昆虫蜕皮激素受体及其类似物的杀虫机制研究进展

昆虫的蜕皮、变态和繁殖受到蜕皮激素的严格调控。蜕皮激素作用靶标由蜕皮激素受体（ecdysteroid receptor, EcR）和超气门蛋白（ultraspiracle protein, USP）组成,蜕皮激素与EcR/USP作用启动蜕皮级联反应过程。昆虫EcR具有种类或类群的特异性,研究其结构、功能和调控机理在开发环境友好型新药剂和基因调控开关等方面具有重要指导作用。该文介绍了昆虫EcR的结构和功能特点,蜕皮激素及其类似物与EcR/USP的分子作用方式,以及基于EcR/USP的新杀虫剂创制和基因调控开关设计等方面的重要进展。     

Ligand-induced heterodimerization between the ligand binding domains of the Drosophila ecdysteroid receptor and ultraspiracle.

The insect ecdysteroid receptor consists of a heterodimer between EcR and the RXR-orthologue, USP. We addressed the question of whether this heterodimer, like all other RXR heterodimers, may be formed in the absence of ligand and whether ligand promotes dimerization. We found that C-terminal protein fragments that comprised the ligand binding, but not the DNA binding domain of EcR and USP and which were equipped with the activation or DNA binding region of GAL4, respectively, exhibit a weak ability to interact spontaneously with each other. Moreover, the heterodimer formation is greatly enhanced upon administration of active ecdysteroids in a dose-dependent manner. This was shown in vivo by a yeast two-hybrid system and in vitro by a modified electromobility shift assay. Furthermore, the EcR fragment expressed in yeast was functional and bound radioactively labelled ecdysteroid specifically. Ligand binding was greatly enhanced by the presence of a USP ligand binding domain. Therefore, ecdysteroids are capable of inducing heterodimer formation between EcR and USP, even when the binding of these receptor proteins to cognate DNA response elements does not occur. This capability may be a regulated aspect of ecdysteroid action during insect development.     

Profile of the ecdysteroid hormone and its receptor in the salivary gland of the adult female tick, Amblyomma hebraeum

We examined the hemolymph ecdysteroid titer (by radioimmunoassay) and profile of the ecdysteroid receptor (EcR/USP; by [3H]ponasterone A binding, gel mobility shift assay, Western blot) in the salivary gland of the ixodid tick, Amblyomma hebraeum Koch (Acari: Ixodidae) throughout the tick feeding period and first 6 days post-engorgement. Throughout the slow phase of feeding, the hemolymph ecdysteroid titer was approximately 18 pg/microliter. The titer peaked at approximately 52 pg/microliter during the rapid phase of feeding, falling back to approximately 22 pg/microliter on the day of engorgement. Ecdysteroid titer rose again to approximately 750 pg/microliter by day 6 post-engorgement. EcR was undetectable by any of the three assays in unfed ticks. Following the onset of feeding, there appeared both specific ponasterone A binding and two major EcR bands detected by Western blot analysis. Both measurements were sustained throughout the feeding period, but declined after detachment when the salivary glands were degenerating. After ticks reached about 100 mg (by which time most females are mated), a discrete DNA-binding band was shown by gel mobility shift assay using Drosophila hsp27 EcRE as a probe. Moreover, the band intensified when hemolymph ecdysteroid titer reached its peak during the rapid phase of feeding; it declined along with decreasing EcR/USP levels, and with specific ligand binding activity following engorgement. This study suggests a role for the small hemolymph ecdysteroid peak during the rapid phase of feeding in initiating salivary gland degeneration.     

