东方杯叶吸虫囊蚴壁和后尾蚴及成虫体表的扫描电镜观察

东方杯叶吸虫囊蚴壁光滑完整,囊壁两层,外囊壁纤维状,内囊壁无细胞结构,由电子致密的颗粒和小体组成。扫描电镜显示后尾蚴和成虫的附着器表皮均特化为微毛,体表被体棘和具纤毛乳突：差别是,后尾蚴的单生棘演变为成虫的簇生棘,无纤毛圆丘形乳突由成虫的无纤毛窝状乳突取代。本文详细描述了体棘和乳突等的形态和分布,对这些结构的功能及其发育过程中演变的意义进行了讨论。     

河鲈锚首吸虫体壁的超微结构观察

寄生鳜鳃部的河鲈锚首吸虫的体壁由表皮合胞体、基板、环肌、纵肌和表皮细胞核周体所组成。合胞体顶部质膜起伏形成表皮的嵴纹,基部质膜折叠形成指状突起伸入到合胞体中。合胞体表面覆盖着一层糖萼。河鲈锚首吸虫的表皮中含有四类分泌体,即电子致密的分泌颗粒、中等电子致密的分泌颗粒、有膜包围的电子稀疏的分泌体和多囊体．可见分泌体和合胞体基质通过胞吐作用排到体外,未见吞饮小泡,推测表皮的主要功能在于分泌和渗透压调节而非营养吸收。在外侧头瓣的乳突状结构所在处,合胞层较薄,基板平滑,在实质组织中的一腔体样结构中可见囊状体、电子致密度各异的颗粒体、泡状体和电子致密的基质团,神经突起分布于腔体周围,这类乳突可能代表一类新的非纤毛感受器类型。     

包囊游仆虫休眠包囊的超微结构研究

包囊游仆虫休眠包囊中,各类纤毛器的纤毛基体上方的大部分纤毛杆退化,或仅保留毛基体,有时部分额腹棘毛的毛基体也瓦解消失。残留纤毛的纤毛杆周围微管和中央微管仍具有“9 2”结构特征,也有少数纤毛杆出现2套“9 2”微管共处于一层纤毛膜内的现象。毛基体中周围三联体微管的中央形成微管形结构聚合体,基体附属结构仅存在基体间连接及纤毛器托架的残余物;非纤毛区皮层表膜下未见微管层。纤毛区皮层含纤毛器腔周围微管层(相当于表膜下微管层)、纤毛器深部及附近的微管束和分散的微管群。并且,纤毛区皮层囊泡内含有呈不同形态的纤毛杆结构;大核核孔明显变大,核孔数目减少,核孔内膜附着染色质。     

华美游仆虫细胞微管胞器的直接荧光和免疫荧光标记

应用直接荧光和免疫荧光标记显示,腹毛目纤毛虫华美游仆虫(Euplotes elegans)细胞微管胞器由口围带、波动膜、额腹横棘毛、缘棘毛、尾棘毛、背触毛等纤毛器微管以及纤毛器基部附属微管和非纤毛区皮层微管骨架组成.其中,口围带基部含有小膜托架、小膜附属微管,波动膜基部含有波动膜托架,额腹横棘毛基部含有前纵微管束、后纵微管束、横微管束或放射微管柬,左缘棘毛和尾棘毛基部微管束分化不明显,背纤毛基部含有攻瑰花状的基体周围骨架,这些微管结构与细胞背腹面皮层纵微管与横微管网一起组织成该类纤毛虫的主要皮层细胞骨架.结果表明,游仆虫皮层细胞骨架是以微管为主要成分构建而成的,并且其棘毛基部微管的组成具有与其他类纤毛虫不同的特征;游仆虫间期细胞及形态发生时期纤毛基体或纤毛原基中存在中心蛋白,其可能与纤毛基体结构的维持及基体发生过程中微管的组装有关.     

