感染苏云金杆菌后印度谷螟血细胞的病态变化

光学显微镜下观察苏云金杆菌感染印度谷螟后幼虫血细胞的病态变化证明:幼虫感病后,原血胞、粒血胞、浆血胞、珠血胞、类绛血胞、囊血胞均受到破坏,多数血胞出现空泡和变形,珠血胞珠粒之间互相脱离,细胞质外流,细胞膜破裂,囊血胞则有细胞外溢现象。这些病态变化均可在感病8小时以后观察到。     

意大利蝗血细胞形态学研究

血细胞是昆虫免疫防御、代谢和分泌等生理活动的重要参与者。本文通过Gimesa-Wright试剂盒染色法研究了意大利蝗成虫血细胞类型。结果表明,意大利蝗存在原血胞、浆血胞、粒血胞、脂血胞、囊血胞、巨核细胞6种细胞。粒血胞、脂血胞和浆血胞是意大利蝗主要的血细胞类型,分别占细胞总数的42.04%、29.60%和23.32%。研究结果为深入研究意大利蝗血细胞的功能及其对意大利蝗适应环境的机制提供了基础数据。     

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。     

草履蚧血细胞的显微形态与超微结构观察

为研究蚧虫血淋巴中血细胞的种类及其结构特征,采用相差显微镜、荧光显微镜和扫描电镜与透射电镜技术,观察了草履蚧雌成虫血细胞的显微形态与超微结构特征.结果显示,在荧光显微镜和扫描电镜下观察识别出草履蚧血淋巴中的5种血细胞,即：原血胞、浆血胞、粒血胞、囊血胞和类绛色血细胞.在透射电镜下可见,原血胞的细胞核明显,表现出高的细胞质密度;浆血胞最典型的特征是细胞质中有大量的囊泡;粒血胞的细胞质中有发达的粗面内质网和许多玫瑰形的细颗粒.类绛色血细胞最典型的特征是有许多结晶,并在细胞质的空泡区内分布的更多.囊血胞透明性强,具有围核空间,膨大成潴泡状.     

白蜡绵粉蚧血细胞的显微形态与超微结构观察

为研究蚧虫血淋巴中血细胞的种类及其结构特征,本文采用荧光显微镜、扫描电镜和透射电镜观察了白蜡绵粉蚧Phenacoccus fraxinus Tang(半翅目:蚧总科:粉蚧科)雌成虫血细胞的显微形态超微结构.结果显示,在荧光显微镜和扫描电镜下观察识别出白蜡绵粉蚧血淋巴中的5种血细胞,即原血胞、浆血胞、粒血胞、类绛色血胞和囊血胞.在透射电镜下,原血胞的细胞核明显,表现出高的细胞质密度;浆血胞最典型的特征是细胞质中有大量的囊泡;粒血胞的细胞质中有发达的粗面内质网和许多玫瑰形的细颗粒;类绛色血胞最典型的特征是有许多结晶,并在细胞质空泡区内分布更多;囊血胞透明性强,具有围核空间,膨大成潴泡状.     

粘虫 Pseudaletia separata (Walk.)血细胞的类型辨识和病态变化

利用相差显微镜,并辅以涂片染色、化学反应方法,将粘虫各虫态虫龄的血细胞分为8个类型。他们是:原血胞、浆血胞、粒血胞、珠血胞、类绛血胞、囊血胞、梭血胞及脂血胞。并统计出各类血细胞在粘虫一生中的数量变化。本文认为足血胞与粒血胞不同之处在于前者的伸延部分含有细胞质。符合这一标准的足血胞在此次工作中看到的不多,因此对粘虫足血胞的存在问题暂作保留。 苏芸金杆菌处理后,粘虫血细胞产生了明显的病态变化,随着病症的进展,非正常血胞自2%上升为30%,50%,83%左右。直到死亡,血淋巴内未发现杆菌出现。     

