Immunocytochemical localization of β-1,3-glucan recognition protein in the silkworm,Bombyx mori

Summary A monospecific antibody against -1,3-glucan recognition protein (a 62 kDa protein) of the larval silkworm prophenoloxidase activating system was used to study the localization of the protein. Among tissues from 5th instar larvae, only hemocytes and plasma were shown to contain a 62 kDa polypeptide immunoreactive with the antibody. Ultra-thin sections of the hemocytes were stained by an indirect immunogold staining method. Labelling occurred in the granules and cytoplasm of granulocytes and in the spherules and cytoplasm of spherulocytes. It was most conspicuous in granules of granulocytes and uniformly labelled spherules of spherulocyte, whereas no labelling was evident in prohemocytes, plasmatocytes and oenocytoids. The results are discussed in relation to the mode of recognition of fungi as non-self in insect hemocoel.     

家蚕拟浆细胞具有吞噬功能

目的：通过观察家蚕Bombyx mori吞噬细胞的微细结构,来确定拟绛色细胞是否也具有吞噬功能。方法：用荧光小球微量注射家蚕pnd pS品系的幼虫,经荧光染色剂丫啶橙和碘化丙啶染色循环血细胞后,在荧光显微镜下观察并扫描拍摄。结果：观察发现除颗粒细胞和浆血细胞外,一些原血球细胞（血干细胞）和拟绛色细胞（多酚氧化酶）也能吞噬荧光小球。在拟绛色细胞里还发现许多和颗粒细胞一样的能被丫啶橙染色的颗粒。尽管在小球细胞中没有发现被吞噬的荧光小球,但该类血球有比较多的能被丫啶橙染色的大颗粒,这表明它们可能是已经被吞噬的凋亡小体。结论：除颗粒细胞和浆血细胞外,一些原血球细胞和拟绛色细胞也能吞噬荧光小球。说明拟绛色细胞也具有吞噬功能。     

A systematic study on hemocyte identification and plasma prophenoloxidase from Culex pipiens quinquefasciatus at different developmental stages

Culexpipiens quinquefasciatus (C. quinquefasciatus) is an important vector that can transmit human diseases such as West Nile virus, lymphatic filariasis, Japanese encephalitis and St. Louis encephalitis. However, very limited research concerning the humoral and cellular immune defenses of C. quinquefasciatus has been done. Here we present the research on hemocyte identification and plasma including hemocyte prophenoloxidase from C. quinquefasciatus at all developmental stages in order to obtain a complete picture of C. quinquefasciatus innate immunity. We identified hemocytes into four types: prohemocytes, oenocytoids, plasmatocytes and granulocytes. Prophenoloxidase (PPO) is an essential enzyme to induce melanization after encapsulation. PPO-positive hemocytes and plasma PPO were observed at all developmental stages. As for specific hemocyte types, prophenoloxidase was found in the plasmatocytes at larval stage alone and in the smallest prohemocytes during almost all developmental stages. Moreover, the granulocytes were PPO-positive from blood-fed female mosquitoes and oenocytoids were observed PPO-positive in pupae and in adult females after blood-feeding. As for plasma, there were different patterns of PPO in C. quinquefasciatus at different developmental stages. These results are forming a basis for further studies on the function of C. quinquefasciatus hemocytes and prophenoloxidase as well as their involvement in fighting against mosquito-borne pathogens.     

Lysolecithin--a potent activator of prophenoloxidase from the hemolymph of the lobster, Homarus americanas

The phenoloxidase system, which is involved in encapsulation and melanization of foreign objects in crustacean, is found to be present in an inactive proenzyme form in the hemocytes of the lobster, Homarus americanas. Activation of the enzyme could be achieved either by treatment with an anionic detergent such as sodium dodecyl sulfate, or by a cationic detergent such as cetylpyridinium chloride, but not by either nonionic detergent or zwitterionic detergent. In addition, a number of fatty acids also activated the proenzyme. However, phospholipids, especially lysolecithin proved to be the most potent activator of prophenoloxidase. Therefore, it is proposed that apart from the well established proteolytic mode of activation, prophenoloxidase can also be activated by this alternative mode involving lipids.     

Tissue distribution and purification of prophenoloxidase in larvae of Asian Corn Borer, Ostrinia furnacalis Guenee (Lepidoptera: Pyralidae)

Using ammonium sulphate precipitation, Blue-Sepharose CL-6B, Phenyl-Sepharose CL-4B, prophenoloxidase (PPO) was isolated and purified from hemolymph of Ostrinia furnacalis larvae. This zymogen was a heterodimer, and composed of two subunits with the relative molecular mass ranging from 66.2 kD to 97.4 kD determined by SDS-PAGE. Western blotting and indirect immunofluorescence test showed that PPO was present in integument, hemolymph plasma and cell membrane of granular hemocytes and oenocytoids of O. furnacalis larvae.     

