20-羟基蜕皮甾酮处理后舞毒蛾外部形态和幼虫体壁超微结构的变化

为了探明20-羟基蜕皮甾酮对昆虫蜕皮过程中体壁的表皮层、 皮细胞及其细胞器的具体影响过程, 本研究利用透射电镜技术研究了20-羟基蜕皮甾酮对舞毒蛾Lymantria dispar （Linnaeus）5龄幼虫体壁超微结构的变化。结果表明, 用高浓度20-羟基蜕皮甾酮溶液浸过的白桦叶片饲喂幼虫, 处理6 h, 摄入约400 μg 20-羟基蜕皮甾酮后, 幼虫停止取食; 处理12 h时表皮细胞顶膜上的微绒毛减少, 在皮细胞与旧表皮之间形成蜕皮间隙, 旧头壳从幼虫头部脱离; 处理24 h时蜕皮间隙继续增大, 旧表皮与皮细胞进一步分离, 新表皮质层开始形成; 处理36 h时皮细胞顶膜形成较短的微绒毛, 胞质区域出现数量较多的电子疏松泡, 新表皮由上表皮、 外表皮及8层左右内表皮片层组成; 处理48 h时顶膜与内表皮界限模糊, 内表皮继续合成至16层左右; 72 h时细胞内出现大面积电子疏松泡, 内表皮合成至20层左右。 处理96 h时, 与对照组相比, 皮细胞细胞器较少, 核仁周围出现小部分空白区域, 胞质区域内含物减少; 虫体发黑缩小, 即将死亡; 内表皮层数仍旧保持20层左右。对照组幼虫6-96 h虫体活跃, 正常取食, 外部观察及透射电镜结果均未显现蜕皮现象; 表皮层由上表皮、 外表皮及内表皮组成; 皮细胞顶膜微绒毛密度高; 表皮细胞分泌活动旺盛, 胞质区域细胞界限明显, 内含物丰富; 细胞器典型而且活跃; 内表皮片层随时间不断增加至50层左右。结果提示, 外源20-羟基蜕皮甾酮能够导致舞毒蛾5龄幼虫的致死性蜕皮。     

Changes in external morphology and integument ultrastructure of the 5th instar larvae of Lymantria dispar ( Lepidoptera: Lymantridae) treated by 20-hydroxyecdysone

为了探明20-羟基蜕皮甾酮对昆虫蜕皮过程中体壁的表皮层、皮细胞及其细胞器的具体影响过程,本研究利用透射电镜技术研究了20-羟基蜕皮甾酮对舞毒蛾Lymantria dispar( Linnaeus)5龄幼虫体壁超微结构的变化.结果表明,用高浓度20-羟基蜕皮甾酮溶液浸过的白桦叶片饲喂幼虫,处理6h,摄人约400 μg 20-羟基蜕皮甾酮后,幼虫停止取食;处理12h时表皮细胞顶膜上的微绒毛减少,在皮细胞与旧表皮之间形成蜕皮间隙,旧头壳从幼虫头部脱离;处理24 h时蜕皮间隙继续增大,旧表皮与皮细胞进一步分离,新表皮质层开始形成;处理36 h时皮细胞顶膜形成较短的微绒毛,胞质区域出现数量较多的电子疏松泡,新表皮由上表皮、外表皮及8层左右内表皮片层组成;处理48 h时顶膜与内表皮界限模糊,内表皮继续合成至16层左右;72h时细胞内出现大面积电子疏松泡,内表皮合成至20层左右.处理96 h时,与对照组相比,皮细胞细胞器较少,核仁周围出现小部分空白区域,胞质区域内含物减少;虫体发黑缩小,即将死亡;内表皮层数仍旧保持20层左右.对照组幼虫6 -96 h虫体活跃,正常取食,外部观察及透射电镜结果均未显现蜕皮现象;表皮层由上表皮、外表皮及内表皮组成;皮细胞顶膜微绒毛密度高;表皮细胞分泌活动旺盛,胞质区域细胞界限明显,内含物丰富;细胞器典型而且活跃;内表皮片层随时间不断增加至50层左右.结果提示,外源20-羟基蜕皮甾酮能够导致舞毒蛾5龄幼虫的致死性蜕皮.     