Modulation of the ecdysteroid-induced cell death by juvenile hormone during pupal wing development of Lepidoptera

Females of the tussock moth Orgyia recens have only vestigial wings, whereas the males have normal wings. We previously found that ecdysteroid induces both apoptotic events and phagocytotic activation in sex-specific and region-specific manners. To investigate whether different responses to ecdysteroid are controlled at the receptor level, we cloned ecdysteroid receptor isoforms, EcR-A and EcR-B1, in O. recens. In both male and female wings, EcR-A signal was detected in the distal region of the bordering lacuna (BL), whereas EcR-B1 signal was detected in the proximal region of the BL. The similar expression patterns of both EcR isoforms suggested that molecules other than EcR should be involved in different ecdysteroid responses between male and female of O. recens. We next tested juvenile hormone (JH) effects on pupal wing morphogenesis in O. recens. Interestingly, both JH and 20E addition induced wing degeneration not only in females but also in males. In addition, higher concentration of JH pre-treatment of the pupal wings of the silkworm, Bombyx mori, also caused wing degeneration under ecdysteroid treatment. These results indicate that JH modulates the ecdysteroid action to induce the cell death on pupal wings, generally in Lepidoptera.     

Ultraspiracle promotes the nuclear localization of ecdysteroid receptor in mammalian cells

The heterodimer consisting of ecdysteroid receptor (EcR) and ultraspiracle (USP), both of which are members of the nuclear receptor superfamily, is considered to be the functional ecdysteroid receptor. Here we analyzed the subcellular distribution of EcR and USP fused to fluorescent proteins. The experiments were carried out in mammalian COS-7, CHO-K1 and HeLa cells to facilitate investigation of the subcellular trafficking of EcR and USP in the absence of endogenous expression of these two receptors. The distribution of USP tagged with a yellow fluorescent protein (YFP-USP) was almost exclusively nuclear in all cell types analyzed. The nuclear localization remained constant for at least 1 day after the first visible signs of expression. In contrast, the intracellular distribution of EcR tagged with a yellow fluorescent protein (YFP-EcR) varied and was dependent on time and cell type, although YFP-EcR alone was also able to partially translocate into the nuclear compartment. Coexpression of YFP-EcR with USP tagged with a cyan fluorescent protein (CFP-USP) resulted in exclusively nuclear localization of both proteins in all cell types analyzed. The USP-induced nuclear localization of YFP-EcR was stable for at least 20 hours. These experiments suggest that USP has a profound effect on the subcellular distribution of EcR.     

Insecticidal properties of Sclerotinia sclerotiorum agglutinin and its interaction with insect tissues and cells

This project studied in detail the insecticidal activity of a fungal lectin from the sclerotes of Sclerotinia sclerotiorum, referred to as S. sclerotiorum agglutinin or SSA. Feeding assays with the pea aphid (Acyrthosiphon pisum) on an artificial diet containing different concentrations of SSA demonstrated a high mortality caused by this fungal lectin with a median insect toxicity value (LC₅₀) of 66 (49–88) μg/ml. In an attempt to unravel the mode of action of SSA the binding and interaction of the lectin with insect tissues and cells were investigated. Histofluorescence studies on sections from aphids fed on an artificial liquid diet containing FITC-labeled SSA, indicated the insect midgut with its brush border zone as the primary target for SSA. In addition, exposure of insect midgut CF-203 cells to 25 μg/ml SSA resulted in a total loss of cell viability, the median cell toxicity value (EC₅₀) being 4.0 (2.4–6.7) μg/ml. Interestingly, cell death was accompanied with DNA fragmentation, but the effect was caspase-3 independent. Analyses using fluorescence confocal microscopy demonstrated that FITC-labeled SSA was not internalized in the insect midgut cells, but bound to the cell surface. Prior incubation of the cells with saponin to achieve a higher cell membrane permeation resulted in an increased internalization of SSA in the insect midgut cells, but no increase in cell toxicity. Furthermore, since the toxicity of SSA for CF-203 cells was significantly reduced when SSA was incubated with GalNAc and asialomucin prior to treatment of the cells, the data of this project provide strong evidence that SSA binds with specific carbohydrate moieties on the cell membrane proteins to start a signaling transduction cascade leading to death of the midgut epithelial cells, which in turn results in insect mortality. The potential use of SSA in insect control is discussed.     

