Host hemolymph monophenoloxidase activity in parasitized Manduca sexta larvae and evidence for inhibition by wasp polydnavirus

In insects, one of the primary routes of defense against parasites is encapsulation by hemocytes followed by melanization, in which tyrosine and DOPA are converted to melanin via toxic quinone intermediates. This report describes the use of an in vitro radiochemical assay to monitor hemolymph monophenoloxidase (MPO) conversion of [³H]tyrosine to [³H]DOPA, using a method utilized previously for dipteran and mammalian enzymes. Parasitism of fifth instar tobacco hornworm larvae by the braconid wasp Cotesia congregata depresses the rate of hemolymph monophenoloxidase activity in the host. Significant inhibition of hemolymph MPO was detectable in newly parasitized larvae and terminal stage hosts. A similar effect was seen in unparasitized larvae following injection of sucrose-gradient purified wasp polydnavirus (PDV) particles, which are normally injected by the female wasps into the host, suggesting the inhibition may be virally mediated. Hemolymph MPO activity was assayed in vitro 24 h after injection of PDV in vivo, and intercalation of viral DNA by exposure to psoralen and long-wave u.v. light eliminated its inhibitory effect on MPO. Despite inhibition of hemolymph MPO activity by parasitism, host cuticular enzymes appear unimpaired, since cuticular melanization occurs at sites of integumental wounding during emergence of the wasps from the host. Red pigments appear in the dorsal vessel and integument of parasitized and virus-injected larvae; whether these pigmentation changes are related to effects of parasitism on tyrosine metabolism and ommochrome biosynthesis remains to be determined.     

Effects of parasitization or injection of parasitoid-derived factors from the endoparasitic wasp Glyptapanteles porthetriae (Hym., Braconidae) on the development of the larval host, Lymantria dispar (Lep., Lymantriidae)

Second instar larvae of Lymantria dispar were parasitized or injected with parasitoid-derived factors such as venom, calyx fluid or parasitoid eggs from Glyptapanteles porthetriae . Growth and development of the host larvae were affected in all different groups compared to control larvae of the same age, injected with Ringer solution. The greatest impact on host growth and on the duration of the 3rd instar was caused by injecting parasitoid eggs. Treated larvae showed melanized capsules or nodules in the hemocoel. While the wasp age had no effect on parasitization efficiency or on the percentage of melanized particles in the hemocoel, significantly more encapsulations were found in larvae parasitized by old wasps as opposed to young wasps. Superparasitization (double or quadruple oviposition) increased the parasitization efficiency markedly. While none of the control larvae showed melanized particles, in the groups of single and superparasitized (2× and 4×) hosts a high percentage of melanized particles (capsules and nodules) occurred.     

Protein expression during parasite redirection of host (Trichoplusia ni) biochemistry

Expression of proteins during normal egg and larval development of Trichoplusia ni was compared with that occurring in hosts stung as eggs by the parasitic wasp Chelonus sp. near curvimaculatus. Those stung hosts which produced a parasite (truly parasitized), precociously expressed proteins associated with larval-pupal metamorphosis, as did those stung hosts which did not contain a developing endoparasite (pseudoparasitized). No highly abundant, low-intermediate molecular weight hemolymph proteins were observed in truly or pseudoparasitized larvae which did not also occur at some point in the development of normal larvae. A low abundance, high molecular mass (160,000 Da) protein was observed in the hemolymph of truly parasitized larvae, but not of normal or pseudoparasitized larvae. The protein is glycosylated and very acidic (pI near 4.5). The data show that any parasitization proteins injected or induced by the ovipositing female parasite are in low abundance, in contrast to situations reported for parasitic wasps which sting hosts as larvae.     

