桑蚕促前胸腺激素的作用与前胸腺分泌活动的某些特点

本工作以前胸腺的体外器官培养技术和蜕皮激素的放射免疫分析法(MH-RIA)相结合,研究了桑蚕(Bombyx mori)促前胸腺激素(PTTH)的作用与前胸腺分泌的某些特点。结果表明,被PTTH激活后的前胸腺,在一定的时相过程内合成并分泌脱皮甾类激素;前胸腺本体不积累蜕皮甾类激素;PTTH对前胸腺的作用是积累性的;五龄不同天数的前胸腺合成分泌脱皮甾类激素的能力不同,并有不同的剂量反应。     

Ecdysteroidogenic action of Bombyx prothoracicotropic hormone and bombyxin on the prothoracic glands of Rhodnius prolixus in vitro

An in-vitro assay for ecdysteroid synthesis by the prothoracic glands (PGs) of fifth instar Rhodnius prolixus has been employed to evaluate the actions of prothoracicotropic neuropeptides from the silkmoth, Bombyx mori. Crude prothoracicotropic hormone (PTTH) extracts of recently emerged adult brain complexes of Bombyx induced a dose-dependent stimulation of ecdysteroid synthesis by Rhodnius PGs, which was similar to that obtained using crude Rhodnius PTTH. In both cases, maximum stimulation was obtained with one brain equivalent. Rhodnius PGs were then challenged with incremental doses of recombinant Bombyx PTTH and synthetic bombyxin-II. Dose-response curves for the action of both peptides on Rhodnius PGs were very similar to those obtained for their action on the pupal PGs of Bombyx in vitro. Bombyx PTTH stimulated the PGs of Rhodnius at concentrations comparable to those effective on Bombyx. The curve for Bombyx PTTH showed a steep ascending region from 3 to 8ng/ml and a sharp peak. For bombyxin, concentrations 40-fold higher were required to elicit the same amount of stimulation as obtained using Bombyx PTTH. Therefore, Rhodnius PGs possess recognition sites for both Bombyx PTTH and bombyxin. This is the first study of the ecdysteroidogenic properties of the Bombyx peptides on a heterologous species. It is suggested that the function and conformation of PTTH may be conserved between distantly related insect groups.     

三眠蚕诱导剂咪唑类物质KK-42对桑蚕内分泌系统的作用

为了研究作为三眠现诱导剂的一种唑化合物RK-42的作用机制,本文应用侧休(CA)短期体化学测定Bombyx motx则的活性,通过记蟆皮(MH)的垫射免疫分析(RIA)法测定了血苏巴内根据的放射免疫法成功珍KK-42作用后的肢导泌侃前胸蚊腺面的试验,提出了KK-42作用的新解说,吧调体活性的湖汇KK-42与侧体外支明KK-42应用下桑蚕四龄前期时,把器官首先见侧休,咽侧体看成性反使用分泌PTTH产生相应变化,从而引起蜕皮激素高峰的推迟.推迟了的蜕皮素峰与扣对馈管的保幼激素JH共同作用的结果引起了化蛹蜕皮,产生了三眠蚕.     

Changes in growth and lipid profiles of silk gland,mid-gut biochemical composition of silkworm,Bombyx mori L. on exposure to prostaglandin F2alpha

The growth of the silkworm is influenced by the outside and inside environment. Among them, the category of various endocrine hormone of inside is the main factors that adjust the characters such as growth and propagate. In this experiment, we applied different dosage of prostaglandin to the fourth and fifth instar silkworm to observe the effects of prostaglandin F2alpha (PGF2alpha) on silk gland growth, mid-gut biochemical constituents and the lipid profiles of silkworm larva, Bombyx mori L. The weight of the posterior silk gland increased significantly (P < 0.001) by 20-24% after treatment with PGF2alpha. The increase in the lipid profiles except lipase activity suggests that the silk gland had more synthetic activity that might reflect in active spinning of silkworm larva. The changes of total proteins, free amino acids and alkaline phosphatase in mid-gut of control and PGF2alpha treated silkworm, B. mori L. indicate that PGF2alpha favored stimulatory effect on physiology of digestion, absorption and transportation of nutrients which might influence on the growth and development of larva.     