Synthesis and cytotoxic activity of diosgenyl saponin analogues

Diosgenyl saponins are steroidal glycosides that are often found as major components in many traditional oriental medicines. Recently, a number of naturally occurring diosgenyl saponins have been shown to exert cytotoxic activity against several strains of human cancer cells. Use of these saponin compounds for cancer treatment is hampered due to the lack of understanding of their action mechanism as well as limited access to such structurally complicated molecules. In the present paper, we have prepared a group of diosgenyl saponin analogues which contain a beta-D-2-amino-2-deoxy-glucopyranose residue having different substituents at the amino group. Moderate cytotoxic activity is found for most analogues against neuroblastoma (SK-N-SH) cells, breast cancer (MCF-7) cells, and cervical cancer (HeLa) cells. The analogue 13 that contains an alpha-lipoic acid residue exhibits the highest potency against all three cancer cell lines with IC(50) ranging from 4.8 microM in SK-N-SH cells to 7.3 microM in HeLa cells. Preliminary mechanistic investigation with one saponin analogue (10) shows that the compound induces cell cycle arrest at G(1) phase in SK-N-SH cells, but the same compound induces cell cycle arrest at G(2) phase in MCF-7 cells. This result suggests that the cytotoxic activity of these saponin analogues may involve different action mechanisms in cell lines derived from different cancer sites.     

Role of glycosidases in the membranlytic, antifungal action of Saponins.

In studies on the membranlytic action of various saponins on mycelium of Botrytis cinerea and Rhizoctonia solani digitonin, alpha-hederin and tomatin caused considerable leakage of free amino acids, while aescin and theasaponin were less effective. Cyclamin significantly damaged cell membranes of R. solani, but did not change the selective permeability of B. cinerea. Cell membrane disruption was accompanied by an enzymatic conversion of saponins into their corresponding aglycones in cell membrane vicinity, an effect which was significantly inhibited by aldonolactones, known inhibitors of beta-glycosidases. These results lead to the conclusion that the hardly water soluble aglycones are the active part of the saponin molecules, the saponins themselves being only water soluble transport forms. It follows, that the presence of appropriate glycosidases in cell membranes, capable of converting saponins into their aglycones, is a prerequisite for the membranlytic action of saponins. The similarity of the membranlytic effects of saponins towards fungi and erythrocytes is descussed.     

银杏叶提取物对过氧化氢诱导的星形胶质细胞氧化损伤的保护作用

目的 研究银杏叶提取物（EGb761）对H2O2所致星形胶质细胞氧化损伤的保护作用。方法 用不同浓度的EGb761预处理细胞,再加入H2O2,通过噻唑蓝（MTT）实验、线粒体跨膜电位（△ψm）及细胞色素C释放实验、DNA损伤实验及半胱氨酰天冬氨酸特异性蛋白酶-3（Caspase-3）活性测定,观察EGb761对细胞存活率、线粒体膜通透性、DNA氧化损伤及Caspase-3活性的影响。结果 EGb761能明显降低Hz02对星形胶质细胞的氧化损伤,提高细胞的存活率;维持线粒体膜的完整性,抑制跨膜电位的耗散和细胞色素C的释放;抑制Caspase-3的活化和DNA的降解。结论 EGb761具有清除活性氧,减轻H2O2所致星形胶质细胞的氧化损伤,对星形胶质细胞有保护作用。     

α-Santalol, a derivative of sandalwood oil, induces apoptosis in human prostate cancer cells by causing caspase-3 activation

