家蚕几丁质去乙酰化酶BmCDA2的基因表达和免疫定位

几丁质的去乙酰化修饰与昆虫的发育变态密切相关,几丁质去乙酰化酶(chitin deacetylase,CDA)是这个过程中的关键酶。家蚕(Bombyxmori)是鳞翅目昆虫的代表性昆虫,目前对家蚕CDAs的研究较少。为了更好地揭示BmCDAs对家蚕变态发育的作用,本研究采用生物信息学分析、蛋白表达纯化以及免疫荧光定位等方法对表皮中高量表达的BmCDA2进行了研究。结果发现,BmCDA2有两种mRNA拼接形式BmCDA2a和BmCDA2b,分别在幼虫眠期和化蛹期表皮高量表达,两个基因均有几丁质去乙酰化酶催化结构域(catalyticdomain)、几丁质结合结构域(chitinbinding domain)和低密度脂蛋白受体结构域(low density lipoprotein receptor domain);Western blotting结果显示,该蛋白在表皮存在,荧光免疫定位发现BmCDA2蛋白随着幼虫新表皮的生成而逐渐增多,推测BmCDA2可能参与了幼虫新表皮的形成。该结果丰富了家蚕CDAs的生物学功能信息,也为其他昆虫CDA的研究提供一些有价值的参考。     

Domain organization and phylogenetic analysis of proteins from the chitin deacetylase gene family of Tribolium castaneum and three other species of insects

A bioinformatics investigation of four insect species with annotated genome sequences identified a family of genes encoding chitin deacetylase (CDA)-like proteins, with five to nine members depending on the species. CDAs (EC 3.5.1.41) are chitin-modifying enzymes that deacetylate the beta-1,4-linked N-acetylglucosamine homopolymer. Partial deacetylation forms a heteropolysaccharide that also contains some glucosamine residues, while complete deacetylation produces the homopolymer chitosan, consisting exclusively of glucosamine. The genomes of the red flour beetle, Tribolium castaneum, the fruit fly, Drosophila melanogaster, the malaria mosquito, Anopheles gambiae, and the honey bee, Apis mellifera contain 9, 6, 5 and 5 genes, respectively, that encode proteins with a chitin deacetylase motif. The presence of alternative exons in two of the genes, TcCDA2 and TcCDA5, increases the protein diversity further. Insect CDA-like proteins were classified into five orthologous groups based on phylogenetic analysis and the presence of additional motifs. Group I enzymes include CDA1 and isoforms of CDA2, each containing in addition to a polysaccharide deacetylase-like catalytic domain, a chitin-binding peritrophin-A domain (ChBD) and a low-density lipoprotein receptor class A domain (LDLa). Group II is composed of CDA3 orthologs from each insect species with the same domain organization as group I CDAs, but differing substantially in sequence. Group III includes CDA4s, which have the ChBD domain but do not have the LDLa domain. Group IV comprises CDA5s, which are the largest CDAs because of a very long intervening region separating the ChBD and catalytic domains. Among the four insect species, Tribolium is unique in having four CDA genes in group V, whereas the other insect genomes have either one or none. Most of the CDA-like proteins have a putative signal peptide consistent with their role in modifying extracellular chitin in both cuticle and peritrophic membrane during morphogenesis and molting.     

Cloning and expression analysis of midgut chymotrypsin-like proteinases in the tobacco hornworm

Digestion of proteins in the midgut of lepidopteran larvae relies on different trypsin and chymotrypsin isoforms. In this study we describe three chymotrypsin-like proteinases (CTLP2-4) from the larval midgut of Manduca sexta, which are closely related to CTLP1 and less closely related to another chymotrypsin (CT), two previously described proteinases present in the larval midgut of M. sexta. CTLP1-4 fit perfectly into a novel subgroup of insect CTLPs by sequence similarity and by the replacement of GP by SA in the highly conserved GDSGGP motif. When we examined CTLP expression in different tissues, most of the proteinases were predominantly expressed in the anterior and median midgut, while some were found in the Malpighian tubules. When we examined CTLP expression at different physiological states, we observed that the CTLP mRNA amounts did not differ considerably in feeding and starving larvae except for CTLP2, whose mRNA dropped significantly upon starvation. During moulting, however, the mRNA amounts of all CTLPs dropped significantly. When we immunologically examined CTLP amounts, mature proteinases were only detectable in the gut lumen of feeding and re-fed larvae, but not in that of starving or moulting larvae, suggesting that CTLP secretion is suspended during starvation or moult.     