Photoperiod induced developmental effects on silkmoth,Bombyx mori

Bombyx mori is most common silkmoth used for the commercial production of the silk. The different environmental conditions may affect development of silkmoth and hence the output of silkworm. Present study investigated effects of different photoperiodic conditions on the development of silkmoth. Three experiments were performed on newly hatched larvae. In experiment1, larvae were divided into three groups; group 1, 8L:16D (8 h light and 16 h dark), group 2, 12L:12D (12 h light and 12 h dark) and group 3, 16L:8D (16 h light and 8 h dark). In experiment 2, larvae were exposed to either continuous light or continuous dark. In experiment 3, larvae were divided into three groups. Each group received light of similar duration (16L:8D) and intensity (1.1 ± 0.1 PAR) but of different wavelengths; i.e. long wavelength red light (640 nm), short wavelength blue light (450 nm) and white light. Larvae were fed on young mulberry (Morus alba) leaves. Temperature and humidity were maintained at 26 (±2) °C and 75 (±5)%, respectively, throughout the study. Observations on change in body length of larvae were made on every alternate day. We also calculated the shell ratio, time taken in cocoon formation and emergence. Results from experiment show that the larvae underwent significant change in body length but with faster growth rate under 12L:12D photoperiod in comparison to 8L:16D and 16L:8D. Time taken in cocoon formation and hatching was significantly less, while shell ratio was significantly higher in 12L:12D in comparison to other groups. We did not observe much effect of monochromatic light on the development of silkmoth.     

Separation of Bombyxin from a neuropeptide of Bombyx mori showing Summer-morph-producing Hormone (SMPH) activity in the Asian Comma Butterfly,Polygonia c-aureum L

A neuropeptide from brain-suboesophageal ganglion (Br-SG) complexes of the silkmoth, Bombyx mori, shows summer-morph-producing hormone (SMPH) activity in the Asian comma butterfly, P. c-aureum. The SMPH-active peptide was extracted and demonstrated to be almost the same molecular size as bombyxin (4-5kD), a nueropeptide which shows prothoracicotropic hormone (PTTH) activity when assayed in vitro with prothoracic glands (PGs) of 4th-instar B. mori larvae in vitro. A Sephadex G-50 fraction of 3-8kD molecules prepared from Br-SG complexes of B. mori adults was applied to CM-, SP-, DEAE- or QAE- Toyoperal columns at pH 5.6 (or pH 6.9). The SMPH-activity could be separated from the PTTH-activity (or bombyxin) by subjecting a SMPH- and PTTH-active preparation of B. mori to anion-exchange chromatography at pH 6.9. By reversed-phase HPLC following an anion-exchange chromatography, SMPH-activity was recovered in two fractions of 40-45% acetonitril. Results demonstrate that the B. mori peptide showing the SMPH-activity in P. c-aureum is a different molecule than bombyxin.     

昆虫内分泌研究简况和中国的成就

<正> 昆虫内分泌学是昆虫生理学的重要分支之一。它研究昆虫的内分泌器官以及由相关器官组成的系统、昆虫的激素、昆虫激素的生理作用等。昆虫内分泌是20世纪中进展最快、成果较丰的领域之一。这个势头将要延续到21世纪。中国学者将沿着已往的成果前进。     

GFP labeling of neurosecretory cells with the GAL4/UAS system in the silkmoth brain enables selective intracellular staining of neurons

The microbrain of the silkmoth, Bombyx mori, is a model system for analyzing the neural mechanisms underlying stimulus-driven behavior, and numerous studies using physiological and morphological methods have accumulated. However, one of the limitations of this system is a lack of methodology for labeling specific subsets of neurons. Targeted gene expression with the GAL4/UAS system, which was recently developed, may overcome this disadvantage. To test the GAL4/UAS system in the silkmoth brain, we generated two GAL4 driver lines in which GAL4 expression was under the control of either the bombyxin or prothoracicotropic hormone (PTTH) promoter. Crosses of moths from these lines with a UAS-GFP line showed that green fluorescent protein (GFP) was exclusively expressed in bombyxin or PTTH neurosecretory brain cells. Using these lines, we developed a visually guided method to selectively insert an electrode into and intracellulary stain GFP-expressing cells using fluorescence as a landmark. This work provides a novel method to visualize specific subsets of neurons in the silkmoth brain and to observe detailed structures in a single identified neuron from different individuals.     

Effects of juvenile hormone on the secretion of prothoracicotropic hormone in the last- and penultimate-instar larvae of the silkworm Bombyx mori

The effect of juvenile hormone (JH) on the secretion of the prothoracicotropic hormone (PTTH) was investigated, by examining the changes in hemolymph PTTH titer after the topical application of JH-I on the larvae of the silkworm, Bombyx mori. The titer of PTTH was determined by the time-resolved fluoroimmunoassay. JH-I application at very early stages of development in the fifth (last) instar resulted in a significant increase in the PTTH titer, but this effect became less evident thereafter. After the onset of wandering (day 6 of the fifth instar), JH-I did not affect the hemolymph PTTH titer. JH-I application on day 5 resulted in the delay of spinneret pigmentation on day 6, which is induced by an increase in the ecdysteroid titer on day 5 and is the first visible indication of larval-pupal transformation. However, the JH-I application did not suppress the increase in either PTTH or ecdysteroid titer on day 5, suggesting that JH-I acts on the spinneret to inhibit the response of the tissue to ecdysteroids. JH-I also exhibited a PTTH titer-elevating effect in the fourth instar. These results suggest that JH has a role as a potent stimulator of PTTH secretion in both the penultimate and last instar of the silkworm.     

