青海高原二种双腔吸虫尾蚴腺体组织化学的比较观察

本文报道应用组织化学反应方法观察了青海高原中华双腔吸虫尾蚴及暂称为“B”型双腔尾蚴(可能是枝双腔尾蚴)二种单细胞腺体的组化成分及其生理功能。大单细胞腺体12—13对,内含丰富的碳水化合物——蛋白质复合物象粘蛋白之类物质,及酸性粘多糖。小单细胞腺3对,含结合氨基的蛋白质及甲性糖蛋白。二种双腔吸虫在贝类宿主体内子胞蚴及尾蚴组化威分很相似但从尾蚴粘液腺的结构可以区分二虫种。中华双腔吸虫粘球内包绕在尾蚴体外的粘液含丰富的粘蛋白。双腔吸虫幼虫期组化成分与阔盘吸虫相应的幼虫期进行了比较。     

长尾蚴吸虫幼虫在菲律宾蛤仔的寄生部位及其组织化学的研究

本文报道长尾蚴吸虫幼虫在菲律宾蛤仔的寄生部位及其组织化学的研究,长尾蚴吸虫幼虫主要寄生于哈仔的生殖腺组织中,仅少部分进入生殖腺附近的消化腺,鳃等。受感染严重的蛤仔,其生殖腺的滤泡等组织被虫体占满并被耗尽,长尾蚴吸虫子胞蚴的胞壁及尾蚴的皮导主要含碱性蛋白质和粘蛋白,子胞蚴的胚球,尾蚴的吸盘,生殖原基,单细胞腺体主要ＤＮＡ阳性物质,排泄囊含丰富的碱性蛋白质;尾蚴体的中部含有呈颗粒团的粘蛋白和抗淀粉酶的     

钉螺体内日本血吸虫尾蚴发育期的形态及其扫描电镜观察

本文通过活体标本、连续切片、全封标本及扫描电镜观察了大陆品系日本血吸虫Schistosomajaponicum子胞蚴体内尾蚴发育期的形态。日本血吸虫尾蚴发育分为五期,即胚细胞期、胚球期、尾蚴雏体期、成熟前期和成熟期。与曼氏血吸虫尾蚴发育进行比较,日本血吸虫尾蚴在胚球期无极化现象;尾蚴雏体期的尾芽形态多非圆球形,尾叉形成较早。钻腺及焰细胞均在此期发生,较曼氏血吸虫尾蚴早。除了上述头器、头腺、钻腺、焰细胞及消化器官进一步发育外,体内散在胚细胞结集为生殖始基,体表感觉乳突分化与体尾肌细胞的发育,尾蚴从成熟前期过渡到成熟期。 电镜首次原位观察尾蚴发育在子胞蚴育腔内的自然状态。尽管偶尔可见到胞蚴体壁与胚元之间某些结构联系,但大部份的胚元各自独立混杂在育腔之中。此外尚注意到尾蚴体棘发生在成熟前期,但其密度较成熟尾蚴小,而其大小却比成熟尾蚴的大。尾蚴头器上感觉乳突和围褶可能先于内部腺体细胞的分化。     

日本血吸虫尾蚴钻穿宿主皮肤的方式

本文报道了日本血吸虫尾蚴钻穿宿主皮肤的全过程和早期童虫在8种动物皮肤中动态分布的结果。阐明了血吸虫尾蚴钻穿宿主皮肤是依靠其体内头腺及/或钻腺分泌物的酶促作用、头器伸缩的探查作用及全身肌肉运动的机械作用而协同完成的。指出了尾蚴入侵皮肤界面和童虫在皮肤内移行常以倾斜角度前进,并非完全呈垂直方向或沿毛囊皮脂腺的通道。观察到童虫钻破皮肤血管壁进入血管腔的情景,这有力地提供了血吸虫童虫从皮肤进入血液循环系统的直接证据。     

