Na,K-ATPase expression in the developing brine shrimp Artemia. Immunochemical localization of the alpha- and beta-subunits.Sun, D Y; Guo, J Z; Hartmann, H A; Uno, H; Hokin, L E
doi: 10.1177/39.11.1655875pmid: 1655875
Developing brine shrimp are a good experimental model for study of gene expression during development. Development is initiated on suspension of brine shrimp cysts in seawater. Only 48 hr are required for progression from cyst to the larval stage. We have localize the alpha- and beta-subunits in different cells by immunostaining as development progresses. Both alpha- and beta-subunits are first detected in epidermal cells in the trunk region at the emergence 2 stage (16-hr incubation). At the nauplius 1 stage (24 hr) the enzyme appears in the brain and epidermal regions, as well as in mesenchymal cells, with weaker staining in the salt gland. After further development (nauplius 2 stage, 36 hr) stronger staining appears in the salt gland and in the epidermal region. At the nauplius 3 stage (48 hr) the enzyme appears in the midgut mucosa. Co-localization of the alpha- and beta-subunits appears in all positive cells during development. In the epidermal and salt gland cells the enzyme is mainly localized on the basolateral membrane. The basolateral localization of the Na,K-ATPase in epidermal and salt gland cells suggests that Na+ is actively transported into the epidermal and salt gland cells and passively diffuses out from the apical region.
Neuronal protein NP185 in avian and murine cerebellum: expression during development and evidence for its presence in nerve endings.Perry, D G; Hanson, V; Benuck, M L; Puszkin, S
doi: 10.1177/39.11.1918924pmid: 1918924
The neuronal protein NP185 is a neural tissue-specific protein isolated from clathrin-coated vesicles in brain. Using 8G8, a monoclonal antibody (MAb) characterized in our laboratory, we studied the expression and distribution of neuronal protein NP185 in developing avian cerebellum and in mature murine cerebellum. Furthermore, we compared these parameters to that of synapse-specific neuronal protein, synaptophysin, and an axon-specific (i.e., non-synaptic) neuronal protein, neurofilament NF68. We found that NP185 expression temporally and spatially corresponds to avian cerebellar synaptogenesis. In addition, NP185 distribution parallels synaptophysin distribution throughout development, while differing from that of either unassembled or filamentous forms of NF68. The evidence also suggests that embryonic NP185 expression coincides with synaptogenesis, and that NP185 remains concentrated in the terminal boutons of mature neurons. The synapse specificity of NP185 and the recent biochemical properties reported for this protein support the postulate that this molecule may trigger synaptic events and distinguish structurally and functionally active synapses.
Histochemical organization and cellular composition of ductal buds in developing human breast: evidence of cytochemical intermediates between epithelial and myoepithelial cells.Rudland, P S
doi: 10.1177/39.11.1918925pmid: 1918925
In developing human breast, terminal end buds (TEBs), lateral buds (LBs), and lobules of three to five alveolar buds (ABs) predominate in prepubertal females, whereas lobules of ABs and lobules of up to 60 ductules predominate in pubertal females. The appearance of clefts in TEBs and LBs suggests that they are precursors of ABs. In histological sections the ductal buds are composed of a heterogeneous collection of cells that include cortical and peripheral cells. The cortical cells can line small lumina in TEBs/LBs, whereas the peripheral cells which cap their distal tips are more irregular and loosely packed. Monoclonal antibodies (MAb) to epithelial milk-fat globule membranes and antiserum to epithelial membrane antigen immunocytochemically stain the cortical cells, particularly where such cells line lumina, and weakly stain the peripheral cap cells. Similar histochemical staining patterns are observed in desialylated sections with peanut lectin. Antiserum and MAb to smooth muscle actin moderately stain the peripheral cap cells, and this staining increases the closer the peripheral cells become to the myoepithelial cells of the subtending duct. Similar but weaker staining patterns are observed with antibodies to vimentin. Keratin MAb PKK2 and LP34, which stain myoepithelial cells in preference to epithelial cells in main ducts, as well as MAb to epithelium-specific keratin 18, all stain many of the cortical/luminal cells in buds and lobules of developing breast; the peripheral cap cells are relatively unstained. It is suggested that the undifferentiated peripheral cap cells show transitional forms both to the cortical epithelial cells that eventually line the lumina and to the myoepithelial cells of the subtending duct.