The effects of Bombyx mori silk strain and extraction time on the molecular and biological characteristics of sericin

Sericin was extracted from three strains of Thai Bombyx mori silk cocoons (white shell Chul1/1, greenish shell Chul3/2, and yellow shell Chul4/2) by a high-pressure and high-temperature technique. The characteristics of sericin extracted from different fractions (15, 45, and 60 min extraction process) were compared. No differences in amino acid composition were observed among the three fractions. For all silk strains, sericin extracted from a 15-min process presented the highest molecular weight. The biological potential of the different sericin samples as a bioadditive for 3T3 fibroblast cells was assessed. When comparing sericin extracted from three silk strains, sericin fractions extracted from Chul4/2 improved cell proliferation, while sericin from Chul 1/1 activated Type I collagen production to the highest extent. This study allows the natural variability of sericin obtained from different sources and extraction conditions to be addressed and provides clues for the selection of sericin sources.     

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.     

Temporal organization of endocrine events in relation to the circadian clock during larval-pupal development in Samia cynthia ricini

The temporal organization of secretion of the prothoracicotropic hormone (PTTH) and ecdysone during larval-pupal development of Samia cynthia ricini was studied by ligations, with particular attention to the circadian control of the timing of hormone release. PTTH and ecdysone are required first for the induction of prodromes of pupation and again later for pupal-cuticle formation. PTTH release in the first step occurs during the second or third photophase after the last-larval ecdysis under a photoperiod of 12 hr light and 12 hr darkness and is thought to be under the control of a circadian clock. Ecdysone release follows 1.5 days later, i.e. during the scotophase that precedes the gut purge. In the second secretory step, PTTH is released 2 days after purging the gut, and ecdysone release follows 6 hr later. The PTTH release at this time occurs at a fixed time after the gut purge irrespective of light conditions, accounting for light insensitivity of the timing for pupal ecdysis. Possible mechanisms relating to the inconsistent association of a circadian clock with PTTH release, and those underlying the determination of timing of the gut purge are discussed.     

Effects of ultralow doses of fenoxycarb on juvenile hormone–regulated physiological parameters in the silkworm,Bombyx mori L.

Effects of fenoxycarb at ultralow doses were investigated on juvenile hormone (JH)–regulated parameters in the silkworm, B. mori. Like JH, this non-terpenoid carbamate is able to induce permanent larvae in the last larval instar. However, whereas micrograms of JH are needed to produce this effect, only a few picograms of fenoxycarb are necessary to induce the same effect. The effects of fenoxycarb observed in this study were only visible from day 4 of the last larval instar—that is, when the JH titer has dropped to undetectable levels and JH-repressed physiological parameters would naturally be expressed. We observed that the permanent larvae induced with low doses of fenoxycarb (100 pg/larva) had no 20-hydroxyecdysone (20E) peak. Their prothoracic glands (Pgs) were completely inactive and very weakly sensitive to prothoracicotropic hormone (PTTH). Fenoxycarb at doses of 1 ng/larva also significantly inhibited silk gland growth and coloration, whereas carotenoid content of the hemolymph was maintained at high levels, which could reflect an inhibition of its uptake by the silk glands. Total hemolymph protein levels in last instar larvae were also depressed at these doses. So, it seems that low doses of fenoxycarb are sufficient to maintain in a juvenilized status the physiological parameters that are normally expressed when JH titer has declined. Moreover, from an endocrinological viewpoint, we demonstrated that the corpora allata (CA) are not necessary for fenoxycarb to induce those effects and discussed its possible mode of action. Arch. Insect Biochem. Physiol. 37:178–189, 1998. © 1998 Wiley-Liss, Inc.     

In vitro and in vivo stimulation of extracellular signal-regulated kinase (ERK) by the prothoracicotropic hormone in prothoracic gland cells and its developmental regulation in the silkworm, Bombyx mori

In this study, we investigated activation of the extracellular signal-regulated kinase (ERK) by the prothoracicotropic hormone (PTTH) in prothoracic gland cells of the silkworm, Bombyx mori. The results showed that the PTTH stimulated ERK phosphorylation as this depends on time and dose and ecdysteroidogenic activity. The ERK phosphorylation inhibitors, PD 98059 and U0126, blocked both basal and PTTH-stimulated ERK phosphorylation and ecdysteroidogenesis. In addition, activation of glandular ERK phosphorylation by the PTTH appeared to be developmentally regulated with the refractoriness of gland cells to the PTTH occurring during the latter stages of both the fourth and last larval instars. Moreover, in vitro activation of ERK phosphorylation of prothoracic glands by the PTTH was also verified by in vivo experiments: injection of the PTTH into day 6 last instar larvae greatly increased the activity of glandular ERK phosphorylation and ecdysteroidogenesis. These results suggest that development-specific changes in ERK phosphorylation may play a role in PTTH stimulation of ecdysteroidogenesis.     