小地老虎雄性附腺细微结构和功能及高温的影响

本文通过光镜、电镜和生化分析等方法,研究了小地老虎Agrotis ypsilon(Rottemberg)雄性附腺的细微结构和功能,结果表明：(1)雄性附腺是一对管状腺,基段粉红色,中段桔红色,端段乳白色。形态分化在蛹前期完成,分泌功能在羽化后4天进入旺盛期;(2)附腺细胞属蛋白质合成型,具有旺盛的合成蛋白质的能力,胞内含有致密的粗面内质网和游离核糖体颗粒,大量的分泌液泡均匀地分布在细胞质中;(3)顶浆分泌和局部分泌是腺体的二种主要分泌方式, 前者分泌的颗粒物为糖蛋白性质(Pas阳性),后者吩泌的网状物为非糖蛋白性质(Pas阴性),二者在腺腔内呈有规则的放射状排列“4”雄性附腺分泌物具有种的特异性,小地老虎、棉铃虫和粘虫等夜蛾科昆虫分泌物的蛋白电泳谱带存在明显的种间差异,高温(32℃)抑制了雄性附腺分泌某些蛋白质的能力,从而改变精液的成分。     

日本血吸虫尾蚴发育的超微结构观察：Ⅱ.腺体

在透射电镜下观察不同发育期日本血吸虫尾蚴的腺体。结果：胚球期（Ｓ２）主要出现体细胞分裂与分化,首次证明分泌细胞及其小体在Ｓ２出现,雏体期（Ｓ３）见到前钻腺细胞体与钻腺管束及分泌小体。成熟前期（Ｓ４）钻腺分泌小体基质分Ａ／Ｂ为主两型,分别演变为成熟期（Ｓ）５的后／前钻腺分泌小体。头腺分泌小体亦在Ｓ４出现。从前钻腺体排至头器远端腺管的分泌小体,显眼透明球消失成为致密同质性小体,已为大家共识。而在后钻腺     

日本血吸虫尾蚴的组织化学及扫描电镜观察

日本血吸虫尾蚴具有一个头腺、2对前钻腺及3对后钻腺,其解剖学位置、构造、化学成分及功能均有区别。钻腺分泌物含有多糖酶及蛋白酶。尾蚴的前端系特化的头器结构,它具有半月形嵴、钻腺开口及乳突。     

日本血吸虫尾蚴头腺及钻腺的超微结构

通过电镜观察发现：日本血吸虫尾蚴的头腺为多导管的单细胞腺,由腺体部和若干突起状的短导管构成,其分泌小体呈圆形或卵圆形,平均大小为 ０． ２９ × ０． ２３μｍ,具有同心的环层膜状结构。前钻腺含有 Ａ、Ｂ两型分泌小体。 Ａ型分泌小体近似圆形,平均大小为 ０． ４６× ０． ３２μｍ,基质为电子致密的均 匀结构;Ｂ型分泌小体数量众多,略呈不规则的圆形,平均大小为１．０２×０．８２μｍ,基质为中等电子致 密并含十余个小圆形的电子透亮区。后钻腺含有椭圆形或长条状的分泌小体,平均大小为０．９７×０．６２μｍ,基质呈同质性,或伴有电子密度较深的圆形聚集物,或基质呈泡沫状。每根钻腺导管 的胞质外周具有许多沿导管长轴纵行的微管结构,在导管周围有纤维性网状构造包绕,起着对细长导管的支架作用。在导管束外周又有大量肌纤维包统而形成的鞘状结构,它对管内分泌小体的排出可能具有选择性控制作用。     

膜翅目昆虫杜氏腺形态结构、内分泌物与功能的研究进展

杜氏腺为膜翅目雌性昆虫生殖器官中的一外分泌腺体,外形呈囊腔状,内含丰富的油状分泌物。其内分泌物主要为饱和与不饱和烃类化合物,有着辅助产卵、释放信息素及作幼虫食物等多方面的功能。本文对杜氏腺的形态结构、内分泌物合成途径、化学组分及其生理和生态学功能进行了综述。     