Prophenoloxidase activation in the hemolymph of Sarcophaga bullata larvae

Phenoloxidase in the hemolymph of Sarcophaga bullata larvae is present as an inactive proenzyme form. Localization studies indicate that the majority of the prophenoloxidase is present in the plasma fraction whereas only a minor fraction (about 4%) is present in the cellular compartments (hemocytes). Inactive prophenoloxidase can be activated by zymosan, not by either endotoxin or laminarin. This activation process is inhibited by the serine protease inhibitors, benzamidine and p-nitrophenyl-p～-guanidobenzoate. Exogenously added proteases, such as chymotrypsin and subtilisin, also activated the prophenoloxidase in the whole hemolymph but failed to activate the partially purified proenzyme. However, an activating enzyme isolated from the larval cuticle, which exhibits trypsinlike specificity, activated the partially purified prophenoloxidase. Inhibition studies and activity measurements also revealed the presence of a similar activating enzyme in the hemolymph. Thus, the phenoloxidase system in Sarcophaga bullata larval hemolymph seems to be comprised of a cascade of reactions. An endogenous protease inhibitor isolated from the larvae inhibited chymotrypsin-mediated prophenoloxidase activation but failed to inhibit the cuticular activating enzyme-catalyzed activation. Based on these studies, the roles of prophenoloxidase, endogenous activating proteases, and protease inhibitor in insect immunity are discussed.     

Prophenoloxidase binds to the surface of hemocytes and is involved in hemocyte melanization in Manduca sexta

In insects, melanotic encapsulation is an important innate immune response against large pathogens or parasites, and phenoloxidase (PO) is a key enzyme in this process. Activation of prophenoloxidase (proPO) to PO is mediated by a serine proteinase cascade. PO has a tendency to adhere to foreign surfaces including hemocyte surfaces. In this study, we showed that in the naïve larvae of the tobacco hornworm Manduca sexta, hemolymph proPO bound to the surface of granulocytes and spherule cells but not to oenocytoids, and about 10% hemocytes had proPO on their surfaces. When larvae were injected with water (injury) or microsphere beads (immune-challenge), hemolymph proPO was activated, and the number of hemocytes with surface proPO/PO increased at 12 h post-injection, but dropped to the normal level at 24 h. Hemocyte surface proPO can be activated in vitro, leading to melanization of these hemocytes. The number of melanized hemocytes from the larvae injected with water or microsphere beads significantly increased. We also showed that neither hemocytes nor cell-free plasma alone triggered melanization of immulectin-2-coated agarose beads in vitro. However, agarose beads were effectively melanized by isolated hemocytes in the presence of cell-free plasma. Our results suggest that activation of hemocyte surface proPO may initiate melanization, leading to the systemic melanization of hemocyte capsules.     

东亚飞蝗血细胞形态学研究

通过Wright's染色和光学显微镜对不同地区东亚飞蝗的血细胞进行了观察,发现东亚飞蝗Locusta migratoria manilensis(Meyen)的血细胞包括原血胞、浆血胞、粒血胞和类绛血胞4种类型.原血胞的细胞核为红色,而其它3种血细胞的细胞核均被Wright's染液染成红色和蓝色2种类型.故认为浆血胞是...     

A NOVEL TYPE OF HEMOCYTES LOCALIZING MELANIZATION WITH HIGH‐SPREADING BEHAVIOR IN MYTHIMNA SEPARATA

Lepidopteran larvae show a cellular response to invading foreign substances that are larger than hemocytes, for example, parasitoid eggs or larvae. This response is called hemocyte encapsulation and is often accompanied by phenoloxidase (PO)‐catalyzed melanization. In the present study, we artificially transplanted endoparasitoid larvae and small glass fragments into the hemocoel of the common armyworm, Mythimna separata. We observed that the host larva showed a cellular response and that, 2–4 h after transplantation, melanin formation was spatially confined to the surface of the encapsulated substances. We further noted that specific morphological hemocytes surrounded by melanin formation became attached to the surface of the foreign substances. We designated these hemocytes hyperspread cells (HSCs) on the basis of their specific characteristics and circumferential spread. We confirmed the occurrence of prophenoloxidase (PPO)/phenoloxidase (PO) on the periphery of the HSCs and in the substance secreted around the HSCs by using anti‐PPO antibody. We were unable to detect PPO‐mRNA in HSCs by using in situ hybridization, although we showed that oenocytoids contained PPO‐mRNA and PPO protein. We used light microscopy and scanning electron microscopy to discriminate five main types of circulating M. separata hemocytes. We observed that HSCs differed from plasmatocytes, but spread out well. Further, during the encapsulation process, HSCs appeared to provide a localized melanization spot on the surface of foreign invaders.     

