period in the rat, resulted in an enhanced incorporation of [2-¹⁴C]uridine and [8-¹⁴C]adenosine in vitro into cerebral cortical RNA at 25 days of age. An examination of the acid-soluble pool constituents separated by polyethyleneiminecellulose TLC, revealed that all phosphorylated derivatives were more highly labelled compared to controls. These differences were not apparent at a lower incubation temperature (4°C). When the average specific activity of precursor pool ATP labelled from adenosine was utilized for the calculation of the rate of RNA synthesis, no change was observed in hypothyroidism. The results are compatible with a maturational-dependent increase in nucleoside transport and rate of phosphorylation in hypothyroidism which is reflected in the stimulated incorporation into cerebral RNA. The apparent normal rate of RNA synthesis coupled with a diminished cellular RNA concentration in thyroid hormone deficiency, suggests an increased RNA turnover. Experiments with actinomycin D revealed no apparent difference in the rate of decay of rapidly-labelled (nuclear) RNA. The possibility is discussed that the processing of nuclear RNA, the formation of stable ribosomal complexes and events at the translational level are subject to modification in developing hypothyroid rats.     

Effects of decapitation and ovariectomy on the regulation of juvenile hormone synthesis in the cockroach, Diploptera punctata

Corpora allata from Diploptera punctata females at adult ecdysis or at the end of the last-larval stadium, when implanted into decapitated females, underwent a cycle of juvenile hormone synthesis similar in timing and magnitude to that of glands implanted into control animals which had been starved and allatectomized. Starvation did not alter the cycle in rates of juvenile hormone synthesis of sham-operated animals.Decapitation of ovariectomized animals resulted in no cycle in rates of juvenile hormone synthesis by implanted adult corpora allata; however, implantation of an ovary along with the corpora allata into decapitated, ovariectomized hosts resulted in a cycle of juvenile hormone synthesis. In control animals, which retained their heads but were starved and allatectomized as well as ovariectomized, the implanted corpora allata showed a cycle of juvenile hormone synthesis only when implanted with an ovary. The maximal rates of juvenile hormone synthesis by the corpora allata in both experimental and control conditions were lower than normal, likely due to the repeated trauma of surgery. However, at no time from eclosion to the end of the first gonotrophic period was the brain necessary for the cyclic response of the corpora allata to the presence of the ovary.     

Effects of anti-juvenile hormone “ETB” on the development and metamorphosis of the silkworm, Bombyx mori

As in the tobacco hornworm Manduca sexta, the synthetic juvenile hormone analogue ETB (ethyl 4-[2-(tert-buthylcarbonyloxy)butoxy]benzoate) showed both juvenile hormone-like and anti-juvenile hormone activities in the silkworm, Bombyx mori. When ETB was topically applied to allatectomized 4th-instar larvae, the compound counteracted the effects of allatectomy, such as induction of precocious metamorphosis and black pigmentation in the larval markings. Therefore, ETB had juvenile hormone activity, but it could neither induce brown pigmentation in the markings nor induce an extra-larval moult as can juvenile hormone.When intact 3rd-instar larvae were treated with the compound, the majority underwent precocious metamorphosis in the 4th-instar, and later formed fertile miniature adults. Some moulted into larval-pupal intermediates or 5th-instar larvae with darkened larval markings and/or with abnormality of specific regions of the silk-gland. The optimal dose for such anti-juvenile effects was about 1–10 μg/larva, and higher doses showed less activity. Such anti-juvenile hormone effects of ETB were counteracted by administration of the juvenile hormone analogue, methoprene, before a certain critical time in the 4th-instar. The corpora allata of treated larvae appeared cytologically normal, and the corpora allata from ETB-induced miniature moths secreted juvenile hormone when implanted into allatectomized 4th-instar larvae.