长角血蜱若虫发育期20——羟基蜕皮酮含量变化与表皮发生的关系

用高效液相色谱和放射免疫分析对长角血蜱Haemaphysalislongicornis若虫发育期整体蜕皮激素(20-E)含量变化进行了测定,并用扫描电镜对其表皮结构及其发生进行了观察.20-E存在于若虫整个发育期,饥饿、吸血和饱血后前4天,激素水平低(0.71～1.30ng/头);饱血后6天明显增加,此时皮层溶离开始,蜕皮间隙形成;饱血后7天继续增加;饱血后8天,20-E含量达到高峰(8.70ng/头),此时若虫开始沉积新的上表皮;高峰后,20-E含量急剧下降,直到蜕皮前保持低水平,此期内沉积新的原表皮,旧表皮被部分吸收.上述结果显示出20-E含量急剧增加及其高峰分别与启动皮层溶离和新的上表皮沉积相吻合,20-E与新的原表皮沉积无关.     

昆虫蜕皮的分子机理及应用

昆虫蜕皮是一个由PTTH启始的、激素介导的基因序列表达和相互作用的级联反应过程。阐明昆虫蜕皮的分子机理,不仅可以解释发育生物学的科学问题,为害虫控制提供新的思路,还可以从中发现新的可资生产应用的分子。作者通过蛋白质组学方法从棉铃虫Helicoverpa armigera Hubner蜕皮幼虫鉴定到30个差异表达的蛋白质。通过抑制性消减杂交技术,从棉铃虫蜕皮幼虫、变态决定幼虫和5龄取食幼虫鉴定到100个表达序列标签(EST)。证明其中的11个EST在蜕皮或变态时差异表达。通过RT-PCR方法克隆棉铃虫激素接受子3基因,研究该基因在发育中的表达模式。用该基因构建具有绿色荧光蛋白标记和多角体蛋白的基因重组病毒(AcMNPV-GFP-HHR3-Polh)。实验结果表明,AcMNPV-GFPHHR3-Polh病毒可以通过注射或口服感染棉铃虫,导致棉铃虫幼虫非正常蜕皮、生长延缓、半数存活时间下降。该研究显示昆虫蜕皮功能基因在害虫控制中有很好的应用前景。蜕皮功能基因的表达与调控、蜕皮激素介导的信号转导通路、变态过程中组织解体和重建的分子机理、激素调控基因顺序表达的分子机理、变态起始因子、JH受体等是本领域今后的主要研究方向。     

长角血若虫发育期20—羟基皮酮含量变化与表皮发生的关系

用高效液相色谱和放射免疫分析对长角血蜱Haemaphysalis longicornis若虫发育期整体蜕皮激素（20－E）含量变化进行了测定,并用扫描电镜对其表皮结构及其发生进行了观察。20－E存在于菲虫整修发育期,饥饿、吸血和饱血后前4天,激素水平低（0.71－1.30ng/头）;饱血后6天明显增加,此时皮溶离开始,蜕皮间隙形成;饱血后7天继续增加;饱血后8天,20－E含量达到高峰（8.70ng/头）,此时若虫开始沉积新的上表皮;高峰后,20－E含量急剧下降,直到蜕皮前保持低水平,此期内沉积新的原表皮,旧表皮被部分吸收,上述结果显示出20－E含量急剧增加及其高峰分别与启动皮层溶离和新的上表皮沉积相吻合,20－E与新的原表皮沉积无关。     