Reexamination of phenoloxidase in larval circulating hemocytes of the silkworm, Bombyx mori

We have developed a modified method to detect phenoloxidase activity on hemocytes by using freshly prepared l-DOPA (1 mg/ml in 35% ethanol) to fix and incubate larval hemocytes. This method is more sensitive than the common method, in which hemocytes were fixed in 4% formaldehyde and then incubated with 2 mg/ml l-DOPA in water separately. Phenoloxidase assayed using this modified method can be inhibited by phenyltiourea (phenoloxidase inhibitor). After incubation with l-DOPA solution in ethanol, most prohemocytes, all plasmatocytes and young granulocytes are stained brown due to oxidation of l-DOPA into pigments, indicating that they have phenoloxidase. Oenocytoids are dimly stained because many of their cell inclusions have been released during the treatment. Large propidium-iodide-negative prohemocytes have strong phenoloxidase activity and are easily misunderstood as propidium-iodide-positive oenocytoids if the fluorescent method is not used for identification. Thus, in addition to oenocytoids and plasmatocytes, some prohemocytes and granulocytes in the silkworm also have phenoloxidase.     

PGE(2) induces oenocytoid cell lysis via a G protein-coupled receptor in the beet armyworm, Spodoptera exigua

Eicosanoids mediate cellular and humoral immune responses in the beet armyworm, Spodoptera exigua, including activation of prophenoloxidase (PPO). PPO activation begins with release of its inactive zymogen, PPO, from oenocytoids in response to prostaglandins (PGs). Based on the biomedical literature, we hypothesized that PGs exert their actions via specific G protein-coupled receptor(s) in S. exigua. This study reports a G protein-coupled receptor (Se-hcPGGPCR1) gene, which is expressed in the hemocytes of S. exigua. The Se-hcPGGPCR1 consists of 420 amino acids and belongs to rhodopsin-type GPCRs. The high content of hydrophobic amino acid residues within the Se-hcPGGPCR1 protein is explained by prediction of seven-transmembrane domains that are characteristic of these GPCRs. Except for the eggs, Se-hcPGGPCR1 was expressed in all life stages. During the larval stage, it was expressed in hemocytes and gut, but not in fat body nor in epidermis. Real time quantitative RT-PCR showed that bacterial challenge induced more than 20-fold increases in its expression level. Fluorescence in situ hybridization showed that Se-hcPGGPCR1 was expressed in a specific hemocyte type, the oenocytoids. A specific eicosanoid, PGE₂, significantly induced oenocytoid lysis and increased PO activity in the plasma. In contrast, when Se-hcPGGPCR1 expression was suppressed by RNA interference (RNAi), the oenocytoid lysis and the PO activation in response to PGE₂ were not elevated above basal levels. A binding assay using intracellular calcium mobilization showed that the RNAi-treated hemocytes were significantly less responsive to PGE₂ than the control hemocytes. These results support our hypothesis with the specific finding that PGE₂ acts through Se-hcPGGPCR1 to activate PPO by lysing oenocytoids.     

Monoclonal antibodies bind distinct classes of hemocytes in the moth Pseudoplusia includens

Insect hemocytes have historically been identified on the basis of morphology, ultrastructure and hypothesized function. Among insects in the order Lepidoptera, five hemocyte classes are usually recognized: granular cells, plasmatocytes, spherule cells, oenocytoids and prohemocytes. We have generated a panel of monoclonal antibodies (mAbs) against hemocytes of the moth Pseudoplusia includens. In this study, hemocyte identification using 16 different mAbs was compared to identification methods using morphological characters. Three main categories of mAb binding activity were identified: (1) mAbs that specifically labeled only one morphological class of hemocytes, (2) mAbs that labeled granular cells and spherule cells, and (3) mAbs that labeled plasmatocytes and oenocytoids. With one exception, none of the antibodies bound to other tissues in P. includens. However, certain mAbs that specifically labeled granular cells and/or spherule cells in separated hemocyte populations also labeled plasmatocytes co-cultured with granular cells or cultured in granular cell conditioned medium. Overall, our results suggest that granular cells are antigenically related to spherule cells, and that plasmatocytes are antigenically related to oenocytoids. The use of mAbs as hemocyte markers are discussed.     