Dynamic changes of gut bacterial communities present in larvae of Anoplophora glabripennies collected at different developmental stages

The Asian long-horned beetle, Anoplophora glabripennies (Motschulsky), is a destructive wood-boring pest that is capable of killing healthy trees. Gut bacteria in the larvae of the wood-boring pest is essential for the fitness of hosts. However, little is known about the structure of the intestinal microbiome of A. glabripennies during larval development. Here, we used Illumina MiSeq high-throughput sequencing technology to analyze the larval intestinal bacterial communities of A. glabripennies at the stages of newly hatched larvae, 1st instar larvae and 4th instar larvae. Significant differences were found in larval gut microbial community structure at different larvae developmental stages. Different dominant genus was detected during larval development. Acinetobacter were dominant in the newly hatched larvae, Enterobacter and Raoultella in the 1st instar larvae, and Enterococcus and Gibbsiella in the 4th instar larvae. The microbial richness in the newly hatched larvae was higher than those in the 1st and 4th instar larvae. Many important functions of the intestinal microbiome were predicted, for example, fermentation and chemoheterotrophy functions that may play an important role in insect growth and development was detected in the bacteria at all tested stages. However, some specific functions are found to be associated with different development stages. Our study provides a theoretical basis for investigating the function of the intestinal symbiosis bacteria of A. glabripennies.     

Modalités d'infection des larves deLeptinotarsa decemlineata parBeauveria bassiana au cours de la mue

Résumé L'étude histopathologique des modalités d'infection des larves deL. decemlineata parBeauveria bassiana au cours de la mue a été réalisée pour mettre en évidence les phénomènes pathologiques particuliers se manifestant au cours du renouvellement du tégument en présence d'une infection cryptogamique. Les techniques histologiques et la microscopie électronique à balayage permettent de suivre la pénétration du champignon chez les larves en prémue, montrant les modalités d'invasion du liquide exuvial et de contamination secondaire du tégument en formation. L'étude des perturbations de la mue chez les larves contaminées souligne l'importance des zones de déchirure du nouveau tégument, non seulement comme voies préferentielles de pénétration des éléments mycéliens multipliés dans le liquide exuvial, mais aussi comme portes d'entrée pour les bactéries. Ces observations apportent une contribution originale à l'étude des mécanismes pathologique provoquant une mortalité différée des insectes.

---

Summary The histopathological study of the infectious procces of larvae ofL. decemlineata byB. bassiana was carried out on moulting larvae infected experimentaly. The experiments showed that the differed mortality among this type of insect with a short larval cycle, interrupted by close successive moults, depends on the interaction between the penetration of the fungus and the throwing out of the infected integument. The penetration ofB. bassiana into the larvae at the ecdysial stage was caracterized by invasion of the moulting fluid: infection of the integument in formation and hypodermical histolysis. The disturbance of the tissues was followed by integumental ruptures of the young larva during the emergence from the ecdysis. A double infectious process, of larvae in the moulting stage was shown. On one hand, an infection of the intermoult-integument occurred. On the other hand, the injured regions were routes for massive penetration of hyphal bodies in the hemolymph. Such injuries, also allowed the entrance of bacteria from the moulting fluid to the hemolymph and then caused a septicemia. Larvae after ecdysis, with blackened integumentary patches or with cicatrices, showed hyphal bodies in the hemolymph, which may explain the differed mortality caused by the fungus.

     

Application of a marking-and-recapture method for the analysis of larval-adult populations of an insect,Nezara viridula (Hemiptera: Pentatomidae)

Difficulty arises in applying marking-and-recapture methods to insects when the probability of recapture of marked individuals is changed with advancing age, either due to detachment of the mark by moulting (in the case of larvae) or to changes in their survival rate or their behaviour. A modification of the re-recapture method (Leslie et al., 1953) has been devised to analyze the capture-recapture data of the 5th-instar larvae and adults of Nezara viridula L. Estimation of the rate of moulting to the adult stage is made with the aid of additional information on larval survival. Migration rates of the larvae between the two halves of the census field is estimated byIwao's (1963) method. Through these analyses, the dynamic feature of the population during transition from the 5th instar to, adult is revealed. Several problems involved in the application of marking-and-recapture methods to insect populations are discussed.     

