Journal of Histochemistry & Cytochemistry

Le Guellec, D; Frappart, L; Desprez, P Y

doi: 10.1177/39.1.1983869pmid: 1983869

The EGF receptor (EGF-R), a 170 KD transmembrane glycoprotein, is found at a high level in the BT20 human mammary carcinoma cell line (1 +/- 0.4 x 10(6) sites per cell). In this study, we examined the expression of the EGF-R gene in BT20 cell line by in situ hybridization at the light and electron microscopic level using a human cDNA, corresponding to EGF-R transmembrane and protein kinase domains, labeled with [3H]-, [35S]-, or [32P]-d-ATP. Two treatments were tested to embed cells in Lowicryl resin: the first used fixation and dehydration by progressive lowering of temperature, the second quick freezing and cryosubstitution. The best ultrastructural preservation was obtained with the second procedure without modification of the hybridization signal. EGF-R mRNA was observed principally at the cytoplasmic level, on organelles involved in the protein synthesis process. Labeling was also located on the microvilli which extend into the intercellular space, suggesting that some mRNA would be located in sites where EGF-R is utilized. Some mRNA was observed in the nucleus. This study demonstrates that post-embedding in situ hybridization, after quick freezing and cryosubstitution, is a powerful EM in situ hybridization procedure to study the expression of the EGF-R gene.

Shimizu, T; Nettesheim, P; Mahler, J F; Randell, S H

doi: 10.1177/39.1.1701188pmid: 1701188

We compared lectin staining patterns to cell population densities, as determined by morphological criteria in rat airways. Eight lectins were studied: Griffonia simplicifolia I isolectin B4 (GSI-B4), Arachis hypogaea (PNA), Wisteria floribunda (WFA), Glycine maximus (SBA), Dolichos biflorus (DBA), Helix pomatia (HPA), Ulex europaeus (UEA-1), and Maclura pomifera (MPA). Two of the lectins strongly stained morphologically distinct cell subpopulations. GSI-B4 stained basal cells, and MPA stained non-ciliated bronchiolar (Clara) cells. The specificity and sensitivity of GSI-B4 as a marker for basal cells was examined. In the trachea, 35% of all cells were GSI-B4 positive; 84% of these were basal cells, 7% were unidentified cells, 5% were serous/mucous cells, and 4% were ciliated, brush, or inflammatory cells. Comparison to cell population density data strongly suggested that all basal cells were GSI-B4 positive. The segmental bronchus was a transitional area; GSI-B4 positive basal cells were present in the region closest to the lobar bronchus but were absent in the distal region; instead, MPA-positive Clara cells appeared. When dissociated tracheal cells were obtained by pronase digestion, 43% were GSI-B4 positive. These results show that GSI-B4 is a sensitive and relatively specific marker for basal cells in the rat trachea which can be used to study dissociated epithelial cells.

Benning, V M; Maratrat, M B; Fournier, E C; Melcion, C P; Cordier, A C

doi: 10.1177/39.1.1701186pmid: 1701186

Erythroblast proliferation and maturation in bone marrow are the processes leading to the formation of polychromatic erythrocytes (PE) and normochromatic erythrocytes (NE), respectively. PE contain RNA but no DNA, and can therefore be distinguished both from NE (which lack both RNA and DNA) and from nucleated cells (which contain both DNA and RNA). Cytotoxic agents that induce impairment of the maturation process change the PE:NE ratio. We have developed a simple and rapid method of determining the PE:NE ratio, based on flow cytometric analysis of formaldehyde-fixed, acridine orange (AO)-stained cells. The effects of cyclophosphamide (CP), mitomycin C (MMC), and vincristine (VC) were tested and the PE:NE ratio was evaluated over 7 days of treatment. In this study we monitored the kinetics of these compounds and were able to demonstrate both a time- and a dose-dependent effect. We detected a difference between the effects of the alkylating agents tested and those induced by the spindle inhibitor tested. Flow cytometry of fixed bone marrow samples stained with AO provides more information, better and more rapid statistical analysis, than conventional microscopic methods for counting the PE:NE ratio.