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。     

阿尔泰蝠蛾幼虫血细胞形态学研究

本研究采用Wright-Giemsa染色方法,利用光学显微镜观察阿尔泰蝠蛾Hepialus altaicola Wang幼虫血细胞.根据鳞翅目昆虫血细胞形态特征对阿尔泰蝠蛾幼虫血细胞进行鉴定,计数并计算各类血细胞所占的比例.发现阿尔泰蝠蛾幼虫血淋巴中存在原血胞、浆血胞、粒血胞、类绛色细胞、珠血胞和囊血胞6种细胞类型,所占比例分别为3.7％,29.9％,55.4％,2.3％,5.8％和2.9％.阿尔泰蝠蛾幼虫血细胞组成及其形态与其他鳞翅目昆虫基本一致,但是与其它种属相比,同种类型的血细胞大小和占比略有不同.粒血胞和浆血胞是阿尔泰蝠蛾幼虫血淋巴中的主要类型,其中粒血胞占比最高.该研究为深入研究阿尔泰蝠蛾血细胞形态和功能提供理论依据和基础数据.     

华北大黑鳃金龟幼虫血细胞的超微结构观察

应用光学和电子显微镜技术检查了华北大黑鳃金龟3龄幼虫血淋巴内的血细胞,识别出5种类型的血细胞(原血胞、浆血胞、颗粒血胞、珠血胞和凝血胞)并对每一种血细胞的超微结构特点进行描述。     

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...     

Classification of larval circulating hemocytes of the silkworm,<Emphasis Type="Italic"> Bombyx mori</Emphasis>, by acridine orange and propidium iodide staining

Circulating hemocytes of the silkworm can be classified by fluorescence microscopy following staining with acridine orange and propidium iodide. Based on their fluorescence characteristics, three groups of circulating hemocytes can be distinguished. The first group, granulocytes and spherulocytes, is positive for acridine orange and contain bright green fluorescent granules when observed by fluorescence microscopy. In granulocytes, these green granules are heterogeneous and relatively small. In contrast, in spherulocytes, the green granules appear more homogenous and larger. The second group of hemocytes consists of prohemocytes and plasmatocytes. These cells appear faint green following staining with acridine orange and do not contain any green fluorescent granules in the cytoplasm. Prohemocytes are round, and their nuclei are dark and clear within a background of faint green fluorescence. Inside the nucleus there are one or two small bright green fluorescent bodies. Plasmatocytes are irregularly shaped and their nuclei are invisible. Oenocytoids belong to the third group, and their nuclei are positive for propidium iodide. Therefore, all five types of circulating hemocytes of the silkworm, including many peculiar ones that are difficult to identify by light microscopy, can now be easily classified by fluorescence microscopy following staining with acridine orange and propidium iodide. In addition, we show that hemocytes positive for acridine orange and propidium iodide are in fact living cells based on assays for hemocyte composition, phagocytosis, and mitochondrial enzyme activity.     

An Ultrastructural Study of the Hemocytes of the Pericardial Body in the Ascidian Ciona intestinalis (L.)

Abstract The hemocytes of the pericardial body of Ciona intestinalis were studied by electron microscopy. Our findings showed that stem cells, clear vesicular granulocytes, microgranulocytes, unilocular granulocytes and globular granulocytes are present at the periphery of the smaller-sized pericardial bodies. The stem cells are small round cells with a large nucleus, with or without nucleolus, and homogeneous cytoplasm containing numerous ribosomes. The clear vesicular granulocytes are characterized by an ameboid shape and cytoplasm containing several large electron-lucent vacuoles and small electron-dense granules. The microgranulocytes are variable in shape and contain numerous large electron-dense granules. The unilocular granulocytes show a single large vacuole with an electron-dense or electron-lucent content and a thin layer of peripheral cytoplasm that contains the flattened nucleus. The globular granulocytes are characterized by the presence of large vacuoles containing either fibrogranular material or electron-dense aggregates.     

