转cry1Ab基因水稻对二化螟幼虫血细胞的影响

研究了转cry1Ab基因水稻“克螟稻1号”对二化螟Chilo suppressalis幼虫细胞免疫系统的影响。结果表明,转cry1Ab基因水稻对二化螟幼虫的血细胞影响明显,取食转cry1Ab基因水稻后,二化螟幼虫各类血细胞都明显低于取食非转基因水稻“秀水11”的对照组（原血细胞和囊血细胞在取食初期例外）,随取食时间延长,各类血细胞数量及血细胞总数均呈递减的趋势。从各类血细胞所占血细胞总数的百分比来看,原血细胞在取食36 h后锐减,而浆血细胞和粒血细胞则比例增加,其余珠血细胞、囊血细胞的变化不明显。另外,血细胞还出现空泡化、肿胀等病态变化,致使血细胞快速破裂。由此推测转cry1Ab基因水稻自身表达的毒蛋白能严重干扰靶标昆虫二化螟幼虫的细胞免疫系统。     

胚后发育期臭腹腺蝗中的血细胞种类

应用血球计数器统计了胚后发育期臭腹腺蝗Zonocerus variegatus中存在的血细胞类型和数目。从1龄幼虫至成虫的发育阶段中共观察到6种血细胞类型,即原血细胞 （PRS）、 浆血细胞 （PLS）、粒细胞 （GRS）、珠血细胞 （SPS）、绛色细胞（OES） 和adipohaemocytes （ADS）。不过,在1龄幼虫期未发现OES。在这6种血细胞中,PLS的总平均数最高,OES的总平均数最低。成虫期的血细胞数目显著高于其他发育阶段（P<0.05）,而1龄幼虫和2龄幼虫期的血细胞数目不存在显著差异（P>0.05）。     

幼虫密度对草地螟食物利用率及消化酶活性的影响

为了阐明草地螟Loxostege sticticalis大发生种群幼虫取食行为特征, 在室内条件下（温度22±1℃, 相对湿度70%）对不同幼虫密度［1, 10, 30头/瓶（650 mL）］饲养草地螟幼虫的食物利用率及消化酶活性进行了研究。结果表明： 幼虫中等（或高）密度对草地螟幼虫相对中肠重量、 相对取食量、 粪便干重、 食物利用率和近似消化率及总蛋白酶和亮氨酸氨肽酶活性影响显著。幼虫相对中肠重量以10头/瓶的幼虫密度最大, 1头/瓶的幼虫密度最小。随着幼虫密度的增加, 幼虫相对取食量和粪便干重增加, 而虫体干重减轻, 幼虫食物利用率降低。幼虫密度30头/瓶的幼虫相对取食量和粪便干重显著高于1和10头/瓶的, 而30头/瓶的幼虫食物利用率显著低于1头/瓶的。幼虫近似消化率随幼虫密度的逐渐增加而显著降低。幼虫密度10头/瓶的幼虫总蛋白酶和亮氨酸氨肽酶的活性显著高于1和30头/瓶的, 而淀粉酶的活性受幼虫密度影响不显著。随幼虫密度的增加, 幼虫相对中肠重量与总蛋白酶和亮氨酸氨肽酶活性变化趋势较为一致, 消化酶活性的变化可能与相对中肠重量大小有关。因此, 幼虫密度是影响草地螟幼虫取食行为的重要因子, 这些结果为阐明草地螟大发生种群与一般种群的为害特征提供了重要理论依据。     