The anticancer effects of α-santalol, a major component of sandalwood oil, have been reported against the development of certain cancers such as skin cancer both in vitro and in vivo. The primary objectives of the current study were to investigate the cancer preventive properties of α-santalol on human prostate cancer cells PC-3 (androgen independent and P-53 null) and LNCaP (androgen dependent and P-53 wild-type), and determine the possible mechanisms of its action. The effect of α-santalol on cell viability was determined by trypan blue dye exclusion assay. Apoptosis induction was confirmed by analysis of cytoplasmic histone-associated DNA fragmentation using both an apoptotic ELISA kit and a DAPI fluorescence assay. Caspase-3 activity was determined using caspase-3 (active) ELISA kit. PARP cleavage was analyzed using immunoblotting. α-Santalol at 25-75 μM decreased cell viability in both cell lines in a concentration and time dependent manner. Treatment of prostate cancer cells with α-santalol resulted in induction of apoptosis as evidenced by DNA fragmentation and nuclear staining of apoptotic cells by DAPI. α-Santalol treatment also resulted in activation of caspase-3 activity and PARP cleavage. The α-santalol-induced apoptotic cell death and activation of caspase-3 was significantly attenuated in the presence of pharmacological inhibitors of caspase-8 and caspase-9. In conclusion, the present study reveals the apoptotic effects of α-santalol in inhibiting the growth of human prostate cancer cells.     

hormone nuclear receptor (EcR) exhibits circadian cycling in certain tissues, but not others, during development in Rhodnius prolixus (Hemiptera)

The insect moulting hormones, viz. the ecdysteroids, regulate gene expression during development by binding to an intracellular protein, the ecdysteroid receptor (EcR). In the insect Rhodnius prolixus, circulating levels of ecdysteroids exhibit a robust circadian rhythm. This paper demonstrates associated circadian rhythms in the abundance and distribution of EcR in several major target tissues of ecdysteroids, but not in others. Quantitative analysis of immunofluorescence images obtained by confocal laser-scanning microscopy following the use of anti-EcR has revealed a marked daily rhythm in the nuclear abundance of EcR in cells of the abdominal epidermis, brain, fat body, oenocytes and rectal epithelium of Rhodnius. This EcR rhythm is synchronous with the rhythm of circulating hormone levels. It free-runs in continuous darkness for several cycles, showing that EcR nuclear abundance is under circadian control. Circadian control of a nuclear receptor has not been shown previously in any animal. We infer that the above cell types detect and respond to the temporal signals in the rhythmic ecdysteroid titre. In several cell types, the rhythm in cytoplasmic EcR peaks several hours prior to the EcR peak in the nucleus each day, thereby implying a daily migration of EcR from the cytoplasm to the nucleus. This finding shows that EcR is not a constitutive nuclear receptor, as has previously been assumed. In the brain, rhythmic nuclear EcR has been found in peptidergic neurosecretory cells, indicating a potential pathway for feedback regulation of the neuroendocrine system by ecdysteroids, and also in regions containing circadian clock neurons, suggesting that the circadian timing system in the brain is also sensitive to rhythmic ecdysteroid signals. This work was supported by a Discovery Grant from the Natural Sciences and Engineering Research Council of Canada.     

Cytotoxicity and apoptosis-inducing effect of steroidal saponins from Dioscorea zingiberensis Wright against cancer cells

Steroidal saponins from Dioscorea zingiberensis Wright (DZW) have shown cytotoxic activity in cancer cells. In this study, we isolated and identified seven steroidal saponins from the rhizomes of DZW: diosgenin, trillin, diosgenin diglucoside, deltonin, zingiberensis saponin (ZS), protodeltonin and parvifloside. Our results showed that these seven compounds inhibited the proliferation of a panel of established human and murine cancer cell lines in vitro. ZS had more cytotoxic effect than the other saponins, even close to doxorubicin on the murine colon carcinoma cell line C26. The proliferation inhibitory effect of ZS was associated with its apoptosis-inducing effect by activation of caspase-3 and caspase-9 and specific proteolytic cleavage of poly (ADP-ribose) polymerase. Exposure of C26 to ZS also resulted in Bax upregulation and Bcl-2 downregulation. In conclusion, the findings of this study demonstrated that ZS is an effective natural agent for cancer therapy, which may be mediated, in part, by induction of apoptosis, and DZW's potential as an anticancer agent is worth being further investigated.     