鳜鳃部寄生河鲈锚首吸虫的扫描电镜观察

河鲈锚首吸虫头器表面分布着形状各异的孔状结构,每个中央头瓣上有两个随着器囊,而每个外侧头瓣上只有一个。口腔位于头器下方的腹面中线上,口腔表皮与周围的表皮无异。生殖孔在口腔正下方,阴道开口于虫体背侧面,周围有微纤毛的分布。交接器位于生殖孔左下方,交接管表面波纹状,辅助交配器表面布满疣状突起,后随着器的中央锚钩上具一凹槽,边缘小钩的钩尖弯向基部。虫体表面至少分布着两类可能的感受器末端,一类呈单纤毛状散布于体表,纤毛从体表凹坑中伸出,或在其基部围一环状领襟;另一类呈乳突状,位于外侧头瓣的顶部。在部分河鲈锚首吸虫体表可见车轮虫的超寄生。     

腹毛目纤毛虫大尾柱虫腹皮层纤毛器基部微管的荧光标记

应用荧光紫杉醇直接荧光标记,显示腹毛目纤毛虫大尾柱虫Urostyla grandis腹皮层纤毛器微管胞器由口围带、波动膜、额腹横棘毛和左、右缘棘毛等纤毛器微管、纤毛器基部附属微管等组成.其中,口围带小膜托架及其相联系的肋壁微管和波动膜基体托架,额棘毛基部前纵微管束、后纵微管束及横棘毛基部前纵微管束,中腹棘毛及左、右缘棘毛基部前纵微管束、后纵微管束和横微管束,是该纤毛虫皮层纤毛器基部的主要附属微管.据结果推测,尽管腹毛目纤毛虫的纤毛器基部微管具有相同的结构成分,但其结构的组成、分化特征、定位和定向、发达程度等均有差异.所得结果为进一步说明纤毛虫细胞皮层纤毛器的形态及其微管建构的多样性提供了新的证据资料.     

原生动物贻贝棘尾虫微管胞器的荧光标记与显示

采用FLUTAX直接荧光标记和抗α微管蛋白抗体的间接免疫荧光标记显示,原生动物贻贝棘尾虫(Stylonychia mytilus)细胞微管胞器由口围带、波动膜、额腹横棘毛、左右缘棘毛、背纤毛等纤毛器微管骨架、纤毛器基部附属微管和其他皮层微管骨架组成。纤毛器微管骨架和基部附属微管按皮层纤毛模式定位;皮层左、右侧微管带和领肋壁微管等其他皮层微管构成细胞特定位置的皮层微管骨架,并可能为具有背腹分化的腹毛目纤毛虫所特有,对维持细胞背腹面的形态、支持附近纤毛器(如左、右缘棘毛)的运动起作用。本文较完整地阐述了其细胞骨架的三维构形,对于深入了解纤毛虫细胞微管骨架的结构和分布特征,进一步揭示微管类胞器的功能是有意义的。     

用非离子去垢剂抽提获得的小游仆虫皮层细胞骨架的构形

由扫描电镜术显示,应用非离子去垢剂抽提获得的小游仆虫(Euplotes grocilis)皮层细胞骨架是由非纤毛区皮层骨架、纤毛器骨架及其附属纤维等构成的三维结构网架。各类细胞骨架以纤维物质为基本成分组成纤维网、纤维层、纤维束和纤维薄片等不同形态单元。其中：非纤毛区皮层骨架以表面纤维网和表膜下纤维层为形态单元位于细胞的外周层;纤毛器骨架中的口围带骨架、口侧膜骨架、额腹横棘毛骨架按各自的分布图式在皮层内定位,成为主要的皮层骨架结构。尽管这些纤毛器骨架显示不同的形态,但却具有相同的建构特征,即都是由纤毛器的毛基体、纤毛器托架和骨架附属纤维相互联系镶嵌在一起形成的相对独立的结构单元。分析推测,游仆虫皮层表面纤维网使细胞表面形成区域化结构,它也可能与细胞表面各部分的联系及其细胞与环境的相互作用有关;纤毛器骨架中各个纤毛器的毛基体复合结构可能对纤毛器托架和骨架附属纤维等起到微管组织中心的作用。     