High level expression of a frog α-amidating enzyme,AE-II,in cultured cells and silkworm larvae using aBombyx mori nuclear polyhedrosis virus expression vector

AXenopus laevis peptidyl C-terminal α-amidating enzyme (AE-II) gene, modified by deletion of a region encoding the putative membrane-spanning domain and the putative C-terminal cytosolic tail, was expressed in BoMo-15 AIIc insect cells and silkworm larvae using aBombyx mori baculovirus expression vector system. The expressed enzyme was identified predominantly in the culture medium and the hemolymph of silkworm larvae, indicating successful secretion of the expressed AE-II. The level of recombinant enzyme in the larval hemolymph at 4 days post-infection (40 μg/ml) was more than 100-fold the peak levels found in the culture medium (250 ng/ml). The enzyme activity in the larval hemolymph at 4 days post-infection was 3700 units/ml.     

Baculovirus‐induced tree‐top disease: how extended is the role of egt as a gene for the extended phenotype?

Many parasites alter host behaviour to enhance their chance of transmission. Recently, the ecdysteroid UDP‐glucosyl transferase (egt) gene from the baculovirus Lymantria dispar multiple nucleopolyhedrovirus (LdMNPV) was identified to induce tree‐top disease in L. dispar larvae. Infected gypsy moth larvae died at elevated positions (hence the term tree‐top disease), which is thought to promote dissemination of the virus to lower foliage. It is, however, unknown whether egt has a conserved role among baculoviruses in inducing tree‐top disease. Here, we studied tree‐top disease induced by the baculovirus Autographa californica multiple nucleopolyhedrovirus (AcMNPV) in two different host insects, Trichoplusia ni and Spodoptera exigua, and we investigated the role of the viral egt gene therein. AcMNPV induced tree‐top disease in both T. ni and S. exigua larvae, although in S. exigua a moulting‐dependent effect was seen. Those S. exigua larvae undergoing a larval moult during the infection process died at elevated positions, while larvae that did not moult after infection died at low positions. For both T. ni and S. exigua, infection with a mutant AcMNPV lacking egt did not change the position where the larvae died. We conclude that egt has no highly conserved role in inducing tree‐top disease in lepidopteran larvae. The conclusion that egt is a ‘gene for an extended phenotype’ is therefore not generally applicable for all baculovirus–host interactions. We hypothesize that in some baculovirus–host systems (including LdMNPV in L. dispar), an effect of egt on tree‐top disease can be observed through indirect effects of egt on moulting‐related climbing behaviour.     

Changes in spatial distribution pattern during the larval stage of the fall webworm,Hyphantria cunea drury (Lepidoptera: Arctiidae)

Summary The changes in spatial distribution pattern during larval stage of the fall webworm,Hyphantria cunea were quantitatively investigated in the field experimental populations. The female adult deposits eggs as a cluster and the hatchlings make a compact colonial-web. In this period, the all-or-none type mortality which is characteristic in gregarious insect species was occasionary recognized before spinning a compact colonial-web. Once making a compact colonial-web, the larvae feed the leaves in the colonial-web up to about 5th instar. In this period, the movement of larvae occurred due to the local food shortage in a colonial-web and the expansion of colonial-web. As the larvae developed, the colonial-web was separated into several small groups. These larvae began to disperse about 5th instar. In this period, the local food shortage seems to be an important trigger for the larval dispersal. The mean concentration of larvae on leaves abruptly decreased, and finally the larvae became solitary at the 6th or 7th instars. The dispersal process in later larval stage is not necessarily due to the complete food shortage. The dispersal prior to the occurrence of food shortage may be a safety mechanism to protect the larvae from the food shortage.     

Developmental status of endo-developmental stages of Microplitis rufiventris kok. in Spodoptera littoralis (boisd.) larvae topically treated by juvenile hormones I and II

The juvenile hormones I and II (JHI and JHII) were topically applied at concentrations of 1 or 5 μg to Spodoptera littoralis larvae containing newly deposited eggs of Microplitis rufiventris. The study demonstrated that both hormones do influence several aspects of the development of the parasitoid after treatment of its host larvae. Of these effects: (1) significant lengthening of periods of eggs and larvae, (2) moulting failure of parasitic larvae, (3) moulting the parasitic larvae into supernumerary instar, (4) arrest of postembryonic development in the first larval instar, (5) reduction in the emergence rate of parasitoid larvae, and (6) influence on embryogenesis. The application of JHI was more effective in disrupting the endo-development of the parasitoid than JHII. In all tests, control hosts produced significantly (P < 0.01) more parasitoids than treated ones. Off-target effects on natural enemies may seriously limit the use of JHs, especially in integrated control programmes.     