黑缘烟蟋螽丝腺结构

【目的】蟋螽是直翅目中唯一具有吐丝筑巢行为的类群。本研究旨在探讨蟋螽丝腺的结构特点。【方法】应用解剖学观察、免疫荧光、苏木精-伊红染色、PAS苏木精染色、扫描电镜和透射电镜等方法从细胞水平对黑缘烟蟋螽Capnogryllacris nigromarginata丝腺的显微与超微结构进行了观察。【结果】黑缘烟蟋螽丝腺由导管和腺泡构成。腺泡由鞘细胞延伸形成的结缔组织鞘包围。腺泡的主体有4种细胞,分别为Ⅰ型分泌细胞、Ⅱ型分泌细胞、围细胞和腔细胞。Ⅰ型和Ⅱ型分泌细胞为大的腺细胞,形状不规则。分泌细胞细胞核很大,胞质内有大量的内质网和分泌颗粒。Ⅰ型分泌细胞靠近腺泡中心,PAS-苏木精染色表明Ⅰ型分泌细胞内含糖蛋白,Ⅱ型分泌细胞在腺泡外周,位于Ⅰ型分泌细胞与围细胞或结缔组织鞘之间。腔细胞分散在分泌细胞之间,包围形成胞外运输分泌物的通道。围细胞与鞘细胞接触,具有由细胞膜内陷形成的微绒毛腔,胞质内有大量的线粒体。围细胞微绒毛腔与腔细胞包围的细胞外运输通道相连,分泌细胞分泌的颗粒聚集在分泌细胞和胞外运输通道之间的连接处,并将分泌物排出至胞外运输通道。多个腺泡的胞外运输通道汇集到由单层细胞组成的丝腺导管。单层导管细胞靠近管腔外围具有规则排列的质膜内陷和大量伸长的线粒体;靠近管腔的一侧具连续的细胞膜突起,在导管壁的表皮下紧密排列。【结论】黑缘烟蟋螽丝腺分泌细胞分为Ⅰ型分泌细胞和Ⅱ型分泌细胞。分泌物质产生及分泌过程依次经过分泌细胞、腔细胞包围的胞外通道、分支导管、总导管和唾窦。其中在腺泡细胞之间,分泌物向外运输过程中,围细胞微绒毛腔的微丝束可能对分泌物的外排提供推动力。     

A histochemical study of the secretory gland cells of Cercaria shikokuensis and their role during development from cercaria to metacercaria.

The roles of secretory glands during the developmental process from an immature cercaria to a metacercaria in Cercaria shikokuensis were studied. Four types of secretory cells were identified in this species. On maturation of the cercaria in redia, the products of ventral gland cells and mucoid gland cells formed a thick surface coat on the mature cercaria, and the products of cephalic gland cells also formed a thin cover on the surface coat. In the process leading to the formation of a metacercaria, the surface coat constituted the outer layer of the cyst, mucoid gland cells secreted mucous substances inside the wall, and then cystogenous gland cells discharged their products to the inner wall. The cyst wall was composed of four layers, and it was thought that the outermost surface layer helped the cyst wall to adhere to the matrix and the intermediate layers helped to put together outer and inner walls.     

Schistosoma mansoni: ultrastructure of cercarial escape glands

While in the sporocyst, the cercaria of Schistosoma mansoni has a pair of unicellular escape glands whose funduses are located together on one side of the body. The funduses taper into microtubule lined ducts that open on the anterior surface of the oral sucker through desmosome supported pores in the immediate vicinity of the ducts of the acetabular glands. The glands contain membrane-bound secretory granules which have a fine medium-dense, homogeneously granular material in their matrices. A large membrane-bound reservoir of granular material, whose texture is similar to that of the secretory granules, is often seen in the cytoplasm of the funduses. In free-swimming cercariae, the ducts in the oral sucker are the only obvious remains of the escape gland.     