Does superparasitism improve host suitability for parasitoid development? A case study in the Microplitis rufiventris-Spodoptera littoralis system

Superparasitism refers to the oviposition behavior of parasitoid females who lay their eggs in an already parasitized host. Recent studies have shown that allocation of additional eggs to an already parasitized host may be beneficial under certain conditions. In the present work, mortality of Microplitis rufiventris wasps was significantly influenced by both host instar of Spodoptera littoralis larvae at parasitism and level of parasitism. In single parasitization, all host instars (first through sixth) were not equally suitable. Percentage of emergence success of wasp larvae was very high in parasitized first through third (highly suitable hosts), fell to 60% in the fourth instar (moderate suitable) and sharply decreased in the penultimate (5th) instars (marginally suitable). Singly parasitized sixth (last) instar hosts produced no wasp larvae (entirely unsuitable), pupated and eclosed to apparently normal adult moths. The scenario was different under superparasitism, whereas supernumerary individuals in the highly suitable hosts were almost always killed as first instars, superparasitization in unsuitable hosts (4th through 6th) had significant increase in number of emergence success of wasp larvae. Also, significantly greater number of parasitoid larvae successfully developed in unsuitable hosts containing three wasp eggs than counterparts containing two wasp eggs. Moreover, the development of surplus wasp larvae was siblicidal in earlier instars and nonsiblicidal gregarious one in the penultimate and last “sixth” instars. It is suggested that the optimal way for M. rufiventris to deal with high quality hosts (early instars) is to lay a single egg, while the optimal way to deal with low quality hosts (late instars) might be to superparasitize these hosts.     

丽蝇蛹集金小蜂寄生对寄主蛹可溶性蛋白与芳基蛋白组成与含量的影响

为了探讨蛹期寄生蜂对寄主蛋白代谢的寄生生理效应,利用Bradford蛋白含量测定法、Western免疫印迹法及酶联免疫吸附检测法研究了棕尾别麻蝇Boettcherisca peregrina蛹被丽蝇蛹集金小蜂Nasonia vitripennis寄生后其脂肪体和血淋巴中可溶性蛋白及芳基蛋白组成与含量的变化。结果表明：寄生蛹脂肪体和血淋巴中可溶性蛋白的组成与未寄生相比基本无明显差异; 不论寄生与否寄主蛹脂肪体和血淋巴中芳基蛋白亚基分子量均为80 kDa,该亚基在脂肪体中未出现降解现象,而在血淋巴中仅于寄生后12 h的寄主蛹中呈现2条分子量相近的Western免疫印迹带,说明其降解可能先于未寄生对照。就含量而言,寄生蛹脂肪体中可溶性蛋白含量除寄生后24 h外均显著低于未寄生对照,芳基蛋白含量除寄生后48 h外也均显著低于未寄生对照,其中寄生后12 h的含量仅为未寄生的32.0%。寄生蛹血淋巴中可溶性蛋白含量多低于未寄生蛹,且寄生后2,12,24 h的差异达显著水平;芳基蛋白的含量均有低于未寄生的趋势,其中寄生后12 h的含量为未寄生的17.0%。综合认为,丽蝇蛹集金小蜂的寄生可导致寄主脂肪体和血淋巴中可溶性蛋白及芳基蛋白含量下降。     

Growth and development of Cardiochiles nigriceps viereck (hymenoptera,braconidae) larvae and their synchronization with some changes of the hemolymph composition of their host,Heliothis virescens (F.) (Lepidoptera,Noctuidae)

Larval development of the parasitoid Cardiochiles nigriceps Viereck occurs in the last instar larva of its host, Heliothis virescens (F.). This allows the parasitoid to exploit the nutritional increase in the biosynthetic activity occurring in the host in preparation for metamorphosis. To understand the biochemical basis of this host parasitoid developmental synchrony, we undertook host ligation studies and analyzed host hemolymph for proteins and glycerol esters. Parasitization affected the biochemical profile of the host. The hemolymph protein concentration of parasitized last instar H. virescens larvae increased through time, whereas unparasitized (control) larvae were characterized by a decrease in the protein titer when they reached the prepupal stage. The effect of parasitism on glyceride titers of host hemolymph was not as pronounced as the effect on proteins. Ligation conducted on 5th instar hosts, which were parasitized as 4th instars, affected parasitoid development in a time-dependent way. The percentage of successfully developing C. nigriceps larvae increased with the increase of the time interval between parasitization and ligation. Ligation performed before day 2 of the 5th larval instar of H. virescens completely inhibited parasitoid development. Ligations that disrupted parasitoid developmentwere associated with a low host hernolymph protein concentration. Parasitoid development was successful when hernolymph protein titer was high, as occurred when ligations were performed after day 3 of the 5th host instar in both control and parasitized larvae. Ligations in both situations resulted in a slight increase in glyceride titers. The results suggest that host proteins and/or some factor(s) associated with them may play a role in parasitoid growth and development. © 1993 Wiley-Liss, Inc.     