Immunocytochemical localization of a calcium-binding phosphoprotein in hemocytes of heterodont bivalves

Calcium-binding phosphoprotein particles are the most abundant extracellular proteins in the hemolymph of heterodont bivalves, and granular hemocytes are the most abundant cells in the same fluid. In this study, the hemocytes of Rangia cuneata were examined ultrastructurally and probed with anti-phosphoprotein IgG to demonstrate that the granulocytes are a probable source of the hemolymph phosphoprotein. The granulocyte cytoplasm is laden with large vesicles containing an amorphous homogenous matrix and variable numbers of electron-dense particles; the latter are ultrastructurally similar to the extracellular phosphoprotein. The vesicle particles and matrix are related forms of the hemolymph phosphoprotein as evidenced by heavy gold labeling when Lowicryl sections were sequentially treated with rabbit-anti-phosphoprotein IgG and colloidal gold-anti-rabbit IgG. The vesicles may be the loci for posttranslational phosphorylation and eventual secretion of the calcium-binding phosphoprotein, or alternatively the vesicles may be digestive structures which degrade internalized phosphoprotein.     

家蝇幼虫血细胞类型及免疫功能的初步研究

目的用不同方法观察家蝇3龄幼虫血细胞的形态,并对血细胞进行分类和免疫功能研究,为昆虫血细胞形态、分类及免疫研究提供实验依据。方法 (1)应用姬氏染色结合相差显微镜及荧光染色方法观察家蝇3龄幼虫血细胞形态,并对家蝇3龄幼虫血细胞进行分类;(2)观察家蝇3龄幼虫感染大肠杆菌后不同时间血细胞总数(THC)、各类血细胞数量(DHC)及形态的变化;(3)应用倒置显微镜观察家蝇3龄幼虫离体血细胞感染大肠杆菌后的形态变化;(4)采用酶细胞化学技术测定感染前后家蝇3龄幼虫血细胞中ACP、POD活性的变化。结果 (1)家蝇3龄幼虫血细胞可分为原血胞、浆血胞、粒血胞、珠血胞、类绛血胞5类,其中浆血胞又分为大核浆血胞和小核浆血胞两种;(2)感染后各时间组血细胞总数、浆血胞和粒血胞数量均显著升高,且浆血胞和粒血胞聚集成堆,出现细胞变形、空泡等形态变化;感染后16h、24h组的珠血胞数显著升高;原血胞和类绛血胞数量和形态无明显变化;(3)家蝇幼虫离体血细胞感染大肠杆菌后粒血胞周围见大量细菌聚集,浆血胞、粒血胞聚集成团将细菌包裹形成包囊,未见原血胞、珠血胞、类绛血胞形态的变化;(4)感染后浆血胞和粒血胞中ACP、POD的活性增强,感染前后原血胞、珠血胞、类绛血胞中均未见ACP、POD的阳性反应物。结论通过3种方法能很好地将家蝇3龄幼虫血细胞分为5类,其中浆血胞和粒血胞是家蝇幼虫参与免疫反应的主要细胞类型,珠血胞不参与感染后的早期细胞免疫反应。     

幼虫密度对草地螟血细胞数量和组成的影响

为了阐明幼虫密度对草地螟Loxostege sticticalis L.（鳞翅目： 螟蛾科）细胞免疫能力的影响, 本研究调查了在活体灰菜植株上1,5,10和20头/瓶（900 mL）4种密度条件下的其5龄幼虫血细胞种类、数量和组成。结果表明： 草地螟幼虫血淋巴中有原血细胞、浆血细胞、 颗粒血细胞、珠血细胞和类绛色血细胞等5种（类）血细胞。血细胞总数、 浆血细胞、颗粒血细胞数量随幼虫密度的增加而显著递增, 但原血细胞、珠血细胞和类绛色血细胞数量在幼虫密度间的差异不明显;各种血细胞所占血细胞总数的比例在4个密度中的排序相同, 但10和20头/瓶密度下的浆血细胞比例显著高于1头/瓶的,其余4种血细胞的比例在不同密度之间无显著差异。可见, 幼虫密度主要是通过影响草地螟幼虫浆血细胞和颗粒血细胞的数量及血细胞总数, 从而影响草地螟的细胞免疫能力。     