Histology and histochemistry of the parotid and the principal and accessory submandibular glands of the little brown bat

The parotid and the principal and accessory submandibular glands of the little brown bat. Myotis lucifugus (Vespertilionidae), were examined using light microscopy and staining methods for mucosubstances. The parotid gland is a compound tubuloacinar seromucous gland. Parotid gland secretory cells contain both neutral and nonsulfated acidic mucosubstances. The principal and accessory submandibular glands are compound tubuloacinar mucus-secreting glands. They contain somewhat atypical mucus-secreting demilunar cells that often appear to be interspersed between mucous tubule cells. The mucous tubule cells in both the principal and accessory submandibular glands contain sulfonmucins. Demilunar cells of the principal submandibular gland contain moderate amounts of nonsulfated acidic mucosubstances, but the corresponding cells of the accessory submandibular gland contain considerable neutral mucosubstance with very little acid mucosubstance. Intercalated ducts composed of cuboidal or low columnar epithelial cells are present in all three glands. Striated ducts in all glands are composed of columnar cells whose apices bulge into the ductal lumina. Excretory ducts are composed of simple columnar epithelium, with occasional basal cells that suggest a possible pseudostratified nature. The cells of the excretory ducts also have bulging apices. All duct types contain apical cytoplasmic secretory material that is a periodic acid-Schiff positive, neutral mucosubstance. Ductal apical secretory material is more evident in intercalated and striated ducts than in excretory ducts.     

Carbohydrate histochemistry of the opossum submandibular and major sublingual glands.

Submandibular and major sublingual salivary glands of the opossum contain histochemically demonstrable neutral mucosubstances, nonsulfated acid musosubstances and sulfomucins. Sialomucins could not be demonstrated conclusively with the methods used in this study. Special serous cells of the opossum submandibular gland contained low concentrations of acidic mucosubstances but no appreciable concentration of neutral mucosubstances was seen. Sulfomucins were not observed in special serous cells. The mucous tubules of the submandibular gland contained high concentrations of neutral mucosubstances. No appreciable acidic mucosubstance was demonstrated in the submandibular gland mucous tubules. Unlike the mucous tubules of the submandibular gland, the major sublingual gland mucous tubules contained high concentrations of both neutral and acidic mucosubstances. The mucous tubules often contained sulfomucin-positive cells interspersed among cells that contained high concentrations of non-sulfated acidic mucosubstance. Marked staining of sulfated acidic mucosubstance was seen only in the major sublingual gland, in both the mucous tubules and in the seromucous demilunes. The seromucous demilunes contained both sulfated and non-sulfated acidic mucosubstances.     

Ultrastructure of the daughter sporocyst and developing cercaria of Schistosoma japonicum in experimentally infected snails, Oncomelania hupensis hupensis

Ultrastructure of daughter sporocysts and cercariae of Schistosoma japonicum were studied 2 and 4 months after infection of Oncomelania hupensis hupensis. The body walls of daughter sporocysts are similar at all infectious stages. They consist of an external syncytial tegument on a basement membrane, and an internal cellular subtegument surrounding a body cavity containing developing cercariae. The cercariae embryos develop 2 months after infection from germinal balls in the brood chamber of the daughter sporocyst. They are at first enveloped by a primitive epithelium rising from the daughter sporocyst. Four months after infection, the cercariae were almost fully developed and the primitive epithelium had degenerated. The body wall of the cercaria consists of a thin tegument covered by a surface coat of fibrous material and connected to the subtegumental cells by cytoplasmic processes. The matrix of the tegument contains numerous dense bodies, vacuoles, and spines. Two types of sensory structures - uniciliated and multiciliated - are found at the anterior tip of the cercaria. There are five pairs of penetration gland cells of two distinct types differentiated by the morphology of secretory granules. Flame cells are found in both daughter sporocysts and in cercariae. The cilia of the flame cells are characterized by the typical 9 and 2 cilium pattern.     

Composition, secretion, and fate of the glands in the miracidium and sporocyst of Fasciola hepatica L

The anterior end of the miracidium of Fasciola hepatica contains a large flask-shaped apical gland and four unicellular lateral glands, all of which have ducts which pass to the tip of the apical papilla. These glands appear to be involved in penetration of the larva into the snail host. The apical gland secretes as the miracidium proves the epidermis of the host before attachment. It seems likely that its secretion is a chemical which lyses the epidermal cells. The lateral glands are PAS-positive and may contain a neutral mucopolysaccharide. They also secrete as the miracidium probes the snail and a layer of PAS-positive material may be seen at the leading edge of the apical papilla as the larva penetrates into the host. Both the apical gland and the lateral glands may be visible in the sporocyst for several days after penetration.