Expression and hemocyte-targeting of a Campoletis sonorensis polydnavirus cysteine-rich gene in Heliothis virescens larvae

The polydnavirus associated with the parasitic wasp Campoletis sonorensis is injected into the lepidopteran insect, Heliothis virescens, during parasitization, after which viral gene products suppress the cellular immune system of the hosts. Four related cysteine-rich polydnavirus genes have been identified in parasitized H. virescens larvae and grouped into a family. In this study, we investigated the expression and hemocyte targeting of the cysteine-rich Vhv1.4 protein. Full- length and truncated Vhv1.4 proteins were produced in a bacterial expression system, and the purified proteins were used to raise polyclonal antisera. In immunoblots the Vhv1.4 protein was detected in parasitized insects as early as 6 h and throughout the entire course of parasitism. The Vhv1.4 protein appeared predominantly in the plasma fraction of hemolymph from parasitized larvae, suggesting that this protein is secreted. The Vhv1.4 protein expressed from a recombinant baculovirus was secreted in two lepidopteran cell lines and in larvae injected with the recombinant virus. Digestion with endoglycosidases suggests that the Vhv1.4 protein is glycosylated at multiple N-glycosylation sites. Immunofluorescence assays showed that the Vhv1.4 protein binds to the hemocytes, most notably the granulocytes, in H. virescens larvae. After binding, the Vhv1.4 protein was internalized, probably by endocytosis. Specific binding of the Vhv1.4 to granulocytes implies an important function in the suppression of host cellular encapsulation response. Arch. Insect Biochem. Physiol. 36:251–271, 1997. © 1997 Wiley-Liss, Inc.     

Expression of a parasitism-specific protein in lepidopteran hosts of Chelonus sp.

The hemolymph of each noctuid species successfully parasitized by Chelonus near curvimaculatus possessed a parasitism-specific protein (PSP) previously identified in host T. ni (Insect Biochem. 19:445; 21:845). Expression of PSP occurred in a stage-specific manner in the stadium during which the host undergoes precocious metamorphosis. The appearance of the protein was not due to nutritional stress associated with parasitism of hosts, since starved nonparasitized larvae did not produce the protein, or to low juvenile hormone titers occurring in precociously metamorphosing hosts, but rather was dependent on the presence of the endoparasite larva. Results of in vivo incorporation experiments with [³⁵S]-methionine showed that synthesis and subsequent appearance of the protein in the hemolymph of parasitized hosts was abrogated by prior surgical removal of endoparasite. Immunoprecipitation analysis of proteins from C. near curvimaculatus larvae cultured in vitro using antibodies specific to PSP indicated that the source of the protein was the endoparasite. Synthesis of PSP by the endoparasitic larvae with its subsequent secretion into the hemocoel of hosts was specific to the advanced stages of parasite development prior to its egression from the host. © 1993 Wiley-Liss, Inc.     