Immunocytochemical localization of fodrin and ankyrin in bovine chromaffin cells in vitro.Fujimoto, T; Lee, K; Miwa, S; Ogawa, K
doi: 10.1177/39.11.1833445pmid: 1833445
We raised antibodies to brain fodrin and erythrocyte ankyrin and examined the distribution of the antigens in cultured bovine chromaffin cells by immunocytochemical techniques. Immunofluorescence microscopy of whole cells showed intense labeling for both proteins, but fine localization could not be determined. In contrast, in cell specimens mechanically unroofed before fixation, the distribution of the two proteins revealed an apparent difference in the ventral plasma membrane: immunofluorescence for fodrin was dense and mostly even, whereas that for ankyrin appeared as scattered dots. Immunogold electron microscopy of the unroofed cells showed that labeling for fodrin was localized in a network of thin filaments, the diameter of which was 2-3 nm at the thinnest portion. Ankyrin labeling was mostly associated with filaments 5-10 nm in diameter. Notably, labeling for both fodrin and ankyrin was found over the coated membrane. The present results indicate that fodrin and ankyrin in the chromaffin cell do not constitute a submembranous network as spectrin and ankyrin do in the erythrocyte; whereas fodrin is closely associated with the plasma membrane, ankyrin is mostly linked to the cytoskeleton. The existence of both proteins in the coated region implies that they are functionally related to exocytosis and/or to ensuing membrane retrieval in the chromaffin cell.
Three-dimensional electron microscopy of ribosomal chromatin in two higher plants: a cytochemical, immunocytochemical, and in situ hybridization approach.Motte, P M; Loppes, R; Menager, M; Deltour, R
doi: 10.1177/39.11.1918926pmid: 1918926
We report the 3-D arrangement of DNA within the nucleolar subcomponents from two evolutionary distant higher plants, Zea mays and Sinapis alba. These species are particularly convenient to study the spatial organization of plant intranucleolar DNA, since their nucleoli have been previously reconstructed in 3-D from serial ultra-thin sections. We used the osmium ammine-B complex (a specific DNA stain) on thick sections of Lowicryl-embedded root fragments. Immunocytochemical techniques using anti-DNA antibodies and rDNA/rDNA in situ hybridization were also applied on ultra-thin sections. We showed on tilted images that the OA-B stains DNA throughout the whole thickness of the section. In addition, very low quantities of cytoplasmic DNA were stained by this complex, which is now the best DNA stain used in electron microscopy. Within the nucleoli the DNA was localized in the fibrillar centers, where large clumps of dense chromatin were also visible. In the two plant species intranucleolar chromatin forms a complex network with strands partially linked to chromosomal nucleolar-organizing regions identified by in situ hybridization. This study describes for the first time the spatial arrangement of the intranucleolar chromatin in nucleoli of higher plants using high-resolution techniques.
Subcellular localization of secretogranin II and synaptophysin by immunoelectron microscopy in differentiated hypothalamic neurons in culture.Kagotani, Y; Picart, R; Barret, A; Wiedenmann, B; Huttner, W B; Tixier-Vidal, A
doi: 10.1177/39.11.1918927pmid: 1918927
Secretogranin II (SgII), a tyrosine-sulfated secretory protein, is a widespread component of endocrine and neuronal cells. In the present study we used mouse hypothalamic neurons differentiated in culture and studied the subcellular localization of SgII by two methods, i.e., by the use of immunoperoxidase or immunogold electron microscopy. By immunoperoxidase labeling, SgII was mainly detected in the matrix of large dense-core vesicles (LDCVs). In addition, usually in nerve terminals containing LDCVs, peroxidase reaction product was also found in association with the membrane of small synaptic vesicles (SSVs). By immunogold labeling, SgII was detected only in the matrix of LDCVs. We also compared the localization of SgII and synaptophysin (SY), an integral membrane protein of SSVs, by double labeling, using a combination of pre-embedding immunogold and -peroxidase techniques for SgII and SY, respectively. In perikarya, SgII-positive LDCVs were observed in the vicinity of the Golgi complex and scattered in the cytoplasm. In contrast, SY labeling was restricted to electron-translucent vesicles and tubular membranes in the Golgi area. Moreover, membrane structures positive for both SgII and SY were not found either in the Golgi zone or in other regions of the cytoplasm. In synaptic boutons, immunolabeling of LDCVs and SSVs with anti-SgII and anti-SY, respectively, was mutually exclusive. In summary, within the limitation of the methods used, our data are consistent with the notion that SgII and SY are segregated from each other on exit from the trans-Golgi network, than follow two distinct membrane traffic pathways, and that the presence of SgII on the membrane of some SSVs is due to endocytosis.
Angiotensin I converting enzyme in gastric mucosa of the rabbit: localization by autoradiography, immunofluorescence, and immunoelectron microscopy.Laliberté, F; Laliberté, M F; Nonotte, I; Bali, J P; Chevillard, C
doi: 10.1177/39.11.1655876pmid: 1655876
To localize angiotensin converting enzyme (ACE) in the fundic mucosa of the rabbit, we used autoradiography with the ACE inhibitor [3H]-trandolaprilate and post-embedding immunocytochemical techniques with a goat anti-rabbit ACE, using fluorescence and electron microscopy. Autoradiographic localization of [3H]-trandolaprilate in rabbit fundus sections shows that ACE is present in the fundic mucosa and mainly in the gland area. Fundic mucosa was fixed with 4% formaldehyde and embedded in Lowicryl K4M. Semi-thin (1 micron) or thin sections (800-900 A) were stained with anti-rabbit ACE followed by fluorescein isothyocyanate-labeled rabbit anti-goat IgG or protein A-gold reagent, respectively. Label was present on endothelium of all blood vessels running through the mucosa. Label was prominently localized in the granules of mucous surface and neck cells and on the granules of chief cells. The intracellular localization of ACE, and particularly its intragranular presence within chief and mucous cells, suggests that the enzyme, at the fundic level, is involved in the intragranular processing of a peptide, the nature of which remains to be determined.