新伪尾柱虫腹皮层纤毛器微管胞器的形态和形态发生

应用荧光紫杉醇直接荧光标记法显示,腹毛目纤毛虫新伪尾柱虫(Pseudourostyla nova)腹皮层纤毛器微管胞器由口围带、波动膜、额腹横棘毛和左右缘棘毛等纤毛器微管及纤毛器基部附属微管组成.口围带基部含小膜托架及与托架相联系的肋壁微管,其中领部小膜托架间由"Λ"形微管相联接;额腹横棘毛基部含前纵微管束、后纵微管束、横微管束和周围微管束,其微管在不同棘毛基部的发达程度不一;缘棘毛基部含前纵微管束、后纵微管束.同时,对新伪尾柱虫纤毛器微管胞器的形态发生和生理改组过程进行了详细的追踪研究,并对细胞皮层的额腹棘毛定位及组成特征进行了补充报道.此外,发现形态发生末期新纤毛器微管形成时,残存部分老额棘毛、横棘毛和缘棘毛,此后老结构逐渐被吸收.结果表明,新伪尾柱虫的纤毛器基部微管具有其种的特异性,新纤毛器微管分化过程中老结构可能具有定位和物质贡献作用.     

草丛土毛虫皮层纤毛器的微管胞器研究

本文应用FLUTAX直接荧光标记和抗α-微管蛋白抗体免疫荧光标记．显示了土壤纤毛虫草丛土毛虫（Territricha stramenticola）的皮层纤毛器微管胞器．其中纤毛器基部微管按口围带、波动膜、额腹横棘毛、左右缘棘毛、背触毛等纤毛器图式分布和定位,口围带和波动膜基部含小膜微管托架、小膜附属微管和波动膜微管骨架网;额腹横棘毛基部含前纵微管束、后纵微管束和横微管束：左、右缘棘毛基部含前纵微管束、后纵微管束、横微管束及后微管芽;背触毛基部含前纵微管束、后纵微管柬。横棘毛基部含有较发达的横微管束,缘棘毛基部含后微管芽及其横微管束的定位可能具有本种纤毛虫细胞的特异性。纤毛器微管胞器在细胞表膜下分化形成的基部微管及其微管层使细胞的运动纤毛器与强固的微管骨架结构网相联系．其微管胞器的建构可能是细胞对土壤生存环境的一种适应．是细胞运动胞器的功能活动与环境相互作用的结果。形态发生中,老口围带微管是逐步进行更新的：老棘毛微管胞器对新结构的发生和形成具有定位和物质贡献的作用．并且老结构在新结构分化和成熟期间也经历了行使相应的生理功能及逐渐退化和失去功能的过程．     

Ultrastructure and cytochemistry of the tegument of Orthocoelium scoliocoelium and Paramphistomum cervi (Trematoda: Digenea)

The tegument of Orthocoelium scoliocoelium and Paramphistomum cervi was examined using histochemical techniques and electron microscopy. On the basis of the distribution of acid and alkaline phosphatase (E.C. 3.1.3.2, E.C. 3.1.3.1), non-specific esterase (E.C. 3.1.1.1), cholinesterase (E.C. 3.1.1.7) and succinate dehydrogenase (E.C. 1.3.99.1) at light microscope level two distinct regions were recognized, an outer and an inner zone. Electron microscopy revealed that the tegument comprises an outer surface syncytium underlain by a thick subsyncytial zone and musculature. Deeper still occur the nucleated "tegumental cells". The latter are in cytoplasmic continuity with the surface syncytium via vacuolated cytoplasmic trabeculae which traverse the muscle layers and the subsyncytial zone. Three types of tegumental cells each lacking mitochondria were observed. The T1 cells synthesize discoid and electron dense T1 bodies while T2 cells produce oval and electron lucent T2 bodies. The third type of tegumental cells apparently produce no secretory bodies and may represent an embryonic cell type. The surface syncytium contains T1 and T2 secretory bodies and is bounded apically by a plasma membrane invested externally by a fuzzy and filamentous glycocalyx. The surface syncytium lacks mitochondria and is traversed by infoldings of the basal plasma membrane. Beneath the surface syncytium the subsyncytial zone is largely comprised of fibrous interstitial material. This zone, which is particularly thick in the amphistomes, is traversed by trabeculae and extensions of underlying parenchymal cells which usually contain mitochondria and lysosomes. The subsyncytial zone overlies numerous circular and longitudinal muscle fibres. The absence of mitochondria and enzymes associated with active transport suggests that the amphistome tegument may be mainly specialized for protection of the worm against mechanical and chemical conditions prevailing in the rumen. Active uptake of nutrients is probably not a primary function.     