Immunolocalization of prophenoloxidase among hemocytes of the silkworm, Bombyx mori

Silkworm (Bombyx mori) hemocytes were fixed immediately after collection. Thin sections of the hemocytes were stained by an indirect immunogold staining method using rabbit anti-prophenoloxidase/IgG as a primary antibody and colloidal gold coated with goat anti-rabbit/IgG as a secondary antibody. Electron micrographs of the sections revealed that only plasmatocytes and oenocytoids have prophenoloxidase both in cytoplasm and nucleus whereas granulocytes, spherulocytes and prohemocytes do not have appreciable amounts of the proenzyme. Cytoplasmic inclusions of oenocytoids also contain the proenzyme. A wide variety of concentrations of prophenoloxidase was observed among oenocytoids. Plasmatocytes appeared to have less prophenoloxidase than any oenocytoids. Once materials in the granules of granulocyte were discharged into the plasma and formed coagula, they cross-reacted with antiprophenoloxidase/IgG, suggesting that prophenoloxidase was trapped in the coagula by unknown mechanisms. This observation is discussed in relation to the dispute concerning the presence of prophenoloxidase or phenoloxidase in the granulocyte.     

The hemocytes of Panstrongylus megistus (Hemiptera: Reduviidae)

Five hemocyte types were identified in the hemolymph of Panstrongylus megistus by phase contrast and common light microscopy using some histochemical methods. These are: Prohemocytes, small cells presenting a great nucleus/cytoplasm ratio; Plasmatocytes, the most numerous hemocytes, are polymorphic cells mainly characterized by a large amount of lysosomes; Granulocytes, hemocytes very similar to plasmatocytes which contain cytoplasmic granules and are especially rich in polysaccharides; Oenocytoids, cells presenting a small nucleus and a thick cytoplasm; they show many small round vacuoles when observed in Giemsa smears and many cytoplasmic granules under phase microscopy; Adipohemocytes, very large hemocytes, presenting many fat droplet inclusions which could correspond to free fat bodies which entered the hemolymph. Only prohemocytes and plasmatocytes can be clearly classified; all the other hemocyte types have a more ambiguous classification.     

Hemocytes of Leiobunum limbatum and two other species of harvestmen (Arachnida,Opiliones): Morphological classification and functional aspects

The hemocytes of Leiobunum limbatum, Mitopus morio, and Opilio ravennae number from about 8,000 (juveniles) to 41,000 (pregnant females) per microliter of hemolymph. Five different types of hemocytes occur in all three species and both sexes. According to their ultrastructural appearance and their similarities to other arthropod hemocytes these five types are designated as prohemocyte, plasmatocyte, granulocyte, coagulocyte, and spherulocyte. From the ultrastructural point of view the prohemocytes are interpreted as stem cells for plasmatocytes which on their part differentiate into granulocytes. Transitional stages which would indicate the origin of coagulocytes and spherulocytes could not be found. Granulocytes and spherulocytes are interpreted as being storage cells; coagulocytes burst when hemolymph is transferred to a microscopic slide. Plasmatocytes are involved in the removal of dead cells or cell fragments. Plasmatocytes are demonstrated as being able to phagocytize and digest bacteria.     

Hemocytes of the cochineal insect: ultrastructure

Using transmission electron microscopy, light microscopy (Giemsa May‐Grumwald), and the Periodic Acid‐Schif (PAS) and Sudan Black B staining techniques, hemocytes in the hemolymph of adult female Dactylopius coccus were characterized. The following, in order of abundance, were found: granulocytes, plasmatocytes, prohemocytes, and oenocytoids. Granulocytes varied in size with granulations in the cytoplasm, a large quantity of mitochondria, rugose endoplasmatic reticulum, ribosomes and vesicles, central or exocentric, spherical and occasionally lobulate nucleus. Plasmatocytes were polymorphic with irregularities in the plasma membrane; cytoplasm contained mitochondria, rugose endoplasmatic reticulum and vesicles, and exocentric, spherical, or irregular nucleus. In both types of hemocytes, scant polysaccharides and lipids were found. Prohemocytes were small and spherical with homogeneous cytoplasm and large exocentric nuclei. Oenocytoids were oval or irregular with dense homogeneous cytoplasm and elongated exocentric nuclei. The percentages of granulocytes on different days (d 1 and 10) during the life of the adult female were significantly different, as were those of plasmatocytes on d 30 and 50 and prohemocytes on d 1 and 50. © 2010 Wiley Periodicals, Inc.     