DNA binding properties of the ecdysteroid receptor in the salivary gland of the female ixodid tick, Amblyomma hebraeum

Salivary gland degeneration in the female tick, Amblyomma hebraeum Koch (Acari: Ixodidae) is controlled by an ecdysteroid hormone. In an earlier study (Mao, H., McBlain, W.A., Kaufman, W.R., 1995. Some properties of the ecdysteroid receptor in the salivary gland of the ixodid tick, Amblyomma hebraeum. Gen. Comp. Endocrinol. 99, 340–348), we demonstrated that a protein component of a salivary gland extract binds to ponasterone A (Pon A) with high affinity (Kd1 nM), suggesting a tick ecdysteroid receptor (EcR). In this study, the Pon A binding protein bound to calf thymus DNA; this binding could be dissociated by Drosophila hsp27 EcRE. The binding protein shifted the [³²P]hsp27 EcRE band on a gel mobility shift assay; formation of the complex with hsp27 EcRE required KCl (optimal concentration was approximately 75 mM). A number of physiologically effective ecdysteroids enhanced the binding with the following order of potency: Pon A>Mur A>Mak A>20E>ecdysone, whereas vertebrate steroids (estradiol, cholesterol, corticosterone, progesterone, testosterone) had no such effect. Using monoclonal antibodies against Drosophila EcR and USP, we found that AG10.2 recognized three bands (90.5, 87.3 and 84 kDa for EcR) and AB11 recognized at least two major bands (50.3 and 47.1 kDa for USP) in the salivary gland extract by western blot analysis. In addition, AB11 supershifted the tick EcR-hsp27 EcRE band on a gel mobility shift assay, indicating that the tick EcR heterodimerized with a USP-like protein for DNA binding. Furthermore, selective mutations to the 15-basepair palindrome of hsp27 EcRE at positions −5, +2, or adding a base to the spacer, resulted in considerably reduced affinity to the tick EcR/USP. We thus propose a sequence similarity of EcREs between A. hebraeum and its insect counterpart.     

Spatial patterns of ecdysteroid receptor activation during the onset of Drosophila metamorphosis

Ecdysteroid signaling in insects is transduced by a heterodimer of the EcR and USP nuclear receptors. In order to monitor the temporal and spatial patterns of ecdysteroid signaling in vivo we established transgenic animals that express a fusion of the GAL4 DNA binding domain and the ligand binding domain (LBD) of EcR or USP, combined with a GAL4-dependent lacZ reporter gene. The patterns of beta-galactosidase expression in these animals indicate where and when the GAL4-LBD fusion protein has been activated by its ligand in vivo. We show that the patterns of GAL4-EcR and GAL4-USP activation at the onset of metamorphosis reflect what would be predicted for ecdysteroid activation of the EcR/USP heterodimer. No activation is seen in mid-third instar larvae when the ecdysteroid titer is low, and strong widespread activation is observed at the end of the instar when the ecdysteroid titer is high. In addition, both GAL4-EcR and GAL4-USP are activated in larval organs cultured with 20-hydroxyecdysone (20E), consistent with EcR/USP acting as a 20E receptor. We also show that GAL4-USP activation depends on EcR, suggesting that USP requires its heterodimer partner to function as an activator in vivo. Interestingly, we observe no GAL4-LBD activation in the imaginal discs and ring glands of late third instar larvae. Addition of 20E to cultured mid-third instar imaginal discs results in GAL4-USP activation, but this response is not seen in imaginal discs cultured from late third instar larvae, suggesting that EcR/USP loses its ability to function as an efficient activator in this tissue. We conclude that EcR/USP activation by the systemic ecdysteroid signal may be spatially restricted in vivo. Finally, we show that GAL4-EcR functions as a potent and specific dominant negative at the onset of metamorphosis, providing a new tool for characterizing ecdysteroid signaling pathways during development.     

