Development of the vitellaria of the liver fluke, Fasciola hepatica in the rat host

The development of the vitellaria of Fasciola hepatica within the liver of its rat host was studied by means of whole-mount stained preparations and transmission electron microscopy, together with light and electron immunocytochemistry using an antibody to vitelline protein B, an eggshell precursor protein synthesized by F. hepatica. No vitelline cells could be identified in flukes recovered from the liver parenchyma, by any of the methods used. In contrast, follicles were present in flukes at the earliest time of recovery from the bile duct, namely, 5 weeks 3 days post-infection. The vitellaria in these flukes formed a row of small follicles on either side of the body. Development of the follicles was rapid: by 6 weeks 3 days, the vitellaria resembled those in the adult fluke and eggs were present in the uterus. Immunolabelling was confined to the shell protein globules in the vitelline cells, confirming the packaging of the eggshell protein within the shell globule clusters.

A common epitope is shared by ciliary rootlets and cell-cell adherens junctions in ciliated ependymal cells

Using immunoblot, light and electron immunocytochemistry, we investigated the presence and the localization of polypeptides cross-reacting with the monoclonal antibody CC.310 (mAb CC.310), which is mainly directed against a 175K (K = 10(3) Mr) ciliary rootlet protein. In hypothalamic ependymal cultures, the unique antigen recognized by mAb CC.310 was associated with the Triton X-100-insoluble fraction in these cultures and electrophoretically migrated to these cultures and electrophoretically migrated to 94K. mAb CC.310, which appears to be a very suitable marker for ciliated ependymocytes, allowed us to observe ciliogenesis during the growth of the ependymal cultures, from a single spot in each undifferentiated ependymal cell to a massive labeling in ciliated ependymal cells. In fully differentiated ciliated ependymocytes, mAb CC.310 strongly reacted with fibrous structures corresponding to ciliary rootlets, as confirmed by ultrastructural observations. In addition, a weaker immunostaining was also found along the intercellular junctions, and showed that proteins sharing a common epitope are located in ependymal ciliary rootlets and near adherens-type junctional complexes. Immunofluorescence studies confirmed the presence of positive labeling at the level of junctional complexes between cells in two epithelial lines, HeLa and PtK2, in which mAb CC.310 mainly reacted with one polypeptide of 85K.

Biochemical and immunocytochemical characterization of mineral binding proteoglycans in rat bone.

We examined biochemically and immunocytochemically the type and distribution of mineral binding proteoglycans (PGs) in rat mid-shaft subperiosteal bone using three monoclonal antibodies (MAb 1-B-5, 9-A-2, and 3-B-3) which specifically recognize unsulfated chondroitin, chondroitin 4-sulfate (C4-S) and dermatan sulfate (DS), and chondroitin 6-sulfate. Bone proteins were extracted from fresh specimens with a three-step technique: 4 M guanidine HCl (GdnCl), aqueous EDTA without GdnCl (E-extract), followed by GdnCl. Western blot analysis of SDS-polyacrylamide gel electrophoresis revealed that E-extract after chondroitinase ABC digestion reacted strongly with MAb 9-A-2 but not with MAb 1-B-5 or 3-B-3. After adehyde fixation, ethanolic trimethylammonium EDTA was used as a demineralizing agent for light and electron immunocytochemistry. This provided good retention of water-soluble PGs in the specimens. After chondroitinase ABC pre-treatment of tissue sections, MAb 9-A-2 specifically stained C4-S and/or DS in the walls of osteocyte lacunae and bone canaliculi in the mineralized matrix as well as in the unmineralized matrix such as pre-bone, vascular canals, and pericellular matrix surrounding osteocytes; the remainder of the mineralized matrix lacked staining. These results indicate that mineral binding PGs contain C4-S and/or DS and are exclusively localized in the walls of the bone lacuna and canaliculus.

Immunological detection of spectrin during differentiation and in mature ciliated cells from quail oviduct

A protein that was immunologically related to the erythrocyte and brain alpha-240-subunit and to the brain beta-235-subunit of spectrin was characterized by immunoblotting and was detected by immunofluorescence in the apical part of ciliated cells from quail oviduct. After immunogold-labeling electron immunocytochemistry, spectrin was detected mainly in a fibrillar meshwork located between the proximal parts of the basal bodies. It was also observed to be in contact with the basal foot of basal bodies, but was not found to be associated with the apical plasma membrane. Cilia and microvilli were unlabeled. In contrast, spectrin was detected in close contact with the lateral plasma membrane of mature ciliated cells as well as in stem epithelial cells in unstimulated oviduct. During ciliogenesis induced by estrogen, spectrin gradually appeared at the apex of the cells as the apical cytoskeleton differentiated.