Juvenile hormone and moulting hormone titres in diapause- and non-diapause destined flesh flies

Failure of the brain to stimulate the prothoracic gland to release ecdysone has been widely regarded as the basis for diapause in insect pupae. In diapause-destined flesh flies, the absence of a peak of moulting hormone around the time of pupal head eversion supports this contention, but in addition, major pulses of juvenile hormone (JH) activity with a rhythmicity of 24 hr are unique to flesh flies destined for pupal diapause. JH activity persists during diapause, and a pulse of JH precedes the rise of moulting hormone that initiates adult development.     

Antiinsectan properties of a novel Fusarium-derived sterol sulfate

The antiinsectan properties of the Fusarium graminearum-derived novel sterol sulfate, 4,4,24-trimethylcholesta-8,14,24(28)-trien-2,3,11,12-tetrol 12 acetate, 3-sulfate were tested on the corn earworm (Heliothis zea (Boddie), the fall armyworm (Spodoptera frugiperda (J. E. Smith), and the driedfruit beetle (Carpophilus hemipterus L.). The sterol sulfate could not be used as a sterol source by any of the insects. The sterol sulfate inhibited growth of S. frugiperda and C. hemipterus larvae at 2500 and 4000 ppm, respectively. Defensive implications of this compound are discussed.     

Temperature-sensitive mechanism regulating diapause in Heliothis zea

Pupal diapause in Heliothis zea is regulated by a temperature-sensitive mechanism which prevents ecdysone production despite the release of prothoracicotropic hormone. To determine how this mechanism functioned, donor prothoracic glands were implanted into prothoracic gland-ablated hosts to test their ability to produce ecdysone in a diapause-sustaining temperature of 19°C. Results of these experiments ruled out the possibility that ecdysis production was regulated by the nervous system or by a mechanism intrinsic to the prothoracic glands, and suggested that a humoral factor was required for diapause termination.Haemolymph injection experiments supported this humoral factor hypothesis, i.e. haemolymph from non-diapausing donor pupae terminated diapause in hosts maintained at 19°C, whereas haemolymph from diapausing donor pupae had no such effect. These findings indicate that the temperature-sensitive mechanism regulating H. zea diapause functions by controlling the availability of a humoral factor necessary for ecdysone production by the prothoracic glands.     

Ecdysteroid production by a continuous insect cell line

The spent medium from ten established cell lines was extracted and tested for ecdysteroids by radioimmunoassay. Of the seven lepidopteran lines tested, only IAL-TNDI and MRRL-CH showed evidence of ecdysteroid production. However, the results were erratic and difficult to evaluate and these lines were dropped from further consideration. However, of the three cockroach cell lines tested, one, UMBGE 4, produces ecdysteroid and consistently releases virtually all of it into the medium. The main ecdysteroid was identified as ecdysone and the increase was logarithmic during the first 11 days of the subculture, with a decrease from day 11 to day 14. UMBGE 4 is a vesicle cell line which also tested positive for chitin synthesis. When the pH of the medium was lowered from pH 7.4 to pH 6.3, both the chitin synthesis and the ecdysone synthesis dropped by roughly 50%.     

Comparison of structurally analogous allatotoxins on the molting and morphogenesis of Rhodnius prolixus,and the reversal of ecdysial stasis by ecdysone

The allatotoxic effect of 3-ethoxy-4-methoxy-6-iso-pentenylphenol on nymphal molting and metamorphosis of Rhodnius prolixus was examined. Continuous contact treatment with IPP induced the formation of precocious adults and retarded molting or initiated a permanent ecdysial stasis. Insects treated with 7-ethoxy-6-methoxy-2,2-dimethylchrornene were similarly affected. Ecdysone given orally counteracted the ecdysial stasis and also reduced the duration of the molting delay caused by IPP.     

In vivo uptake and metabolism of [3H]ecdysone in the vitellogenic follicles of Sarcophaga bullata (Diptera) and its localisation by autoradiography

Within 4 h after injection of [³H]ecdysone, almost all tritiated material has disappeared from the haemolymph, indicating that the uptake by the tissues is very fast. After only 15 min, 19% of the label was found in the ecdysterone fraction and 4% in the highly polar products (HPP) fraction. The uptake of [³H]ecdysone by the ovary (mid-vitellogenic) is almost complete within 1 h after injection. The pattern of [³H]ecdysteroids in the ovaries follows a well ordered sequence: firstly, [³H]ecdysone is the major component of the [³ H]ecdysteroids but it disappears within 2 h, next a peak value of [³H]ecdysterone was found at 1 h, whereafter this also disappeared, and from 2 h on, there was a considerable increase in HPP. The HPP consisted of 3 fractions (A, B and C). Glusulase treatment revealed that apparently only fraction B consisted of glucuronide and/or sulphate-conjugates of ecdysteroids. Autoradiographic experiments confirmed that the uptake of [³H]ecdysone was a very rapid process. In ovaries fixed 1 h after injection, the silver grains were abundant in the ooplasm but were also found in the follicle cell cytoplasm and in trophocytes. In follicles examined 16 h after injection, only a few silver grains were observed in the trophocytes and follicle cells. However, the cytoplasm of the oocyte was labelled. The border cells also accumulated label.