中华绒螯蟹蜕皮过程中体壁结构和主要成分的变化

采用组织化学和原子吸收分析等方法, 研究了中华绒螯蟹蜕皮过程中体壁结构和主要成分的变化。结果显示: 中华绒螯蟹体壁分为上表皮、外表皮、内表皮和膜层, 糖类物质各层均有分布, 胶原纤维分布在除上表皮外的其他各层。在蜕皮前, 糖类、胶原纤维都被重吸收, 体壁上表皮和外表皮在蜕皮前形成, 内表皮和膜层在蜕皮后形成。体壁粗蛋白含量在蜕皮前期(D1-D3-4期)降低(P0.05), 蜕皮后A-B期含量极高(P0.05)。几丁质含量在蜕皮过程中变化不显著(P0.05), 只是在蜕皮前稍有上升。Ca2+和Mg2+含量在蜕皮前D1期显著低于蜕皮间期和蜕皮前其他时期(P0.05), 而蜕皮后A-B期降到最低(P0.05), 蜕下的甲壳中则含有较多的Ca2+和Mg2+ (P0.05)。Cu2+和Zn2+含量除蜕皮后A-B期升高外(P0.05), 其余时期变化不明显(P0.05)。这些研究结果表明, 中华绒螯蟹体壁结构和成分变化与蜕皮周期密切相关。       

水生甲壳类蜕皮发生过程及其影响因素的研究与进展

甲壳类的蜕皮发生贯穿甲壳类的整个生命周期,与其生长、发育及繁殖息息相关。相对于其他生物,甲壳类的生长是非连续性的,每次蜕皮过程都需要蜕去旧表皮,合成新表皮,同时体宽与体重在较短时间内实现一次跨越式增长。影响甲壳类的蜕皮发生的因素众多,本文重点从内源因子(蜕皮激素、蜕皮抑制激素、蜕皮激素受体与维甲类X受体、性腺发育)与外源因子(温度、光照、盐度、钙离子、饵料与污染物)两个方面概括总结了影响水生甲壳类蜕皮发生的关键因子及其国内外研究进展,分析了其关键因子对水生甲壳类蜕皮发生的影响机制,并尝试对水生甲壳类蜕皮发生当前存在的主要问题进行讨论。     

棉铃虫蛹期血淋巴的蜕皮甾类

目前为止仅在少数几种昆虫中研究过蛹期的蜕皮激素。关于蜕皮甾类的性质分析,结果也颇不一致。本文采用放射免疫分析、薄层层析、高压液相色谱及质谱对棉铃虫Heliothis armigera蛹血淋巴内的蜕皮激素进行了研究。结果如下:1.物理-化学方法证明蛹血淋巴内存在二种蜕皮甾类:蜕皮酮和20-羟基蜕皮酮。2.蛹期蜕皮甾类滴度呈一宽峰,高峰出现在化蛹后的第5天(3435ng/ml)。3.在高峰时,蜕皮酮与20-羟基蜕皮酮的比例为1:3.57,说明20-羟基蜕皮酮是主要的蜕皮甾类。4.比较雌雄两性蛹的蜕皮甾类滴度,未见明显差异。研究表明在棉铃虫中影响成虫发育的主要激素是20-羟基蜕皮酮而不是蜕皮酮。     

棉铃虫蜕皮时期同工酶表达模式

同工酶广泛存在于不同种属生物的组织细胞中,在生物发育的不同阶段有着特定的表达模式和重要的生理功能。昆虫蜕皮是在促前胸腺激素（PTTH）、蜕皮激素和保幼激素共同控制下由一系列基因表达和调控的级联反应。阐明蜕皮发育过程中同工酶的表达模式,可以为研究蜕皮的分子机理提供新的分子靶标,为研制生长调节剂类杀虫剂提供检测的分子标记。该研究分析了棉铃虫Helicoverpa armigera蜕皮时期不同组织中过氧化物酶、乙醇脱氢酶和酯酶的表达模式,找到了3种蜕皮差异表达的过氧化物酶, 2种蜕皮或变态差异表达的乙醇脱氢酶,3种蜕皮差异表达的酯酶。生长调节剂类化学杀虫剂非甾醇类蜕皮激素竞争物RH24-85可以诱导3种酯酶表达上调,可能与蜕皮有关。这些结果为进一步研究棉铃虫蜕皮的分子机理和检测促蜕皮生长调节剂类化学杀虫剂提供了新的分子靶标。     