Studies on prophenoloxidase activation in the mosquito Aedes aegypti L

This study, the first of its kind in a mosquito vector species, demonstrates the feasibility of studying prophenoloxidase activation in an insect containing not more than a few microliters of hemolymph. Mosquito phenoloxidase was found to be in an inactive proenzyme form, prophenoloxidase. Mosquito prophenoloxidase required bivalent cation for its activation; Ca2+ was found to be the most efficient for activation. Concomitant amidase activity was also observed prior to phenoloxidase activity. Through Western blotting, using a cross-reactive silkworm antiprophenoloxidase antibody, our results strongly suggest that mosquito prophenoloxidase activation resulted from limited proteolysis. Protease inhibitor studies reinforced this contention showing the involvement of (a) serine protease(s) with trypsin-like activity in the activation of mosquito prophenoloxidase.     

Two Hemocyte Lineages Exist in Silkworm Larval Hematopoietic Organ

Background

Insects have multiple hemocyte morphotypes with different functions as do vertebrates, however, their hematopoietic lineages are largely unexplored with the exception of Drosophila melanogaster.

Methodology/Principal Findings

To study the hematopoietic lineage of the silkworm, Bombyx mori, we investigated in vivo and in vitro differentiation of hemocyte precursors in the hematopoietic organ (HPO) into the four mature hemocyte subsets, namely, plasmatocytes, granulocytes, oenocytoids, and spherulocytes. Five days after implantation of enzymatically-dispersed HPO cells from a GFP-expressing transgenic line into the hemocoel of normal larvae, differentiation into plasmatocytes, granulocytes and oenocytoids, but not spherulocytes, was observed. When the HPO cells were cultured in vitro, plasmatocytes appeared rapidly, and oenocytoids possessing prophenol oxidase activity appeared several days later. HPO cells were also able to differentiate into a small number of granulocytes, but not into spherulocytes. When functionally mature plasmatocytes were cultured in vitro, oenocytoids were observed 10 days later. These results suggest that the hemocyte precursors in HPO first differentiate into plasmatocytes, which further change into oenocytoids.

Conclusions/Significance

From these results, we propose that B. mori hemocytes can be divided into two major lineages, a granulocyte lineage and a plasmatocyte-oenocytoid lineage. The origins of the spherulocytes could not be determined in this study. We construct a model for the hematopoietic lineages at the larval stage of B. mori.     

Characterization of hemocytes from the yellow fever mosquito,Aedes aegypti

Mosquitoes are the most important arthropod disease vectors, transmitting a broad range of pathogens that cause diseases such as malaria, lymphatic filariasis, and yellow fever. Mosquitoes and other insects are able to mount powerful cellular and humoral immune responses against invading pathogens. To date, most studies have concentrated on the humoral response. In the current study we describe the hemocytes (blood cells) of the yellow fever mosquito, Aedes aegypti, by means of morphology, lectin binding, and enzyme activity and immunocytochemistry. Our light and electron microscopic studies suggest the presence of four distinct hemocyte types: granulocytes, oenocytoids, adipohemocytes, and thrombocytoids. We believe granulocytes and oenocytoids are true circulating hemocytes, but adipohemocytes and thrombocytoids are likely adhered to fixed tissues. Granulocytes, the most abundant cell type, have acid phosphatase and alpha-naphthyl acetate esterase activity, and bind the exogenous lectins WGA, HPA, and GNL. Phenoloxidase, an essential enzyme in the melanotic encapsulation immune response, was detected inside oenocytoids. This is, to our knowledge, the first report that has detected phenoloxidase inside mosquito hemocytes at the ultrastructural level. These results have begun to form a knowledge base for our ongoing studies on the function of Ae. aegypti hemocytes, and their involvement in controlling infections.     

Expression of prophenoloxidase mRNA during silkworm hemocyte development

Two clones encoding different prophenoloxidase isoforms were amplified by polymerase chain reaction of RNA from the hemocytes of an experimental strain of Bombyx mori. The nucleotide sequences of the clones and the deduced amino acid sequences were confirmed to be nearly identical to those of the orthologous clones previously obtained from a commercial race of B. mori. Northern blot hybridization using these clones as probes demonstrated that the prophenoloxidase mRNA in the hemocytes is expressed in a stage-specific manner during the final larval instar and pupal stage, showing a peak one day before pupation in males and on the day of pupation in females. A sexual difference was also observed when the content of prophenoloxidase protein in the hemolymph (including hemocytes) was measured by an enzyme-linked immunosorbent assay.