Severe developmental timing defects in the prothoracicotropic hormone (PTTH)-deficient silkworm,Bombyx mori

The insect neuropeptide prothoracicotropic hormone (PTTH) triggers the biosynthesis and release of the molting hormone ecdysone in the prothoracic gland (PG), thereby controlling the timing of molting and metamorphosis. Despite the well-documented physiological role of PTTH and its signaling pathway in the PG, it is not clear whether PTTH is an essential hormone for ecdysone biosynthesis and development. To address this question, we established and characterized a PTTH knockout line in the silkworm, Bombyx mori. We found that PTTH knockouts showed a severe developmental delay in both the larval and pupal stages. Larval phenotypes of PTTH knockouts can be classified into three major classes: (i) developmental arrest during the second larval instar, (ii) precocious metamorphosis after the fourth larval instar (one instar earlier in comparison to the control strain), and (iii) metamorphosis to normal-sized pupae after completing the five larval instar stages. In PTTH knockout larvae, peak levels of ecdysone titers in the hemolymph were dramatically reduced and the timing of peaks was delayed, suggesting that protracted larval development is a result of the reduced and delayed synthesis of ecdysone in the PG. Despite these defects, low basal levels of ecdysone were maintained in PTTH knockout larvae, suggesting that the primary role of PTTH is to upregulate ecdysone biosynthesis in the PG during molting stages, and low basal levels of ecdysone can be maintained in the absence of PTTH. We also found that mRNA levels of genes involved in ecdysone biosynthesis and ecdysteroid signaling pathways were significantly reduced in PTTH knockouts. Our results provide genetic evidence that PTTH is not essential for development, but is required to coordinate growth and developmental timing.     

C-型咽侧体抑制素(AST-C)和促前胸腺激素释放激素(PTTH)基因在家蚕脑组织中的时空表达分析

【目的】咽侧体抑制素在昆虫体内具有重要的调控功能。本研究比较了家蚕Bombyx mori C-型咽侧体抑制素(allatostatin C,AST-C)与促前胸腺激素释放激素(prothoracicotropic hormone,PTTH)基因在不同发育阶段家蚕脑组织中转录表达的模式及其在脑组织的表达定位,以期为家蚕AST-C的功能研究提供重要的线索。【方法】利用脑组织芯片数据分析比较AST-C和PTTH基因在家蚕脑组织中的发育表达特征,RT-PCR验证其芯片数据,分析AST-C在不同发育阶段家蚕中枢神经系统中的表达模式,并用全组织包埋原位杂交技术对AST-C和PTTH在脑组织的表达进行定位。【结果】AST-C和PTTH在不同发育阶段家蚕脑组织中有相似的转录表达模式,且都在脑组织外侧一对神经分泌细胞中表达。【结论】AST-C可能与PTTH以相同的转录表达模式共同参与家蚕的变态发育调控。     

Neurohormones in developing embryos of the silkworm,Bombyx mori: The presence and characteristics of prothoracicotropic hormone B

The presence and fluctuation of prothoracicotropic hormone (PTTH) activity have been shown in brainless Bombyx mori pupae and in developing embryos. The embryonic PTTH is only effective in eliciting adult development of brainless pupae. PTTH activity first became detectable in embryos which had developed almost to the stage of differentiation of their neuroendocrine systems. The hormone was partially purified from pharate first-instar larvae (1 day before hatching) and approx a 300-fold purification was achieved. 0.2 μg of the partial purified hormone can evoke adult development in brainless pupae. The molecular weight of the hormone was estimated to be 20,000–30,000 daltons by gel-filtration on a Sephadex G-50. Two distinct forms of PTTH are present in developing embryos of B. mori.     

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.     

Regulation of capacitative Ca2+ entry by prothoracicotropic hormone in the prothoracic glands of the silkworm, Bombyx mori

Measurements of Ca2+ influx in Fura-2/AM loaded steroidogenic cells (prothoracic glands; PGs) of the silkworm, Bombyx mori showed that application of the neuropeptide prothoracicotropic hormone (PTTH) can increase the intracellular [Ca2+]i. This PTTH-mediated Ca2+ influx in PG cells had kinetic patterns and pharmacological characteristics similar to those induced by thapsigargin. Namely, it produced increases in intracellular Ca2+ levels only in the presence of extracellular Ca2+, it was blocked by Gd3+ and 2-Aminoethoxydiphenylborate (2-APB), and it was unaffected by several toxins or compounds that block voltage-activated Ca2+ channels. Moreover, the PTTH-stimulated increase of Ca2+ levels was eliminated in the presence of heparin (an IP3 receptor blocker), and by TMB-8 which also blocked any PTTH-dependent increase of ecdysteroid secretion. The PTTH-mediated increase of Ca2+ levels was not affected by the non-hydrolysable GDP analogue, GDPbetaS, an indication that a G protein is not downstream of the PTTH receptor. These results argue strongly in favor of gating by the PTTH receptor of capacitative Ca2+ entry (CCE) channels (or store-operated Ca2+ channels (SOCs)) by a mechanism that does not involve any G proteins but requires the presence of functional IP3 receptors. Because the ability of PTTH to stimulate the [Ca2+]i levels of PG cells was completely mimicked by thapsigargin and exhibited a pharmacological profile similar to CCE mechanisms, we believe that PTTH directly regulates a CCE pathway in PG cells thereby activating a plethora of downstream regulators responsible for ecdysteroid secretion by the PGs of Bombyx mori.     