滞育和非滞育棉铃虫血淋巴类固醇蜕皮素含量变化的比较

采用放射免疫分析法对不同时期的注定滞育和非滞育棉铃虫的血淋巴中的类固醇蜕皮素的含量进行了测定,发现在预蛹期间,注定滞育的棉铃虫的类固醇蜕皮素含量高于非滞育的棉铃虫,化蛹后,注定滞育的棉铃虫的类固醇蜕皮素含量则迅速降到极低的水平,明显低于非滞育棉铃虫。用20-羟基蜕皮素处理不同时期的滞育蛹,均能打破滞育。由此可见,类固醇蜕皮素含量的降低或缺乏乃是导致棉铃虫滞育的关键因子之一。     

Ultrastructural Effects of a Non-Steroidal Ecdysone Agonist,RH-5992, on the Sixth Instar Larva of the Spruce Budworm,Choristoneura fumiferana

Force feeding of RH-5992 (Tebufenozide), a non-steroidal ecdysone agonist to newly moulted sixth instar larvae of the spruce budworm, Choristoneura fumiferana, (Lepidoptera: Tortricidae) initiates a precocious, incomplete moult. Within 6h post treatment (pt) the larva stops feeding and remains quiescent. Around 12hpt, the head capsule slips partially revealing an untanned new head capsule that appears wrinkled and poorly formed. By 24hrpt, the head capsule slippage is pronounced and there is a mid-dorsal split of the old cuticle in the thoracic region but there is no ecdysis. The larva remains moribund in this state and ultimately dies of starvation and desiccation. The temporal sequence of the external and internal changes of the integument were studied using both scanning and transmission electron microscopy. Within 3hpt, there is hypertrophy of the Golgi complex indicating synthetic activity and soon after, large, putative ecdysial droplets are seen. Within 24h, a new cuticle that lacks the endocuticular lamellae is formed. The formation of the various cuticular components, the degradation of the old cuticle and changes in the organelles of the epidermal cells of the mesothoracic tergite are described. The difference between the natural moult and the one induced by RH-5992 are explained on the basis of molecular events that take place during the moulting cycle. The persistence of this ecdysone agonist in the tissues permits the expression of all the genes that are up-regulated by the presence of the natural hormone but those that are turned on in the absence of the hormone are not expressed.     

In vivo and in vitro effects of the nonsteroidal ecdysteroid agonist tebufenozide on cuticle formation in Spodoptera exigua: An ultrastructural approach

To evaluate the ecdysteroid-like mode of action of tebufenozide (RH-5992), the effects on the fine structure of the integument in last- and third-instar larvae of the beet armyworm, Spodoptera exigua, and on cuticle formation in cultured imaginal wing discs, were studied. After 3 h of treatment with tebufenozide, the first signs of a normal moult were observed in treated larvae. A few hours later, ecdysial space formation and secretion of a new epicuticle were started. Furthermore, the new cuticle was incomplete in treated larvae; the new procuticle was absent or contained only a very low number of lamellae. In addition, epidermal cells showed many vacuoles and symptoms of degeneration with increase in time. Only a few lamellae of the old procuticle were digested, and normal ecdysis was inhibited which led to the presence of a double cuticle within 24–48 h after treatment. Similarly, cultured discs were stimulated to deposit a new cuticle within 12 h after cultivation in a medium containing tebufenozide. Our observations in treated S. exigua larvae on the one hand and in imaginal discs cultured with tebufenozide on the other hand are indicative of a hyperecdysteroid action, and confirm that the moult accelerating mode of action of tebufenozide resulted in a forced, untimely synthesis of cuticle by activation of epidermal or epithelial cells, and that its ecdysis inhibitory activity is mediated by its effect on post-apolysis processes. © 1996 Wiley-Liss, Inc.     

Penetration of the cuticular layers of elaterid larvae (Coleoptera) by the fungus Metarrhizium anisopliae, and notes on a bacterial invasion

The penetrant hyphae of Metarrhizium anisopliae in the exuvial cuticle of a molting wireworm can form secondary appressoria on the developing new cuticle. From these a new penetrant fungal apparatus can develop through the new cuticle toward the body cavity. The penetrant fungal apparatus in the ecdysial space of the host does not appear to be affected by the histolytic enzymes in the wireworm molting fluid. A mucoidlike substance that envelopes the fungus in the ecdysial space may be, in part, the protective mechanism involved. Bacteria from the soil often invade the ecdysial space of molting wireworms that have difficulty in shedding their exuvia. Pseudomonas aeruginosa can histolyze the proteinaceous exocuticle of the exuvium, the ecdysial membrane, and the dense inner epicuticle of the new cuticle, but not the epicuticle of the exuvium, when it invades the ecdysial space of a molting wireworm.     