Ultrastructural observations on the redial tegument of Paramphistomum epiclitum from the planorbid snail, Indoplanorbis exustus.

The morphology of the tegument in the redia of Paramphistomum epiclitum (Digenea: Paramphistomidae) resembles that shown by most larval and adult digeneans; an outer surface syncytium is in continuity with the cytoplasm of in-sunken, nucleated cytons. Although tegumental cytons usually contain a single nucleus, some display up to six nuclei. The tegumental syncytium lining the pharynx of P. epiclitum rediae lack underlying cytons. The apical membrane of the tegument is elaborated by folds and microvilli, which presumably facilitate uptake of nutrients and/or exchange of ions involved in osmoregulation. A single type of secretory body, resulting from the fusion of smaller vesicles produced at Golgi complexes in the cytons, occurs throughout the tegument. Uniciliate sensory receptors occur in the surface syncytium particularly around the oral opening.     

Fasciola hepatica: Autoradiography of protein synthesis,transport, and secretion by the tegument

Transverse slices of Fasciola hepatica adults were incubated for up to 3 hr in the presence of [³H]leucine. The incorporation of this tracer molecule into macromolecules and its subsequent movement through the tegument was visualized by electron microscope autoradiography. It appeared that protein synthesis in the Type 1 tegumental cells occurred by a GER/Golgi-mediated mechanism similar to that in vertebrate tissues. Mature T1 secretory bodies entered the surface syncytium via the connecting tubules and accumulated in the basal cytoplasm prior to rapid transit to the surface and discharge at the apical plasma membrane. In adult flukes, which are partly protected from immune attack by virtue of their location, glycocalyx replacement and T1 synthesis may be retarded. The Type 1 cells also appear to manufacture proteins which are not membrane bound. These move with the T1 secretory bodies into the surface syncytium and may have structural or enzymic functions within the cytoplasm.     

Fasciola hepatica: stereological analysis of effects of certain metabolic inhibitors on synthesis of secretory bodies by the tegument of tissue slices.

The influence of several well-known inhibitors on the production and distribution of Type 1 secretory bodies in the tegument of Fasciola hepatica slices has been analyzed stereologically.Cycloheximide was found to inhibit the production of these bodies by the Golgi complex of the tegumental cells, but apparently had little effect on intracellular transport and discharge. The metabolic inhibitors, DNP and iodoacetate, seemed to block all three processes.The results provide physiological evidence that the GER-Golgi system in the tegumental cells of this fluke carry out protein or glycoprotein synthesis, that a functional relationship exists between the tegumental cells and the surface syncytium in the transport and discharge of the secretory bodies, and that synthesis, transport, and discharge of the bodies are all energy-dependent processes.     

Fasciola hepatica: tegumental changes induced in vitro by the deacetylated (amine) metabolite of diamphenethide

The effect of the deacetylated (amine) metabolite of diamphenethide (10 mugm/ml) on the tegument of Fasciola hepatica over a 24 hr period in vitro has been determined by means of transmission electron microscopy. In the tegumental syncytium, there is an initial accumulation of T2 secretory bodies at the apical surface (after 6 hr), together with increased exocytosis of secretory bodies and blebbing of the surface membrane. After 9 hr, the two surfaces of the fluke show different tegumental responses to drug treatment with a marked swelling of the basal infolds in the dorsal tegument, while the ventral tegument remains normal. By 18 hr, the swelling in the dorsal tegument is very severe, the entire basal region becoming edematous. In some areas, the tegument becomes detached to expose the basal lamina. The ventral tegument retains a fairly normal morphology, although there is a slight swelling of the basal infolds. The edema spreads internally to the cell bodies, beginning after 9 hr on the dorsal side of the fluke and 18 hr on the ventral side. By 18 hr, the flooding on the dorsal side is very severe and the cells attenuated, retaining few contacts with the surrounding parenchyma. From 9 hr onwards, there are progressive changes in cell structure, including a decrease in amount of granular endoplasmic reticulum and extent of its ribosomal covering, a decrease in numbers of secretory bodies, a swelling of the trans-most Golgi cisternae and disruption of the release of secretory bodies, and a swelling and disorganization of the mitochondria. The results are discussed in relation to the postulated activity of the deacetylated (amine) metabolite of diamphenethide as a Na+ ionophore.     