淡足侧沟茧蜂寄生对甜菜夜蛾幼虫血淋巴总糖、蛋白质及虫体脂质含量的影响

为探讨淡足侧沟茧蜂Microplitis pallidipes Szepligeti调控寄主的生理机制,测定了淡足侧沟茧蜂寄生后,甜菜夜蛾Spodoptera exigua(Hübner)幼虫血淋巴总糖、蛋白质及虫体脂类含量的变化。研究结果表明,寄生后连续5 d的观察时间内,甜菜夜蛾幼虫血淋巴总糖含量从寄生后第1天开始就高于未寄生寄主幼虫,且在寄生后第2至5天达到显著水平;除寄生后第3天外,被寄生寄主幼虫血淋巴总蛋白质含量始终低于未寄生幼虫,且在寄生后第1、4、5天达到显著水平;甜菜夜蛾被寄生后,虫体脂质含量始终高于未寄生幼虫,且从寄生后第2天开始达到显著水平。本研究揭示,淡足侧沟茧蜂寄生刺激了寄主甜菜夜蛾幼虫血淋巴总糖合成,但抑制了其蛋白质合成,同时也刺激了甜菜夜蛾虫体脂质合成。     

Polydnaviruses: potent mediators of host insect immune dysfunction

Endoparasitic insects are used as biological control agents to kill many species of insect pest. One key to the success of parasitoids that develop in the hemocoel of their host is their ability to knock out the host's immune system, inducing a decline in the responsiveness of a variety of cellular and humoral components so that parasitoid eggs are not encapsulated. In many species parasitized by braconid and ichneumonid wasps, host immunosuppression appears to be mediated by polydnaviruses (PDVs) injected by the female parasitoid into the host hemocoel. The viruses exhibit a complex and intimate genetic relationship with the wasp, since viral sequences are integrated within the wasp's chromosomal DNA. Here Mark Lavine and Nancy Beckage summarize the current evidence for mechanisms of virally induced host immunosuppression in parasitized insects, as well as the roles of other factors including wasp ovarian proteins and venom components, in suppressing hemocyte-mediated and humoral immune responses. Interestingly, in some species, the PDV-induced host immunosuppression appears transitory, with older parasitoid larvae probably exploiting other mechanisms to protect themselves from the host's immune system during the final stages of parasitism. During the final stages of parasitism, the parasitoids likely exploit other mechanisms of immunoevasion via antigen masking, antigen mimicry, or production of active inhibitors of the hemocyte-mediated encapsulation response as well as inhibiting melanization.     

Systematic analysis of a wasp parasitism arsenal

Parasitoid wasps are among the most diverse insects on earth with many species causing major mortality in host populations. Parasitoids introduce a variety of factors into hosts to promote parasitism, including symbiotic viruses, venom, teratocytes and wasp larvae. Polydnavirus‐carrying wasps use viruses to globally suppress host immunity and prevent rejection of developing parasites. Although prior results provide detailed insights into the genes viruses deliver to hosts, little is known about other products. RNAseq and proteomics were used to characterize the proteins secreted by venom glands, teratocytes and larvae from Microplitis demolitor, which carries M. demolitor bracovirus (MdBV). These data revealed that venom glands and teratocytes secrete large amounts of a small number of products relative to ovaries and larvae. Venom and teratocyte products exhibited almost no overlap with one another or MdBV genes, which suggested that M. demolitor effector molecules are functionally partitioned according to their source. This finding was well illustrated in the case of MdBV and teratocytes. Many viral proteins have immunosuppressive functions that include disruption of antimicrobial peptide production, yet this study showed that teratocytes express high levels of the antimicrobial peptide hymenoptaecin, which likely compensates for MdBV‐mediated immunosuppression. A second key finding was the prevalence of duplications among genes encoding venom and teratocyte molecules. Several of these gene families share similarities with proteins from other species, while also showing specificity of expression in venom glands or teratocytes. Overall, these results provide the first comprehensive analysis of the proteins a polydnavirus‐carrying wasp introduces into its host.     