Fine structural survey of old cuticle degradation during pre-ecdysis in two European Atlantic crabs

Light and transmission electron microscopy were used to monitor changes due to the degradation of the old exoskeleton and related events in the sclerites, articular membranes, and gills of two decapod crustaceans (Carcinus maenas and Macropipus puber) during pre-ecdysis. In both sclerites and articular membranes, degradation follows a similar general pattern in both crab species, while the gill cuticle appears unaltered. In early pre-ecdysis (D(0)), the degradation of the old cuticle starts with the secretion of ecdysial droplets by the epidermis. Apolysis, occurring at stage D(1)', is re-defined as an event, not necessarily morphologically observable, consisting in the loss of adherence between the epidermis and the old cuticle during early pre-ecdysis of arthropods. At the stage D(1)', the moulding of the epidermal cell surface occurs in preparation to the deposition of the new cuticle and causes the opening of the ecdysial cleft. In the principal layer of sclerites, degradation of the chitin-protein microfibres should precede mineral dissolution. In contrast to the other degraded cuticle layers, the membranous layer of sclerites and the innermost endocuticular lamellae of articular membranes are transformed into a digestion-resistant fibrous network resembling the ecdysial membrane of insects.     

Brain neurosecretory cell and ecdysiotropin activity of the non-diapausing,pre-diapausing and diapausing southwestern corn borer, Diatraea grandiosella Dyar

The location and number of brain neurosecretory cells were studied in the larval southwestern corn borer. One posterior, two median and two lateral groups of paraldehyde-fuchsin positive cells were found in each cerebral hemisphere.Implantation of brain parts containing different groups of neurosecretory cells revealed that the median neurosecretory cells contained higher ecdysiotropic activity than the other cell groups. In vitro culture of ecdysial gland with brain or brain-parts extract showed also that the median neurosecretory cells contained much higher ecdysiotropic activity than other neurosecretory cells. To estimate the ecdysiotropic activity of pre-diapausing 6th instar larvae, their brain or brain extract was incubated in culture medium containing an ecdysial gland from a day-4 last-instar non-diapausing larva. Data showed that the ecdysiotropic activity in the pre-diapausing larvae was far lower than in non-diapausing and diapausing larvae.     

Hydration effects on physiological strain of horses during exercise-heat stress

This study examined the effects ofhyperhydration, exercise-induced dehydration, and oral fluidreplacement on physiological strain of horses during exercise-heatstress. On three occasions, six horses completed a 90-min exerciseprotocol (50% maximal O₂ uptake,34.5°C, 48% relative humidity) divided into two 45-min periods(exercise I andexercise II) with a 15-min recoverybetween exercise bouts. In random order, horses receivedno fluid (NF), 10 liters of water (W), or a carbohydrate-electrolytesolution (CE) 2 h before exercise and between exercise bouts. Compared with NF, preexercise hyperhydration (W and CE) did not alter heart rate, cardiac output (), stroke volume (SV), corebody temperature, sweating rate (SR), or sweating sensitivity duringexercise I. In contrast, afterexercise II, exercise-induceddehydration in NF (decrease in body mass: NF, 5.6 ± 0.8%; W, 1.1 ± 0.4%; CE, 1.0 ± 0.2%) resulted in greater heat storage,with core body temperature ~1.0°C higher compared with W and CE.In exercise II, the greater thermalstrain in NF was associated with significant(P < 0.05) decreases in (10 ± 2%), SV (9 ± 3%), SR, and sweatingsensitivity. We concluded that 1)preexercise hyperhydration provided no thermoregulatory advantage;2) maintenance of euhydration byoral fluid replacement (~85% of sweat fluid loss) during exercise inthe heat was reflected in higher , SV, and SR withdecreased heat storage; and 3) W oran isotonic CE solution was equally effective in reducing physiological strain associated with exercise-induced dehydration and heat stress.