幼虫密度对草地螟生长发育及繁殖的影响

为了明确幼虫密度对草地螟Loxostege sticticalis种群增长的影响, 对室内条件下（温度22±1℃, RH 70%±5%, 光周期16L∶ 8D）不同幼虫密度[1, 10, 20, 30和40头/瓶（650 mL）］饲养的草地螟生长发育及繁殖进行了研究。结果表明: 幼虫密度对草地螟幼虫体色、 发育历期和存活率, 以及蛹重和成虫生殖等有显著影响。随着幼虫密度的增加, 幼虫体色黑化程度呈增强趋势, 幼虫密度大于10头/瓶时的体色黑化值均显著大于幼虫密度为1头/瓶时的体色黑化值（P<0.05）。20头/瓶的幼虫和蛹历期最短, 且随幼虫密度的增加而显著延长（P<0.05）。幼虫存活率以10头/瓶最高, 其他幼虫密度的幼虫存活率显著较低（P<0.05）。蛹重以1头/瓶的最重, 并随幼虫密度增加而显著下降（P<0.05）。成虫产卵量和交配率分别以1和20头/瓶的幼虫密度最高, 幼虫密度升高则产卵量、 交配率逐渐降低。成虫产卵历期随着幼虫密度的增加逐渐缩短。雌、 雄蛾寿命分别以10和20头/瓶幼虫密度时最长, 幼虫密度过高时雌雄蛾寿命又显著缩短（P<0.05）。生命表分析表明, 幼虫密度对草地螟种群增长指数有显著影响, 以10头/瓶幼虫密度的种群增长指数最高, 幼虫密度过高或过低时种群增长指数下降。据此认为, 幼虫密度是影响草地螟种群增长的重要因子之一。     

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。     

重金属Cd2+对棕尾别麻蝇血细胞数量、包囊作用和形态结构的影响

为了揭示重金属对昆虫细胞免疫的影响及其机理,本文采用血细胞计数、台盼蓝染色、延展与包囊率测定, 以及显微与超微结构观察等方法,以经重金属Cd²⁺（浓度为150 μg/g）处理的棕尾别麻蝇Boettcherisca peregrina及其对照为研究对象,分别测定了处理组与对照组血细胞的数量与存活率、延展与包囊率,观察其形态结构,并比较了两组间的差异。结果表明： 棕尾别麻蝇初产幼虫经连续喂饲含Cd²⁺的饲料24,48,72和96 h后,与对照相比其血细胞总数和存活率显著下降,而血细胞的延展率和包囊作用的显著下降则分别出现于取食72和48 h之内,此后则下降不显著;由Cd²⁺处理幼虫发育形成蛹的血细胞包囊作用也显著低于对照。形态结构观察结果表明,Cd²⁺处理对幼虫的原血细胞、浆血细胞、颗粒血细胞和类绛色血细胞的显微形态影响不大,但可导致部分浆血细胞不能产生伪足;但均能导致各类血细胞的超微结构发生不同程度的变化,其中主要变化包括：细胞膜受损或破裂,染色质呈现凝聚, 线粒体和内质网等细胞器明显减少,以及胞质内出现空囊泡。结果说明重金属Cd²⁺对棕尾别麻蝇的血细胞可具有毒害作用。     

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。     

黑翅痂蝗血细胞形态学的研究

【目的】蝗虫血细胞的研究以及不同血细胞类型间的演化关系,是蝗虫细胞免疫学的依据,也是防蝗治蝗的重要依据。【方法】本研究通过Wright-Giemsa对黑翅痂蝗Bryodema nigroptera Zheng血细胞进行了混合染色,并使用光学显微镜进行了观察。【结果】发现黑翅痂蝗血细胞包括原血胞、浆血胞、粒血胞、类绛色血细胞、囊血胞、脂血胞、蠕形细胞和巨核血细胞8种类型。【结论】在成虫体内,原血胞占细胞总数的1%,浆血胞占32.2%,粒血胞占57.3%,类绛色血细胞占1%,囊血胞占6%,脂血胞占1%,蠕形细胞占1%,巨核细胞占细胞总数的0.5%,粒血胞数量最多,巨核细胞最少。     