Ultrastructure of the tegument of Metamicrocotyla macracantha (Alexander, 1954) Koratha, 1955 (Monogenea, Microcotylidae).

The ultrastructure of the body tegument of Metamicrocotyla macracantha (Alexander, 1954) Koratha, 1955, parasite of Mugil liza from Brazil, was studied by transmission electron microscopy. The body tegument is composed of an external syncytial layer, musculature, and an inner layer containing tegumental cells. The syncytium consists of a matrix containing three types of body inclusions and mitochondria. The musculature is constituted of several layers of longitudinal and circular muscle fibers. The tegumental cells present a well-developed nucleus, cytoplasm filled with ribosomes, rough endoplasmatic reticulum and mitochondria, and characteristic organelles of tegumental cells.     

Scanning and transmission electron microscopy of the tegument of Paranaella luquei Kohn, Baptista-Farias & Cohen, 2000 (Microcotylidae, Monogenea), parasite of a Brazilian catfish, Hypostomus regani

The surface topography and ultrastructure of the tegument of Paranaella luquei Kohn, Baptista-Farias & Cohen, 2000, a microcotylid monogenean parasite from the gills of Hypostomus regani (Ihering, 1905) (Loricariidae) was studied by scanning (SEM) and transmission electron microscopy (TEM). By SEM, it was observed that the tegument presents transversal ridges, forming folds in the ventral and dorsal surfaces and microvillous-like tegumental projections in the anterior and median regions of body. These projections were also observed by TEM. The tegument is made up of a syncytium delimited by apical and basal plasma membranes, containing inclusion bodies and mitochondria, connected to the nucleated region by means of cytoplasmatic processes. The tegumental cells present a well developed nucleus and cytoplasm containing inclusion bodies, similar to those found on the external layer, mitochondria, rough endoplasmatic reticulum and free ribossomes.     

Fasciola hepatica: development of tegument during migration in mouse.

T-0 granules of the type 0 tegumental cells of newly excysted juveniles appear in the syncytium of juveniles recovered from the abdominal cavity of mice 12 hr postinfection (p.i.). They undergo exocytosis and/or add their contents to the glycocalyx of the syncytial apical plasma membrane. While in the abdominal cavity the syncytial ground cytoplasm has an increased electron density. After arrival in the liver the type 0 cells metamorphose into type 1 cells of the adult and begin to synthesize T-1 granules. The type 2 cells of the adult arise by differentiation of embryonic cells in the parenchyma, 2–3 days p.i., and subsequently form protoplasmic tubular connections with the syncytium. On arrival in the bile ducts, 4 wk p.i., T-2 granules, formed in the type 2 cells, congregate in the apical cytoplasm of the thickened syncytium and the apical plasma membrane becomes much invaginated. The discussion correlates the development of the tegument with the changes in environment and a mechanism of spine growth is proposed.     

Fasciola hepatica: Glycocalyx replacement in the juvenile as a possible mechanism for protection against host immunity

The response of newly excysted juvenile Fasciola hepatica to immune sheep serum under in vitro conditions was examined using indirect fluorescent antibody labeling and electron microscopy. Flukes acquired a continuous layer of host IgG over the surface during incubation in the presence of antiserum, but when transferred to a medium lacking antiserum they actively sloughed this layer and replaced the former glycocalyx, by a new antigenically similar surface coat. Electron microscope examination of juvenile flukes verified than an immune complex formed at and sloughed from the tegumental surface of those which were incubated in immune serum. T0 secretory bodies produced by the GER/Golgi system of the tegumental cells and stored in the metacercariae were discharged at the apical surface of the tegument, possibly in response to antibody binding. When cycloheximide was included with immune serum in the incubation medium the tegumental cells were unable to synthesize new T0 bodies to replace losses and the number of T0 bodies decreased so that the cytoplasm of the tegumental cells and surface syncytium became virtually devoid of T0 bodies within 48 hr.