Immunocytochemical evidence for a possible role of cross-linked keratinocyte envelopes in stratum corneum cohesion.Haftek, M; Serre, G; Mils, V; Thivolet, J
doi: 10.1177/39.11.1717544pmid: 1717544
Cross-linked cornified envelopes are cell structures specifically synthesized by terminally differentiating keratinocytes. They are composed of proteins deposited at the cell periphery under the plasma membrane, and can be purified from epidermis by physicochemical extractions. The resulting keratinocyte "shells" are highly insoluble structures devoid of cytoplasmic components. The rigidity of the stratum corneum cell envelope seems to be one of the essential factors contributing to the physical resistance of this most superficial epidermal layer. We studied the purified cell envelopes from human plantar horny layer to determine their antigenic composition and protein distribution. The extraction protocol consisted of four 10-min cycles of boiling in 10 mM Tris-HCl buffer containing 2% SDS and 1% beta-mercaptoethanol. The absence of any extractable proteins persisting in the purified pellets was checked with SDS-PAGE of the sample electroeluates. Indirect immunofluorescence as well as pre- and post-embedding immunogold labeling for electron microscopy revealed the persistence of several keratinocyte antigenic determinants on the purified substrates. The antibodies directed against involucrin, keratin 10, desmoplakin I + II, desmoglein (intracellular epitope), intercellular corneodesmosome proteins, and filaggrin (a considerably weaker reactivity) labeled the cell envelopes according to the ultrastructural localization pattern characteristic for a given antigen. We conclude that the cytoskeletal and desmosomal components become "embedded" in the highly cross-linked cornified envelope structures during the process of keratinocyte terminal differentiation. This underlines the central role of cornified envelopes in the physical resistance of superficial epidermal layers and indicates a possible importance of junctional proteins in this function.
Extracellular matrix components of the mouse thymus microenvironment: ontogenetic studies and modulation by glucocorticoid hormones.Lannes-Vieira, J; Dardenne, M; Savino, W
doi: 10.1177/39.11.1918928pmid: 1918928
The present investigation was an ontogenetic study on the distribution of extracellular matrix (ECM) components in the thymic microenvironment of C57BL/6 mice (comprising young and old adults and developing embryos) and NZB mice. In addition, we evaluated the in vivo and in vitro influence of hydrocortisone treatment on basement membrane protein production by a thymic epithelial cell line. In young normal animals, Type I collagen was restricted to the interstitial spaces of the capsule and septa, where Type IV collagen, fibronectin, and laminin could be detected in the basement membranes. In addition, fibronectin-containing fibers were seen within the medulla of the thymic lobules. The ECM distribution pattern in the developing embryos was distinct from that observed in adults, since a fine meshwork of basement membrane-containing proteins was clearly seen throughout the parenchyma. Moreover, aging normal and NZB mice exhibited a denser ECM pattern than young adult normal animals. Treatment with hydrocortisone, both in vivo and in vitro, resulted in enhancement of ECM expression, detected in mice as early as 2 hr post injection and lasting for several days. Considering that the fluctuations of ECM expression parallel important events in thymocyte differentiation, we discuss the possibility that the two phenomena may be associated.
Antiserum to lucifer yellow: preparation, characterization, and use for immunocytochemical localization of dye-filled retinal neurons.Brandon, C; Criswell, M H
doi: 10.1177/39.11.1918929pmid: 1918929
We present a new method for the preparation of antisera to Lucifer Yellow, and these antisera are here shown to be particularly suitable for immunocytochemical localization of multiple dye-injected cells in large pieces of vertebrate retina. The method involves the preparation of covalent conjugates of the VS isomer of Lucifer Yellow with keyhole limpet hemocyanin (KLH) or rabbit serum albumin (RSA), and their use as immunogens in rabbits. Both carrier protein conjugates yielded robust antibody responses. Antiserum to the KLH-LY conjugate contained precipitating antibodies against LY and KLH, although activity to the latter did not interfere with immunocytochemical staining. Rabbit antiserum to the RSA-LY conjugate contained precipitating antibody only against LY. When used for immunocytochemical staining of large retinal pieces containing many LY-filled cells, both antisera yielded well-stained, darkly filled cells similar to those seen with the Golgi technique; even very fine dendritic processes of retinal ganglion cells could be followed for long distances. LY immunocytochemistry provides a useful alternative to photooxidation for the analysis of multiple dye injected cells, especially in whole mounts. This approach may also be useful for immunocytochemical identification of cells filled with LY after tissue fixation.