Inhibition of juvenile hormone esterase activity in Lymantria dispar (Lepidoptera, Lymantriidae) larvae parasitized by Glyptapanteles liparidis (Hymenoptera, Braconidae)

Glyptapanteles liparidis is a gregarious, polydnavirus (PDV)-carrying braconid wasp that parasitizes larval stages of Lymantria dispar. In previous studies we showed that parasitized hosts dramatically increase juvenile hormone (JH) titers, whereas JH degradation is significantly inhibited in the hemolymph. Here we (i) quantified the effects of parasitism on JH esterase (JHE) activity in hemolymph and fat body of penultimate and final instars of L. dispar hosts and (ii) assessed the relative contribution of individual and combined wasp factors (PDV/venom, teratocytes, and wasp larvae) to the inhibition of host JHE activity. The effects of PDV/venom was investigated through the use of gamma-irradiated wasps, which lay non-viable eggs (leading to pseudoparasitization), while the effects of teratocytes and wasp larvae were examined by injection or insertion of these two components in either control or pseudoparasitized L. dispar larvae. Parasitism strongly suppressed host JHE activity in both hemolymph and fat body irrespective of whether the host was parasitized early (premolt-third instar) or late (mid-fourth instar). Down-regulation of JHE activity is primarily due to the injection of PDV/venom at the time of oviposition, with only very small additive effects of teratocytes and wasp larvae under certain experimental conditions. We compare the results with those reported earlier for L. dispar larvae parasitized by G. liparidis and discuss the possible role of JH alterations in host development disruption.     

Laboratory rearing of Lytopylus rufipes (Hymenoptera: Braconidae: Agathidinae), a parasitoid wasp of the oriental fruit moth,Grapholita molesta (Lepidoptera: Tortricidae), using apple and a commercially available diet

Lytopylus rufipes (Nees) (Hymenoptera: Braconidae: Agathidinae) is a potential natural enemy of the oriental fruit moth, Grapholita molesta (Busck) (Lepidoptera: Tortricidae), but there is no established method to rear this wasp continuously. In the laboratory, female wasps can produce both female and male progenies without mating (deuterotokous), but host-infested plants are necessary to trigger oviposition behavior. In this study, immature apples were used because they keep well. Grapholita molesta larvae were transferred to immature apples, and then exposed to L. rufipes females. After parasitization, these apples were transferred to blocks of artificial diet (Silkmate 2M) for further rearing. Using this transitional diet system, L. rufipes females develop in 25.1?±?1.8 (mean?±?SD) days from egg to adult, but male wasps require only 23.8?±?1.0 days. Furthermore, the longevity of female wasps was 12.2?±?7.3 (mean?±?SD) days, and the parasitism rate was 26.4 (95% Cl: 22.2–30.6). Female wasps can attack host larvae in all instars, but parasitism of first-instar larvae is more successful. Therefore, first-instar larvae of G. molesta are recommended for establishing a L. rufipes colony under laboratory conditions. This system decreases the requirement for plant material and maintains continuous production of L. rufipes.

     

CLP gene family,a new gene family of Cotesia vestalis bracovirus inhibits melanization of Plutella xylostella hemolymph

Polydnaviruses (PDVs) are obligatory symbionts of parasitoid wasps and play an important role in suppressing host immune defenses. Although PDV genes that inhibit host melanization are known in Microplitis bracovirus, the functional homologs in Cotesia bracoviruses remain unknown. Here, we find that Cotesia vestalis bracovirus (CvBV) can inhibit hemolymph melanization of its host, Plutella xylostella larvae, during the early stages of parasitization, and that overexpression of highly expressed CvBV genes reduced host phenoloxidase activity. Furthermore, CvBV-7-1 in particular reduced host phenoloxidase activity within 12 h, and the injection of anti-CvBV-7-1 antibody increased the melanization of parasitized host larvae. Further analyses showed that CvBV-7-1 and three homologs from other Cotesia bracoviruses possessed a C-terminal leucine/isoleucine-rich region and had a similar function in inhibiting melanization. Therefore, a new family of bracovirus genes was proposed and named as C -terminal L eucine/isoleucine-rich P rotein (CLP). Ectopic expression of CvBV-7-1 in Drosophila hemocytes increased susceptibility to bacterial repression of melanization and reduced the melanotic encapsulation of parasitized D. melanogaster by the parasitoid Leptopilina boulardi. The formation rate of wasp pupae and the eclosion rate of C. vestalis were affected when the function of CvBV-7-1 was blocked. Our findings suggest that CLP genes from Cotesia bracoviruses encoded proteins that contain a C-terminal leucine/isoleucine-rich region and function as melanization inhibitors during the early stage of parasitization, which is important for successful parasitization.     