Nucleopolyhedrovirus infection and/or parasitism by Microplitis pallidipes affected haemolymph titre of 20‐hydroxyecdysone in Spodoptera exigua larvae

This study examined the physiological effects of joint and separate parasitism and infection by the endoparasitoid Microplitis pallidipes Szépligeti and the nucleopolyhedrovirus (NPV), respectively, on haemolymph 20‐hydroxyecdysone (20‐E) titre in Spodoptera exigua (Hübner) larvae. The results indicated that in parasitized larvae, virus‐infected larvae (5.7 × 10³ and 5.7 × 10⁵ OB/ml) and parasitized larvae infected with virus at 5.7 × 10⁵ OB/ml, compared to healthy larvae, the 20‐E all declined during the first 3 days but began to increase from day 4 after treatment, while in jointly parasitized and infected larvae (5.7 × 10³ OB/ml), the 20‐E declined during the first 4 days but began to increase on day 5 after treatment. Meanwhile, compared to parasitized larvae, the 20‐E declined during the first 4 days but significantly increased on day 5 in jointly parasitized and infected larvae (5.7 × 10³ OB/ml), while significantly increased during the first 2 days but began to decrease from day 3 after treatment in jointly parasitized and infected larvae (5.7 × 10⁵ OB/ml). Finally, in larvae that were both parasitized and virus infected (5.7 × 10³ OB/ml), compared to just virus‐infected larvae (5.7 × 10³ OB/ml), the 20‐E was lower on days 3 and 4 but higher on other days after treatment; in larvae that were both parasitized and virus infected (5.7 × 10⁵ OB/ml), compared to just virus‐infected larvae (5.7 × 10⁵ OB/ml), the 20‐E was significantly higher at the first 2 days but lower from day 3 after treatment. Our results revealed that 2nd instar larval M. pallidipes in host bodies may release 20‐E into the haemolymph of S. exigua larvae and that NPV infection may stimulate S. exigua to release more 20‐E during its third to fourth instar larval moulting. We found that this stimulatory effect was greater with higher virus concentrations.     

Morphological abnormalities and lethality in silkworm (Bombyx mori) larvae treated with high concentrations of insect growth-blocking peptide

Insect growth-blocking peptides (GBPs) exhibit growth-blocking and paralytic activity. Low concentrations of GBP stimulate larval growth, whereas high concentrations of GBP significantly retard larval growth. Here, we show that morphological abnormalities and lethality were induced in silkworm (Bombyx mori) larvae by high concentrations of GBP. Active B. mori GBP (BmGBP) was produced by treating recombinant proBmGBP (expressed in baculovirus-infected insect cells) with bovine factor Xa. When silkworm larvae on day 1 of the fifth-instar stage were injected between the seventh and eight abdominal segments with BmGBP (100 or 500 ng/larva), the larval–pupal and pupal–adult transformations of these silkworms were delayed in a dose-dependent manner. However, a high concentration (2000 ng/larva) of BmGBP or Spodoptera exigua GBP (SeGBP) acutely induced morphological abnormalities and death in silkworm larvae. In silkworm larvae treated with high concentrations of GBPs, the ingested food excessively accumulated in the foregut, which caused extreme swelling in both the thorax and the foregut and resulted in larval death. Therefore, these results not only provide insight into the effect of insect GBPs on gut physiology but also reveal a novel function of insect GBPs.     

An immune-induced reeler protein is involved in the Bombyx mori melanization cascade

In this study, we isolated two reeler cDNAs from bacteria-challenged larval fat bodies of the silkworm, Bombyx mori. A reeler domain spanned most of the coding regions of these two cDNAs, and their expression patterns were different in B. mori larval tissues. The reeler1 gene was strongly induced by Escherichia coli K12 and Bacillus subtilis in B. mori larval hemocytes, fat bodies and midguts, but reeler2 was expressed at extremely low levels in these tissues. We focused on the reeler1 gene for functional analysis. Interference by double-stranded reeler1 RNA in vivo led to reduced nodule formation in bacteria-injected larvae, while the injection of recombinant Reeler1 promoted nodule formation in reeler1 gene-silenced larvae, indicating that Reeler1 is involved in the nodulation response. Knockdown of the reeler1 gene significantly decreased phenoloxidase activity in bacteria-challenged larval hemolymph, while injection of recombinant Reeler1 enhanced phenoloxidase activity, suggesting that Reeler1 is involved in the prophenoloxidase activation cascade. Our results provide new mechanistic evidence about the melanization cascade in the insect immunity.