Isolation of the diapause hormone from the silkworm,Bombyx mori

The diapause hormone (DH) secreted from the suboesophageal ganglion is responsible for the embryonic diapause in the silkworm, Bombyx mori. It was extracted from two million mated male adult heads. At least two species of DH were separated from the extracts (a complex lipid fraction) by gel permeation chromatography with Sephadex LH-20 by organic eluants. One of them was further purified by repeating gel permeation column chromatography with Merckogel^® Type OR 6000 in the cold and dark to give finally a single peak with high DH activity. This preparation seems to be chemically pure, and its molecular weight is chromatographically estimated to be between 2000 and 4000. Other characteristics of DH are also presented. Biological activity of the final DH preparation is discussed with reference to other insect hormones such as juvenile hormone and α-ecdysone.     

Small GTP-binding proteins in the brain-corpus cardiacum-corpus allatum complex of the silkworm,Bombyx mori: Involvement in the secretion of prothoracicotropic hormone

At least three GTP-binding proteins (G-proteins), 28, 25, and 21 kDa, were found in the brain-corpus cardiacum-corpus allatum complex (BR-CC-CA) of the silkworm, Bombyx mori. They bound to GTP and GDP specifically among nucleotides tested, indicating that these proteins are small G-proteins. The 25 kDa G-protein showed a cross-reactivity to anti-rab3A antibody, while it did not cross-react with anti-rhoA, rab3B, and anti-ras antibodies. On the other hand, the 28 and 21 kDa G-proteins showed no cross-reactivity to any of those antibodies tested. Immunoblot analysis using the anti-rab3A antibody demonstrated that the 25 kDa G-protein was detected preferentially in the BR-CC-CA, and to some extent in the suboesophageal ganglion, but not in the salivary gland, fat body, prothoracic gland, and oesophagus. These results suggested that the 25 kDa G-protein was a member of the rab family of G-proteins. Furthermore, 1 mM GTPγS capable of activating G-proteins induced BR-CC-CA to release PTTH under the conditions that stimulation of the PTTH release with hetero-trimeric G-protein was suppressed. These results indicated that the small G-proteins may possibly contribute to PTTH release in Bombyx mori. Arch. Insect Biochem. Physiol. 38:177–184, 1998. © 1998 Wiley-Liss, Inc.     

Neuroendocrine control of diapause hormone secretion in the silkworm,Bombyx mori

To clarify the control mechanism of diapause hormone (DH) secretion in the silkworm Bombyx mori a series of anatomical and pharmacological experiments were carried out. The arrangement of 'diapause' and 'non-diapause' eggs in the ovarioles of the moths was determined by the coloration method to estimate the accumulation of 3-hydroxykynurenine in the eggs. The females destined to lay non-diapause eggs (non-diapause producers) had diapause eggs in their ovaries if their subesophageal ganglions (Sg) had been surgically removed at 2days after larval-pupal ecdysis or later. In contrast when the surgical extirpation extended to the brain and the corpora cardiaca (CC)-corpora allata (CA) complex in addition to the Sg, the non-diapause producers had no diapause eggs. When the Sg was removed from the females destined to lay diapause eggs (diapause-producers), diapause eggs appeared in response to the treatment at 2days after larval-pupal ecdysis, but the appearance of diapause eggs was delayed by 2days when the brain-CC-CA complex was included among the organs removed. These observations suggested that DH is produced in Sg and transferred to the CC-CA complex, and that the secretion of DH from the complex is suppressed in non-diapause producers. The pattern of diapause and non-diapause eggs induced by the transection of the subesophageal connective in diapause and non-diapause producers suggested a regenerative and secretory capacity of the neurosecretory cells after the operation. The appearance of diapause eggs in non-diapause producers with transected protocerebrum of the brain confirmed that there was an inhibitory center in the protocerebrum. Changes in parts of the ovarioles containing diapause and non-diapause eggs with time of injection of gamma-aminobutyric acid (GABA) and picrotoxin suggested that a GABAergic inhibitory mechanism in DH secretion may be active in non-diapause producers but inactive in diapause producers throughout the pupal stage.     