黑水虻幼虫血细胞类型的研究

黑水虻Hermetia illucens(L.)是一种重要的资源昆虫。本文旨在筛选出适合黑水虻血细胞观察的染色方法,明确黑水虻血细胞类型、数量及组成,为黑水虻血细胞免疫研究奠定基础。采用Giemsa和Giemsa-Wright's染色方法和血球计数板法,对黑水虻血细胞染色方法和血细胞数量及形态进行研究。结果表明,甲醇固定4 min,Giemsa-Wright's染液染色9 min、pH 7.2磷酸盐缓冲液分色10 min是黑水虻幼虫血细胞最佳染色方法;黑水虻幼虫血细胞包括原血细胞、浆血细胞、粒血细胞、类绛血细胞、珠血细胞5类;4龄黑水虻幼虫血细胞数量大约为2917个/μL,其中浆血细胞占53.20%±2.78%,粒血细胞占37.49%±3.96%,原血细胞占7.97%±1.51%,类绛血细胞占1.02%±0.24%,珠血细胞占0.62%±0.08%。Giemsa-Wright's染色法为黑水虻幼虫血细胞最佳染色方法,黑水虻幼虫血细胞可分为5类10种。     

Effects of larval density on food utilization efficiency and digestive enzyme activity of the beet webworm, Loxostege sticticalis (Lepidoptera: Pyralidae)

为了阐明草地螟Loxostege sticticalis大发生种群幼虫取食行为特征,在室内条件下(温度22±1℃,相对湿度70％)对不同幼虫密度[1,10,30头/瓶(650 mL)]饲养草地螟幼虫的食物利用率及消化酶活性进行了研究.结果表明:幼虫中等(或高)密度对草地螟幼虫相对中肠重量、相对取食量、粪便干重、食物利用率和近似消化率及总蛋白酶和亮氨酸氨肽酶活性影响显著.幼虫相对中肠重量以10头/瓶的幼虫密度最大,1头/瓶的幼虫密度最小.随着幼虫密度的增加,幼虫相对取食量和粪便干重增加,而虫体干重减轻,幼虫食物利用率降低.幼虫密度30头/瓶的幼虫相对取食量和粪便干重显著高于1和10头/瓶的,而30头/瓶的幼虫食物利用率显著低于1头/瓶的.幼虫近似消化率随幼虫密度的逐渐增加而显著降低.幼虫密度10头/瓶的幼虫总蛋白酶和亮氨酸氨肽酶的活性显著高于1和30头/瓶的,而淀粉酶的活性受幼虫密度影响不显著.随幼虫密度的增加,幼虫相对中肠重量与总蛋白酶和亮氨酸氨肽酶活性变化趋势较为一致,消化酶活性的变化可能与相对中肠重量大小有关.因此,幼虫密度是影响草地螟幼虫取食行为的重要因子,这些结果为阐明草地螟大发生种群与一般种群的为害特征提供了重要理论依据.     

Hemocyte differentiation in the hematopoietic organs of the silkworm, <Emphasis Type="Italic">Bombyx mori</Emphasis>: prohemocytes have the function of phagocytosis

Hemocytes isolated from the larval hematopoietic organs of the silkworm were classified following staining with acridine orange and propidium iodide. Among the hemocytes isolated from the hematopoietic organs of whole fifth larval and wandering stages, most were prohemocytes (60%–70%) and oenocytoids (30%–40%). Granulocytes comprised only about 0.5%–1% at the wandering stage and were even rarer at other stages; no spherulocytes or plasmatocytes were found. Therefore, hemocyte differentiation inside larval hematopoietic organs is not as extensive as previously thought. Following 10–30 min in vitro culture of hemocytes isolated from larval hematopoietic organs, many young granulocytes and plasmatocytes appeared. Furthermore, during phagocytosis assays, prohemocytes were seen to adopt the morphology of plasmatocytes, containing fragments of phagocytosed cells. Our results underline the similarities between Drosophila and Bombyx hematopoiesis.     