Circadian clock and prothoracicotropic hormone secretion in relation to the larval-larval ecdysis rhythm of the saturniid Samia cynthia ricini

Observations on the timing of ecdysis and neck ligation experiments on larvae of Samia cynthia ricini under various light-dark conditions show that an endogenous circadian clock controls the timing of larval ecdysis and prothoracicotropic hormone (PTTH) secretion preceding it. The clock, upon reaching a specific phase point, causes the brain to secrete PTTH provided that the brain has acquired the secretory competence. This time may vary, in relation to a previous ecdysis, according to the light-dark conditions by which the clock phase is specifically determined, but is fixed relative to a subsequent ecdysis. Thus, in the case of the ecdysis to the 5th instar, PTTH is secreted [15+nτ] hr (τ: free-running period, slightly less than 24 hr) after the clock has started when the rhythm is free-running, and in the second and third nights of the 4th instar under a photoperiod of 12 hr light and 12 hr dark. Full secretion of ecdysone occurs 6 hr after PTTH secretion and ecdysis ensues 34 hr thereafter to complete the ultimate sequence of ecdysis.     

Developmental changes in hemolymph ecdysteroid level and prothoracicotropic hormone activity during the fifth larval instar of the Eri silkworm, Samia cynthia ricini

Developmental changes in hemolymph ecdysteroid level, ecdysteroid synthesis by prothoracic glands （PGs） in vitro, prothoracicotropic hormone （PTTH） activity in brain extracts, and PTTH activity in the hemolymph were measured during the fifth larval instar of the Eri silkworm, Samia cynthia ricini. The changing patterns of hemolymph ecdysteroid level and ecdysteroid synthesis by laGs in vitro are similar to each other, with maximums on day 9. However, on this day, hemolymph ecdysteroid level was substantially higher than ecdysteroid synthesis by PGs in vitro suggesting a high PTTH activity in the hemolymph on day 9. Moreover, the changing pattern of PTTH activity in brain extracts is also similar to that of PTTH activity in the hemolymph, both peaking on day 9. However, on this day, activity in brain extracts was much smaller than PTTH activity in the hemolymph implying that most PTTH synthesized by the brain is secreted to the hemolymph and the brain stores a very little amount of PTTH. This study provides unique insights onto the hormonal regulation of ecdysteroid synthesis in the Eri silkworm and is useful for our future studies on signal transduction of insect neurolaelatides.     

Factors affecting change in sensitivity of prophoracic glands to juvenile hormone in Mamestra brassicae

The prothoracic glands of the early last-instar larva of Mamestra brassicae (day 0–3) were found previously to be insensitive to stimulation by juvenile hormone, whereas those later in the instar (from day 4 on) were activated by this hormone. When neck-ligatured young larvae (day-1, day-2 and day-3) were given juvenile hormone 5–10 days after ligation, pupation was induced. Similarly, juvenile hormone induced pupation of isolated abdomens which contained prothoracic glands taken from neck-ligatured day-3 larvae 5 days after ligation. If the glands were exposed to prothoracicotropic hormone (PTTH) from implanted brains before they were transplanted to isolated abdomens, their sensitivity to juvenile hormone activation was enhanced. Ecdysone but not 20-hydroxyecdysone given every 3 hr for 12 hr also slightly enhanced sensitivity. These results suggest that prothoracic glands from either day-1, day-2 or day-3 larvae can slowly acquire a sensitivity to juvenile hormone activation by prolonged incubation in the absence of factors from the head. The acquisition of sensitivity occurs more rapidly in the presence of both a factor from the brain, presumably PTTH, and ecdysone released from the prothoracic glands themselves.     

Amyloids protect the silkmoth oocyte and embryo

Chorion is the major component of silkmoth eggshell. More than 95% of its dry mass consists of proteins that have remarkable mechanical and chemical properties protecting the oocyte and the developing embryo from a wide range of environmental hazards. We present data from electron microscopy (negative staining and shadowing), X-ray diffraction and modeling studies of synthetic peptide analogues of silkmoth chorion proteins indicating that chorion is a natural amyloid. The folding and self-assembly models of chorion peptides strongly support the beta-sheet helix model of amyloid fibrils proposed recently by Blake and Serpell [Structure 4 (1996) 989-998].