The major results indicate that all cell types of the follicle seem to be able to absorb ecdysone from the haemolymph and that there seems to be a rather selective uptake of ecdysone. In the ooplasm, ecdysone is converted to highly polar conjugates.     

miR‐34 regulates reproduction by inhibiting the expression of MIH,CHH, EcR,and FAMeT genes in mud crab Scylla paramamosain

Mud crab Scylla paramamosain is a commercially important species widely cultured in China. It is well known that the eyestalk regulates reproductive activities in crustaceans. In our previous research, we found that the miR‐34 expression level in male eyestalk was significantly higher than that in females. Thus, we assumed that it may play an important role in regulating reproduction. In this study, we used bioinformatic tools to identify the target genes of miR‐34 in eyestalk. Six reproduction‐related genes with an intact 3′‐untranslated region (UTR), including molt‐inhibiting hormone (MIH), crustacean hyperglycemic hormone (CHH), vitellogenesis‐inhibiting hormone, red pigment concentrating hormone, ecdysone receptor (EcR), and farnesoic acid methyltransferase (FAMeT) were identified. When the 3′‐UTR plasmid vectors of the six genes were cotransfected with miR‐34 mimics into 293FT cells, respectively, the luciferase activities of four genes (MIH, CHH, EcR, and FAMeT) were significantly decreased compared with that in the control group; on the contrary, when the six plasmid vectors were cotransfected with the miR‐34 inhibitor respectively, the luciferase activities of four genes (MIH, CHH, EcR, and FAMeT) were significantly higher than that in the control group. When agomiR‐34 and antagomiR‐34 were injected into the eyestalk respectively in vivo, the expression levels of the MIH, CHH, EcR, and FAMeT genes were detected by a quantitative real‐time polymerase chain reaction. The results showed that agomiR‐34 suppressed the expression of the four genes, whereas antagomiR‐34 enhanced their expression. These experimental results confirmed our hypothesis that miR‐34 may indirectly regulate reproduction via binding to the 3′‐UTRs of MIH, CHH, EcR, and FAMeT genes and suppressing their expression.     

Expression,subcellular localization and protein‑protein interaction of four isoforms of EcR/USP in the common cutworm

Ecdysone receptor (EcR) and ultraspiracle (USP) form heterodimers to mediate ecdysteroid signaling during molting and metamorphosis. Various EcR/USP heterodimers have been reported. However, it is unclear what kind of EcR/USP combination is adopted by lepidopteran insects during the larval?pupal metamorphosis and whether the EcR/USP heterodimer varies among different tissues. To address these questions, two isoforms of each EcR and USP were cloned from the common cutworm, their messenger RNA expression patterns were examined by real‐time quantitative polymerase chain reaction in different tissues during the larval–pupal metamorphosis and in the midgut in response to hormonal induction. Furthermore, their subcellular localization and protein?protein interaction were explored by transient expression and far‐western blotting, respectively. All the four genes were significantly up‐regulated in prepuae and/or pupae. The expression profiles of EcRB1 and USP1 were nearly identical to each other in the epidermis, fat body and midgut, and a similar situation also applied to EcRA and USP2. The three genes responded to 20‐hydroxyecdysone (20E) induction except for USP2, and USP1 could be up‐regulated by both 20E and juvenile hormone. The four proteins mainly localized in the nucleus and the nuclear localization was promoted by 20E. The protein?protein interaction between each EcR and USP was found in vitro. These results suggest that two types of EcR/USP heterodimer (EcRA/USP2 and EcRB1/USP1) may exist simultaneously in the common cutworm, and the latter should play more important roles during the larval?pupal metamorphosis. In addition, the types of EcR/USP heterodimer do not vary in the tissues which undergo histolysis and regeneration during metamorphosis.     

An established cell line from the beetle, Xylotrechus pyrrhoderus (coleoptera: Cerambycidae)

Summary A continuous cell line has been established from larval fat body tissues of the cerambycid beetle Xylotrechus pyrrhoderus Bates. These cells were cultured in MGM-450 medium. The cell line, designated as XP-1, showed a heterogeneous population consisting of spherical and spindle-shaped cells with some capacity to adhere and a doubling time of 5 d. The chromosome number of the cell line ranged from 18 to 42 with a mode of 20. Isozyme analysis showed that the cells had patterns distinctive from those of other insect cell lines. The cells were sensitive to insect hormones, and when continuously treated with 20-hydroxyecdysone and juvenile hormone, they assumed a floating elongated-spindle shape and became strongly adherent, respectively.