The relative abundance of hemocyte types in a polyphagous moth larva depends on diet

Hemocytes are crucial cells of the insect immune system because of their involvement in multiple immune responses including coagulation, phagocytosis and encapsulation. There are various types of hemocytes, each having a particular role in immunity, such that variation in their relative abundance affects the outcome of the immune response. This study aims to characterize these various types of hemocytes in larvae of the grapevine pest insect Eupoecilia ambiguella, and to assess variation in their concentration as a function of larval diet and immune challenge. Four types of hemocytes were found in the hemolymph of 5th instar larvae: granulocytes, oenocytoids, plasmatocytes and spherulocytes. We found that the total concentration of hemocytes and the concentration of each hemocyte type varied among diets and in response to the immune challenge. Irrespective of the diet, the concentration of granulocytes increased following a bacterial immune challenge, while the concentration of plasmatocytes and spherulocytes differentially varied between larval diets. The concentration of oenocytoids did not vary among diets before the immune challenge but varied between larval diets in response to the challenge. These results suggest that the resistance of insect larvae to different natural enemies critically depends on the effect of larval diet on the larvae’s investment into the different types of hemocytes.     

Ultrastructure of the hemocytes of Cetonischema aeruginosa larvae (Coleoptera,Scarabaeidae): involvement of both granulocytes and oenocytoids in in vivo phagocytosis

In the context of comparative studies on immunity defence mechanisms of adults and larvae of the coleopteran Cetonischema aeruginosa (Drury, 1770) the ultrastructure of the circulating hemocytes of the third instar larval stage has been investigated by means of light and transmission electron microscopy (TEM). Six types of hemocytes were found in the hemolymph of C. aeruginosa and they were identified as prohemocytes, granulocytes, plasmatocytes, coagulocytes, oenocytoids and spherule cells. In order to identify the "professional" phagocyte cell, phagocytosis assays were performed in vivo by injection of 0.9 microm carboxylate-modified polystyrene latex beads. It was demonstrated that the granulocytes and the oenocytoids of C. aeruginosa were the only hemocyte types involved in this cellular response.     

Characterization of the Hemocytes in Larvae of Protaetia brevitarsis seulensis: Involvement of Granulocyte-Mediated Phagocytosis

Hemocytes are key players in the immune response against pathogens in insects. However, the hemocyte types and their functions in the white-spotted flower chafers, Protaetia brevitarsis seulensis (Kolbe), are not known. In this study, we used various microscopes, molecular probes, and flow cytometric analyses to characterize the hemocytes in P. brevitarsis seulensis. The circulating hemocytes were classified based on their size, morphology, and dye-staining properties into six types, including granulocytes, plasmatocytes, oenocytoids, spherulocytes, prohemocytes, and adipohemocytes. The percentages of circulating hemocyte types were as follows: 13% granulocytes, 20% plasmatocytes, 1% oenocytoids, 5% spherulocytes, 17% prohemocytes, and 44% adipohemocytes. Next, we identified the professional phagocytes, granulocytes, which mediate encapsulation and phagocytosis of pathogens. The granulocytes were immunologically or morphologically activated and phagocytosed potentially hazardous substances in vivo. In addition, we showed that the phagocytosis by granulocytes is associated with autophagy, and that the activation of autophagy could be an efficient way to eliminate pathogens in this system. We also observed a high accumulation of autophagic vacuoles in activated granulocytes, which altered their shape and led to autophagic cell death. Finally, the granulocytes underwent mitotic division thus maintaining their number in vivo.     

Bombyx mori prohemocyte division and differentiation in individual microcultures

We followed the fate of microcultured Bombyx mori prohemocytes in vitro. Prohemocytes isolated from larval hemolymph (day 1 of 4th instar) were maintained for 4-11 days in serum-free MGM-450 medium and some of them underwent mitotic division. Over 60% of the non-dividing prohemocytes differentiated to plasmatocytes or granulocytes. Some of the granulocytes subsequently transformed to spherulocytes. Of the dividing prohemocytes, 59.2% of the daughter cells differentiated into other types of hemocytes such as plasmatocytes, granulocytes and spherulocytes, and the remainder divided into new prohemocytes. Four of these renewed prohemocytes generated daughter cells composed of plasmatocytes and granulocytes. These results suggest that prohemocytes possess the properties of stem cells, and that plasmatocytes and spherulocytes may be terminally differentiated cells, whereas granulocytes, at least in part, may be a transient form of spherulocyte. Oenocytoids were not produced, suggesting that the lineage of oenocytoids differs from that of other types of hemocytes and that it is determined before release from hemopoietic organs.     