     

Metabolic effects of low cortisol during exercise in humans

This studyexamined the physiological effect of reduced plasma cortisol (C) duringprolonged exercise in humans. The effects of normal C (NC) werecompared with metyrapone-induced low C (LC) on plasma substrateavailability and the respiratory exchange ratio during 2 h of exerciseat ~60% peak O₂ consumption innine subjects. The C responses were compared with preexercise (Pre) levels and with a rest day (Con). At rest, C was attenuated by ~70%for LC compared with NC. At rest, plasma glucose, lactate, glycerol,-hydroxybutyrate, alanine, branched-chain amino acids, insulin,glucagon, growth hormone, epinephrine, and norepinephrine were similarunder LC and NC (P > 0.05). Duringexercise under NC, plasma C increased compared with Pre, whereas itremained unchanged during LC. During NC, plasma C was elevated at 90 min (compared with Con) and at 120 min (compared with Con and Pre). During exercise, plasma glucose decreased to the same extent and lactate was similar under both conditions, whereas plasma glycerol, -hydroxybutyrate, alanine, and branched-chain amino acids were higher (P < 0.01) under NC. Plasmainsulin declined (P = 0.01) to agreater extent under LC, whereas growth hormone, epinephrine, andnorepinephrine tended to be higher (0.05  P  0.10). Plasma glucagon increasedunder both conditions (P < 0.01).The respiratory exchange ratio did not differ between conditions. Weconclude that, during exercise, 1) Caccelerates lipolysis, ketogenesis, and proteolysis;2) under LC, glucoregulatory hormoneadjustments maintain glucose homeostasis; and3) LC does not alter whole body substrate utilization or the ability to complete 2 h of moderate exercise.

     

Neural crest cell behavior in white and dark embryos of Ambystoma mexicanum: Epidermal inhibition of pigment cell migration in the white axolotl

Melanophores in larvae of the white (dd) strain of the Mexican axolotl (Ambystoma mexicanum) are confined to the dorsal midline of the trunk and dorsal posterior part of the head, whereas those in dark larvae (D_-) are distributed over the flank as well. Our results show that this phenotype of white larvae is the result of the failure of the melanophores or their neural crest precursor cells to migrate laterally due to an inhibition of or a failure in the support of their migration in the subepidermal space by the overlying epidermis. Correlated light and scanning electron microscopy of dissected larvae showed melanophores occupying the subepidermal space on the flank of dark larvae, whereas these cells were restricted to the dorsal midline of white larvae. Grafting experiments in which patches of epidermis, the underlying mesoderm, or both, were exchanged between dark and white embryos suggested that white epidermis alone can prevent the integration of pigment cells on the flank of dark larvae and, conversely, that grafts of dark epidermis alone can support their migration on the flank of white larvae. Mesoderm, when grafted alone, could not be shown to have similar effects.     

“Exolysosomes,” Enzyme-Containing Vesicles in the Ecdysial Space of Molting Crabs

Free vesicle-like bodies (VLBs) present in the ecdysial space of cuticle regions undergoing degradation during preecdysis of the Atlantic shore crabCarcinus maenashave been interpreted either as infectious organisms or as secretion structures associated with degradation of the old cuticle. Ultrastructural, cytochemical, and immunocytological investigations were performed to test these hypotheses and to see whether VLBs are peculiar to this crab species. Similar VLBs were systematically found in two other preecdysial crabs,Cancer pagurusandMacropipus puber.InCar. maenas,they originate during early premolt inside Golgi buddings and are often gathered into large vacuoles in epidermal cells. The histochemical azo-dye technique and a cerium-based cytochemical method revealed acid phosphatase activity in both the ecdysial space and the VLBs, while Feulgen's method and immunocytological labeling always failed to reveal any DNA or RNA in either the ecdysial space or the VLBs. We conclude that VLBs are not infectious organisms but “extracellular” cuticle-degrading organelles of lysosomal origin and propose to coin them “exolysosomes.”