Ultrastructural studies of the hemocytes of Panstrongylus megistus (Hemiptera: Reduviidae)

Ultrastructural analyses revealed the presence of six hemocyte types in the hemolymph of Panstrongylus megistus, partially confirming our previous results obtained through light microscopy. Prohemocytes: small, round hemocytes with a thin cytoplasm layer, especially rich in free ribosomes and poor in membranous systems. Plasmatocytes: polymorphic cells, whose cytoplasm contains many lysosomes and a well developed rough endoplasmic reticulum (RER). They are extremely phagocytic. Sometimes, they show a large vacuolation. Granulocytes: granular hemocytes whose granules show different degrees of electrodensity. Most of them, have an internal structuration. Coagulocytes: oval or elongated hemocytes, which show pronounced perinuclear cisternae as normally observed in coagulocytes. The cytoplasm is usually electrodense, poor in membranous systems and contains many labile granules. Oenocytoids: large and very stable hemocytes, whose homogeneous cytoplasm is rich in loose ribosomes and poor in membranous systems. Adipohemocytes: large cells, containing several characteristic lipid droplets. The cytoplasm is also rich in glycogen, RER and large mitochondria. The total and differential hemocyte count (THC and DHC) were also calculated for this reduviid. THC increases from 2,900 hemocytes/mm3 of hemolymph in the 4th instar to 4,350 in the 5th and then, decreases to 1,950 in the adults. Plasmatocytes and coagulocytes are the predominant hemocyte types.     

Ultrastructural and functional characterization of circulating hemocytes from Plutella xylostella larva: Cell types and their role in phagocytosis

The hemocytes of different types encountered in the diamondback moth Plutella xylostella larvae of each instar and the development of the differential hemocytes counts were herein presented. Hemocytes classes/populations characterized based on their affinity with fluorescent dye (acridine orange) and ultrastructural differences comprised the prohemcoytes (<10–16%), plasmatocytes (22–65%), granulocytes (25–72%), oenocytoids (<1–9%), and spherulocytes (<1%). Prohemcoytes were the smallest cells with a comparatively tremendous nucleus. Plasmatocytes and granulocytes occupied the main proportion of total cell numbers. Oenocytoids were in a most stable presence, i.e. rotund in a diameter of 10 μm and with a nucleus deviated from the central location; however, sometimes with two nuclei which were adjoining with each other. Spherulocytes were rare and only could be observed occasionally. Ultrastructural investigation revealed that hemocytes in the diamondback moth larvae were of the typical model as in the Lepidoptera insect larvae. It is interesting to find that the cell which could phagocytize bacteria in vitro was granulocyte, not the other types of hemocytes, although plasmatocyte was usually declared to participate in this reaction in various previous studies.     

Fine structure of the hemocytes and nephrocytes of Argas (Persicargas) arboreus (Ixodoidea: Argasidae)

The fine structure of the hemocytes and nephrocytes in Argas (Persicargas) arboreus is described and compared with that of similar cells in other tick species and insects. The hemocytes are of three types: prohemocytes, with a relatively undifferentiated cytoplasm lacking granular inclusions and probably serving as progenitors of the other hemolymph cell types; plasmatocytes, containing abundant mitochondria, cisternae of rough endoplasmic reticulum (RER), and free ribosomes, as well as some small granular inclusions; granulocytes, the predominant cell type in the hemolymph, containing numerous granules of variable electron density and maturity, and pseudopodia-like processes on the cell surface. Plasmatocytes and granulocytes are phagocytic and possibly also have other functions in the tick body. Cells with intermediate features appear to be in a stage of transition from plasmatocyte to granulocyte. Nephrocytes contain vacuoles enclosing fibrillar material, some electrondense granules, and moderate amounts of the active organelles—mitochondria, RER, and ribosomes. The nephrocyte is surrounded by a basal lamina and its plasma membrane infolds to form many deep invaginations coated by a fine fibrillar material. Openings to these invaginations are closed by membranous diaphragms. Coated tubular elements connect the surface invaginations with large coated vesicles, which appear to be specialized for internalization of proteins from the hemolymph. The dense granules may represent an advanced stage of condensation of ingested protein and thus may be lysosomal residual bodies, or they may develop by accumulation of secretory products.