EcR expression in the prothoracicotropic hormone-producing neurosecretory cells of the Bombyx mori brain

The steroid hormone 20-hydroxyecdysone (20E) initiates insect molting and metamorphosis through binding with a heterodimer of two nuclear receptors, the ecdysone receptor (EcR) and ultraspiracle (USP). Expression of the specific isoforms EcR-A and EcR-B1 governs steroid-induced responses in the developing cells of the silkworm Bombyx mori. Here, analysis of EcR-A and EcR-B1 expression during larval-pupal development showed that both genes were up-regulated by 20E in the B. mori brain. Whole-mount in situ hybridization and immunohistochemistry revealed that EcR-A and EcR-B1 mRNAs and proteins were exclusively located in two pairs of lateral neurosecretory cells in the larval brain known as the prothoracicotropic hormone (PTTH)- producing cells (PTPCs). In the pupal brain, EcR-A and EcR-B1 expression was detected in tritocerebral cells and optic lobe cells in addition to PTPCs. As PTTH controls ecdysone secretion by the prothoracic gland, these results indicate that 20E-responsive PTPCs are the master cells of insect metamorphosis.     

Developmental profile of the changes in the prothoracicotropic hormone titer in hemolymph of the silkworm Bombyx mori: correlation with ecdysteroid secretion

A very sensitive time-resolved fluoroimmunoassay for the prothoracicotropic hormone (PTTH) of the silkworm Bombyx mori has been established. The lower limit of detection in this assay was 0.1 pg. With this assay method, the amounts of PTTH in the central nervous system and hemolymph were quantified. PTTH was detected only in the brain within the central nervous system, and, in the fifth instar, its content in the brain increased gradually with larval growth and decreased rapidly after the beginning of wandering. A substantial amount of PTTH was also found in the retrocerebral complex of day-3 fifth instar larvae, accounting for 28% of total PTTH. The PTTH titer in hemolymph changed dramatically during Bombyx development, with a small peak in the middle of the fourth instar, medium-sized peaks at the wandering and prepupal stages in the fifth instar, and a large prolonged peak during early pupal-adult development. The changes were overall closely correlated with those in hemolymph ecdysteroid titer. However, some unexpected aspects of PTTH dynamics in hemolymph have also been disclosed. Based on these observations, the significance of PTTH secretion in the control of insect development is discussed.     

家蚕化学诱变剂及诱导突变体的筛选

在家蚕Bombyx mori基因组计划完成之后,其功能基因组研究成为该领域的最重要课题。突变体是功能基因组学研究的重要材料,因此,通过人为诱导获取大量的突变系统是及其重要的手段。本研究用化学诱变剂ENU、MNU、DES、5-BU、EMS诱导处理家蚕标准品种C108,筛选获得了非滞育红卵,长圆筒茧、小茧、丝胶茧及绵茧突变体,致死突变体及无鳞毛蛾翅突变体。结果还表明： MNU、DES诱变家蚕的突变效率高,注射翅原基比腹部更方便且效果好,化学诱导雄体比雌体的效果好; 在时期上,注射蛹和蛾都有诱导效果。上述突变体大多为致死性突变,推测其可能与致死性基因突变有关。同时,本研究为应用TILLING技术鉴定家蚕更多目的基因突变体提供了有效的材料。     

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.     

Storage proteins in the silkworm,Bombyx mori

In the silkworm, Bombyx mori, two storage proteins named SP-1 and SP-2 were shown to decline in concentration in the haemolymph and increase in the fat body during the larval-pupal transformation, when protein granules are formed in the fat body at the same time as the degeneration of mitochondria and endoplasmic reticulum. At the larval-pupal ecdysis, in females the two proteins account for 60% of total fat body protein (80% of the soluble protein), while males have very little SP-1 and SP-2 comprises only 20% of the total fat body protein. The concentration of protein granules in the fat body cytoplasm is much greater in females than in males, and the granules in females have partially crystalline inner zones. This is different from males where granules with non-crystalline structure are most numerous.The properties of these proteins purified from pupal fat body are similar to those of Cecropia storage proteins and calliphorin, all of which have molecular weights of around 500,000 and are composed of subunits of mol. wt about 85,000. SP-1 differs from SP-2 by having an exceptionally high content of methionine, but much less glutamate, phenylalanine and tyrosine. SP-1 resembles another female-specific protein, vitellogenin and SP-2 resembles calliphorin in amino acid composition.From these results, it is concluded that SP-1 and SP-2 have storage roles and are deposited in protein granules.     

Isolation and amino terminal sequence of melanization and reddish coloration hormone (MRCH) from the silkworm,Bombyx mori

Cuticular melanization associated with the gregarious phase of the common armyworm larvae, Leucania separata, is caused by a neurohormone, melanization and reddish coloration hormone (MRCH). Two molecular species of MRCH were isolated from 211,000 heads of adult Bombyx mori with conventional column chromatography and reversed-phase high performance liquid chromatography. As little as 6 ng of purified MRCH elicited marked melanization in the cuticle of an L. separata larva. Automated Edman degradation confirmed 16 residues of N-terminal amino acid sequences of the purified MRCHs; these showed homology with each other.