太白银莲花皂苷B对胶质瘤细胞生长抑制的研究

目的:太白银莲花皂苷B(Anemone taipaiensis saponin B)是第一次从太白银莲花中经过系统化学分析和分离鉴定的皂苷之一,所以它的生物学效应目前仍然不清楚。在本研究中,我们首次体外研究太白银莲花皂苷B对胶质瘤细胞系的生物学效应,观察它对胶质瘤细胞增殖的的抑制作用。方法:采用四甲基偶氮唑蓝(MTT)法测定太白银莲花皂苷B对胶质瘤细胞生长曲线的影响,Hoechst 33342细胞核染色后荧光显微镜观察,采用光学显微镜观察细胞的形态学变化。结果:MTT实验结果显示太白银莲花皂苷B对胶质瘤细胞U87MG和U251MG有强烈的生长抑制作用,且具有剂量依赖性,应用SPSS18.0统计软件得出太白银莲花皂苷B对U87MG细胞72 h的抑制浓度为IC25=5.2μmol/L,IC50=6.7μmol/L and IC75=8.7μmol/L,U251细胞的抑制浓度为IC25=6.2μmol/L,IC50=7.9μmol/L and IC75=10.5μmol/L。Hoechst 33342细胞核染色荧光显微镜观察以及光学显微镜下细胞形态观察显示出典型的凋亡细胞形态学特征,经过皂苷B处理后,细胞皱缩成圆球形,细胞核碎裂或者致密浓染,向核膜边缘聚集,染色质浓缩为半月状、车轮状或者马蹄状,凋亡小体出现。这些特征在24 h时更明显。结论:体外实验初步显示,太白银莲花皂苷B对U87MG和U251MG细胞具有明显的增殖抑制作用,并具有促凋亡作用。     

Synergistic interactions of saponins and monoterpenes in HeLa cells, Cos7 cells and in erythrocytes

In phytomedicine complex extracts consisting of phenolics, monoterpenes or saponins are traditionally used. It is often impossible to attribute the biological activity of an extract to one or few compounds. As an explanation of the superior activity of extracts, a synergistic effect of combinations of active compounds has been suggested. Since lipophilic monoterpenes or saponins targeting the biomembrane usually accompany polar polyphenols in phytomedical preparations, we decided to investigate their effect as single substances and in combination to gain further insight into potential synergistic effects of herbal medicine. Combinations of the monoterpenes α-pinene, thymol and menthol with the monodesmosidic saponins digitonin, aescin, glycyrrhizic acid and Quillaja saponin demonstrated strong synergistic activity. The IC(50) of haemolysis was lowered by a factor of 10-100 from 316μg/ml to 2μg/ml for aescin, 157μg/ml to 11μg/ml for Quillaja saponins and 20μg/ml to 3μg/ml for digitonin when combined with thymol. A similar significant synergistic cytotoxicity occurred both in HeLa and Cos7 cells by combining the α-pinene, thymol and menthol with the saponins. The IC(50) of glycyrrhizic acid was lowered by a factor 100 from around 300μg/ml to around 1-10μg/ml and the IC(50) of aescin, digitonin and Quillaja saponins about the factor 10. Monoterpenes and monodesmosidic saponins have a common target, the biomembrane, which is present in all animal, fungal and bacterial cells. Disturbance of membrane fluidity and permeability is the mode of action. This activity is non-specific which makes it extremely difficult for bacteria and fungi to develop resistance. This explains the overall success of these molecules as defence chemicals in the plant kingdom. The synergistic effect of combinations of saponins with monoterpenes opens a complete new field of possible applications in medicine to overcome resistance in multidrug resistant microbial and human cell.