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.     

The hemocytes of an lsopod Ligia exotica Roux

The morphological features of the hemocytes of the crustacean Ligia exotica are similar to hemocytes of insects and millipedes. Jones system of hemocyte classification is extended to crustacean hemocytes. As in insects, seven classes of hemocytes, identified as prohemocytes, plasmatocytes, granular hemocytes, cystocytes, oenocytoids, spherule cells and adipohemocytes, occur. The prohemocytes can be subdivided into five categories that probably represent the precursor of major cell types. The structural and chemical features of other major cell classes are distinct and support the concept of Jones ('62) that these types might have different lineages and might not be capable of transforming into one another. Some of the prohemocytes, plasmatocytes and granular hemocytes are amoeboid. Cystocytes do not bring about any visible plasma coagulation similar to their counterpart in millipedes. Oneocytoids and adipohemocytes are rare. Plasmatocytes, cystocytes and oenocytoids occur in conglomerates, the significance of which is discussed. The cell types are compared with those of the hemocytes of other crustaceans. It is suggested that the nomenclature based on morphological characters is more suited for crustacean hemocytes than a nomenclature based on behavioural and physiological characters.     

Hemocytes of the centipede Scutigera coleoptrata (Chilopoda,Notostigmophora) with notes on their interactions with the tracheae

The hemocytes of Scutigera coleoptrata were investigated by light and electron microscopy. Four types of hemocytes were identified: prohemocytes, plasmatocytes, granulocytes, and spherulocytes. Only granulocytes could be distinguished from the three other types by May-Grünwald staining, as this is the only hemocyte type demonstrating an eosinophilic reaction. Shape and size give further indications for distinguishing the cell types. In addition, differentiation is possible on the basis of their ultrastructure. However, only a combination of all three methods (staining and light and electron microscopy) allows clear separation of the cell types. As transitional stages between the cell types occur in S. coleoptrata, it is likely that prohemocytes, plasmatocytes, and granulocytes are ontogenetic stages of a single cell lineage. Special cell components and their possible functions are described. Plasmatocytes exocytose tubular structures that probably play a role in coagulation processes. These tubular structures develop in the grana of plasmatocytes. Also, a special arrangement of microtubules and microfilaments was demonstrated. For the first time interactions between hemocytes and tracheae are documented within the Chilopoda. It is assumed that the hemocytes meet their oxygen requirements directly from the tracheae. Phylogenetic implications of the results are discussed.     

The hemocytes of Hyalophora cecropia (Lepidoptera)

The hemocytes of selected stages of Hyalophora cecropia from first instar larvae to four-day-old adults were examined and compared with those of Samia cynthia and Antheraea polyphemus. Five classes and two subclasses of hemocytes are described in these moths: (1) prohemocytes, (2) plasmatocytes (of several morphological types), (3) spherule cells, (4) adipohemocytes (two subclasses), and (5) oenocytoids. All types except oenocytoids and subclass II adipohemocytes, are found in all stages examined. Mitotic figures were common among prohemocytes of most stages, but were seen only rarely among plasmatocytes and adipohemocytes, and were not seen among spherule cells or oenocytoids. Prohemocytes and plasmatocytes often contain lipid but rarely PAS positive material. Spherules of spherule cells are PAS positive, as are occasional cytoplasmic inclusions of oenocytoids. Adipohemocytes of both subclasses contain lipid and PAS positive materials in all stages examined. Adipohemocytes and plasmatocytes proved to be most active in phagocytizing ink. Relationships between hemocytes of these and other insects, and some possible functions of hemocytes are discussed.