Immunoanalysis of unique protein in Trichoplusia ni larvae parasitized by the braconid wasp Chelonus near curvimaculatus

Parasitization in insects brings about profound biochemical and physiological effects in the host which may include complete overriding of the normal endocrinological program, resulting in precocious metamorphosis and in blockage of pupal development. The subtle effects of parasitization include changes in the expression of hemolymph proteins and the appearance of proteins which are unique to parasitized hosts. One such protein has been identified in the hemolymph of Trichoplusia ni larvae parasitized by the braconid wasp Chelonus near curvimaculatus. In this study, purified preparations of the parasitism-specific protein were used to generate polyconal antibodies against the protein. Results from the immunocharacterization indicate the antibodies obtained are highly specific for the protein and are present in a high titer (1:8000 antiserum dilution yielded strong signals in analysis of the protein in 0.25 μl hemolymph). Subsequently, the expression of the parasitism-specific protein in the hemolymph and tissues was analyzed by immunoblotting during the entire course of development in normal and parasitized insects. The parasitism-specific protein was not detected in normal, unparasitized larvae. In parasitized insects, expression of the parasitism-specific protein appears to be stage-specific in that it is only detected during the last larval stadium of precociously metamorphosing larvae, but is absent from all earlier stages of development.     

Rho 1 participates in parasitoid wasp eggs maturation and host cellular immunity inhibition

Endoparasitoid wasps introduce venom into their host insects during the egg-laying stage. Venom proteins play various roles in the host physiology, development, immunity, and behavior manipulation and regulation. In this study, we identified a venom protein, MmRho1, a small guanine nucleotide-binding protein derived from ovary in the endoparasitoid wasp Microplitis mediator and found that knockdown of its expression by RNA interference caused down-regulation of vitellogenin and juvenile hormone, egg production, and cocoons formation in the female wasps. We demonstrated that MmRho1 entered the cotton bollworm's (host) hemocytes and suppressed cellular immune responses after parasitism using immunofluorescence staining. Furthermore, wasp MmRho1 interacted with the cotton bollworm's actin cytoskeleton rearrangement regulator diaphanous by yeast 2-hybrid and glutathione s-transferase pull-down. In conclusion, this study indicates that MmRho1 plays dual roles in wasp development and the suppression of the host insect cellular immune responses.     

The effect of nucleopolyhedrovirus infection and/or parasitism by Microplitis pallidipes on hemolymph proteins, sugars, and lipids in Spodoptera exigua larvae

We determined the physiological effects of joint and separate nucleopolyhedrovirus (NPV) infection and parasitism by the endoparasitoid Microplitis pallidipes Szepligeti on biochemical events in the noctuid Spodoptera exigua (Hübner). The results indicated that in parasitized larvae, compared to healthy larvae, total protein concentration in host hemolymph began to decline and total sugar concentration significantly increased by the first day, while lipid content in the host body significantly increased by the second day after parasitization. Meanwhile, in jointly infected and parasitized hosts, compared to parasitized larvae, total protein concentration was consistently higher, total sugar concentration was consistently lower, and lipid content became higher by the second day after treatment. In virus-infected larvae, compared to healthy larvae, total protein concentration sharply declined during the first two days but increased by the third, while total sugar concentration increased on the second and third days after virus infection but decreased at other observation times, and lipid content began to increase by the second day after virus infection. Finally, in larvae that were both parasitized and virus-infected, compared to just virus-infected larvae, total protein concentration increased during the first two days but decreased by the third, total sugar concentration increased only on the first and fourth days, and lipid content decreased significantly on the first day but began to increase by the second day after treatment. These findings led us to conclude that parasitization inhibited protein mobilization but stimulated sugar mobilization in host hemolymph, and promoted lipid mobilization in the host body, while Spodoptera exigua NPV infection stimulated protein mobilization induced by parasitization but inhibited sugar mobilization induced by parasitization.