Endocytosis in the rat retinal pigment epithelium

Endocytosis in the retinal pigment epithelium (RPE) of rats was studied using horseradish peroxidase, microperoxidase and ferritin tracers. Tracer uptake was mediated by coated pits and coated vesicles. Coated pits formed at two discrete regions at the RPE plasma membrane: that portion of basal membrane directly opposing Bruch's membrane, and at the bases of the apical lamellae and villi. Two populations of coated vesicles were identified and distinguished by size, location and function. Large coated vesicles (91.8 +/- 14.7 nm in diameter) were located near the cell surface and incorporated tracer. Small coated vesicles (64.5 +/- 15.7 nm diameter) located more deeply within the cell were not tracer-labeled, and were often fused with the endoplasmic reticulum or the Golgi apparatus. Observations of the endocytic pathway in rat RPE cells are presented. Tracer was also found in organelles of the lysosomal system, e.g. the multivesicular body, but was not identified in the smooth endoplasmic reticulum or Golgi apparatus.     

Nuclear inclusions in the epithelium of the hens oviduct

Summary The nuclear inclusion is described in the epithelial cell lining in the oviduct of the laying hen. The majority of them show a layered structure in respect of variation of electron density. Some are situated in the centre of the nucleus, others in the nuclear membrane and similar bodies were observed in the cytoplasm of other cells. The nature of these inclusions is discussed including the possibility that they represent a form of nuclear secretion.     

Scanning electron microscopy of mouse ciliated oviduct and tracheal epithelium infected in vitro with Bordetella pertussis

Infection of mouse tracheal organ culture with Bordetella pertussis resulted in ciliostasis within 36 h. Scanning electron microscopy revealed that B. pertussis attached exclusively to ciliated cells but did not induce expulsion of this cell type at a test interval of 48 h. Mouse oviduct organ culture infected with B. pertussis demonstrated the same strict tropism for ciliated cells as in the tracheal ring system. Only ciliated cells were parasitized, becoming heavily colonized 48 h postinfection. Infected ciliated oviduct cells were not extruded. A fixation method which enhances fine structure was used in the scanning electron microscope studies. Bacterial fimbriae were not observed as the method of attachment of B. pertussis to cilia but fine fibers were seen extending between cilia and bacterial cells.     

Endocytosis in spermatids during spermiogenesis of the mouse

In the course of spermiogenesis in the mouse, spermatid cytoplasm contains numerous membrane pits, vesicles and membranous tubules which are frequently anastomosed. Pale and dense multivesicular bodies (MVB) and secondary lysosome-like structures are also present in the cytoplasm. In order to study the pathway of non-specific adsorptive endocytosis in spermatids, cationic ferritin (CF) was directly microinjected into the lumen of seminiferous tubules, and added to germinal cell culture. Tissue and cultures were fixed at various time intervals after injection. Two-5 hr after microinjection of tracer, CF was found simultaneously in vesicles, tubules, MVB and in lysosome-like bodies present in spermatids at all steps of spermiogenesis. Various membranous components of the Golgi medulla, and the innermost transsaccule of the Golgi cortex were labelled simultaneously. In primary cultures of spermatids, the vesicles contained the marker 5 min after its deposition; 10 min after deposition, CF was evident in tubules; at 30 min, CF was present in pale MVB; at 1 hr, the dense MVB and lysosome-like bodies were labelled. Finally, at 2 hr 30 min, vesicles and tubules of the Golgi medulla contained CF grains. Apparently spermatids are very active cells in the process of adsorptive endocytosis throughout spermiogenesis. Endocytosis in spermatids is probably one of the mechanisms involved in the uptake of material used to build up spermatozoa components. The strong labelling of the Golgi region probably point to its role in recycling endocytosed membranes.     

Pattern formation in the epithelium of the oviduct of Japanese quail

Cellular patterns of the oviduct epithelium from the Japanese quail were examined during maturation. The epithelium of a juvenile bird showed a jigsaw puzzle pattern consisting of a single, undifferentiated cell type. At the start of maturation, cells were rearranged into a pattern in which the length of boundaries between goblet type gland (G-) cells and ciliated (C-) cells (G-C boundaries) were maximized. At this stage, the surface area of G-cells was much smaller, but G-cells are more than 2 times more numerous than C-cells. Cells than gradually rearranged themselves into the checkerboard pattern through an increase in the proportion of C-cells and enlargement of the G-cells. At all times of maturation, the length of G-C boundaries was maximized. These observations strongly support the theory that the cellular pattern of the quail oviduct epithelium is spontaneously constructed by maximizing the length of boundaries between two different types of cells owing to the fact that theirs is the greatest adhesion capacity (Yamanaka and Honda, 1990).     

Hyperactivated sperm progress in the mouse oviduct.

Sperm from naturally mated mice were observed and videotaped moving within mouse oviducts. The typical pattern of sperm progress involved intermittently breaking free and swimming a short distance, then reattaching to the epithelium. The proportion of sperm that swam freely (were not attached to the epithelium) was calculated and analyzed for effects of oviductal region, ovulation status, and sperm location relative to the lumen. A significantly higher proportion of sperm were free in the ampulla than in the isthmus (26.3% +/- 0.8% vs. 11.8% +/- 1.0%; p less than 0.0001) and in post-ovulatory than pre-ovulatory (16.2% +/- 2.0% vs. 10.6% +/- 1.6%; p less than 0.05) oviducts. Flagellar curvature ratio values showed that free sperm (0.716 +/- 0.024) had more sharply curved tails than stuck sperm (0.782 +/- 0.013). While this difference is significant (p = 0.01), the effect of attachment status interacted significantly (p less than 0.05) with the oviductal region such that there was a greater difference in the isthmus than in the ampulla. Only sperm using the more curved tail beats of hyperactivation were seen to break free from the epithelium and to progress along the oviduct. These results indicate that hyperactivation plays a role in moving sperm out of the isthmic reservoir and to the site of fertilization.     

Endocytosis and epithelial biogenesis in the mouse early embryo

The polarized organization of epithelial cells is expressed in many ways including the morphology of the cell surface or cytocortex, the molecular composition of membrane domains and the distribution of cytoplasmic organelles. The differentiation of mouse trophectoderm is described with particular attention given to the maturation of the endocytic system in an attempt to define how the complex assembly of an epithelium may be generated.