Coltrera, M D; Gown, A M

doi: 10.1177/39.1.1670579pmid: 1670579

Monoclonal antibodies (MAb) to a 36 KD protein, proliferating cell nuclear antigen (PCNA/cyclin), have been previously shown to be capable of identifying proliferating cells in vitro as well as in alcohol-fixed, paraffin-embedded tissue specimens. The routine use of these anti-PCNA/cyclin MAb in investigative studies and in diagnostic pathology requires a clearer understanding of the distribution of PCNA/cyclin in the different cell populations found in tissue specimens. We therefore compared the ability of MAb to three nucleus-associated proliferation markers (MAb 19A2 to PCNA/cyclin; Ki-67 to an undefined proliferation-related marker; BU-1 to 5'-bromodeoxyuridine (BrdU) incorporated into DNA) to identify the proliferating cell fraction of various cells in vitro. The cell lines were chosen to represent a spectrum of proliferation rates (high to low) and cell lineage (mesenchymal vs epithelial, non-transformed vs malignant): (a) HeLa and A-431 (two malignant carcinoma cell lines with high proliferation rates); (b) SK-5 (a non-transformed fibroblast cell line with a low proliferation rate); (c) HUVE (a non-transformed human umbilical vein endothelial cell line with a low proliferation rate). Single and double labeling immunofluorescence studies were performed after uniform 1-hr incubations with BrdU. Comparison of the overlapping distributions of detectable PCNA/cyclin expression and BrdU incorporation demonstrated substantial qualitative and quantitative differences between the different cell lines. In two of the four cell lines (HeLa, A-431) the BrdU staining distributions formed inclusive subsets of the PCNA-positive cell populations. In the HUVE cell line the two populations overlapped incompletely. In one cell line, SK-5, the two populations were mutually exclusive. MAb Ki-67 demonstrated a pattern in the SK-5 cell line that was strongly predictive of PCNA positivity, while showing no associated patterns in the other three cell lines. We conclude that PCNA/cyclin expression detected by MAb may define different cell subpopulations in different cell types relative to those incorporating BrdU or expressing the target antigen for Ki-67. This has implications for the clinical study of mixed cell populations using these antibodies.

Champelovier, P; Seigneurin, D; Christophe, P; Kolodie, L

doi: 10.1177/39.1.1701187pmid: 1701187

The objective of the present study was to develop a cytophotometric technique to quantitate immunocytochemical reactions. Cell antigens were detected after immunophosphatase alkaline staining procedure. The amount of reaction product was quantitated by computerized scanning cytophotometry. The technical conditions (dilution of primary antibody; incubation time of the three antibodies; volume and pH of the enzyme substrate reaction; storage of the slides) required for optimal cytophotometric determination of the reaction product were determined. Under these optimally defined conditions, a linear relationship between cell protein content (lysozyme) and microdensitometric measure of the colored reaction product was found. This method could be used for other cells, antigens, and enzymatic indicators.

Kramarcy, N R; Sealock, R

doi: 10.1177/39.1.1983872pmid: 1983872

Using a simple fluorescence test, we show that commercially prepared colloidal gold complexes with goat second antibodies often contain free active antibody. Because such antibodies will compete with antibody-colloidal gold particles for antigen binding sites, labeling intensity at the ultrastructural level must necessarily be submaximal to an unknown degree with such preparations. A survey of five preparations suggests that the problem may be widespread. We recommend that a test of the sort described be incorporated routinely into protocols with all colloidal gold products.

Takagi, M; Maeno, M; Kagami, A; Takahashi, Y; Otsuka, K

doi: 10.1177/39.1.1898498pmid: 1898498

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.

Fleischmajer, R; Perlish, J S; Faraggiana, T

doi: 10.1177/39.1.1983873pmid: 1983873

Collagen monomers, oligomers, and fibrillar structures were isolated from chick tendons at various stages of development and studied by rotary shadowing. Monomers of Type I collagen, solubilized in 0.15 M NaCl solutions, were mostly present as collagen, pN-collagen, and pC-collagen with few procollagen molecules. They did not form polymers, nor were they associated with a carrier. Dimers of fibrillar collagen molecules were arranged in a 4-D stagger, suggesting that this was the preferred molecular interaction for the initiation of collagen fibrillogenesis. Type XII collagen molecules were mostly free, but some were attached by their central globular domain to one end of free fibrillar collagen molecules. Tenascin and Type VI collagen were also identified. The fibril populations consisted of collagen and beaded structures. These fibrils consisted of beads (globular domains) about 23 nm in diameter, separated by a period about 27 nm in length. Beads were linked by filamentous structures. These beaded fibrils probably represent the microfibrils of elastin.

Keene, D R; Sakai, L Y; Burgeson, R E

doi: 10.1177/39.1.1983874pmid: 1983874

We evaluated the distribution of Type III collagen, Type VI collagen, and fibrillin in human bone, using monoclonal antibodies (MAb) of proven specificity. All three molecules are present in developing and remodeling bone. Type III collagen is present in discrete fiber bundles throughout the bone cortex but is concentrated at the Haversian canal surface and in the fibers at the bone-periosteal interface. The collagen fibrils in these bundles are of uniform diameter. Type III-containing collagen fibers are detected at all ages examined, from 30 fetal weeks to 80 years. Type VI collagen is present in fetal bone in discrete fibrils separate from Type III collagen, and becomes restricted to the margins of bone cells and the bone surface by 7 years. The distribution of fibrillin resembles that of Type III collagen in the fetus, but at 7 years is absent from the interior of the cortex except for the canaliculi and cement lines, and remains concentrated in discrete fibers at the bone surface.

Ueno, K; Lim, D J

doi: 10.1177/39.1.1983875pmid: 1983875

The present study was conducted to characterize and localize the glycoconjugates in the tubotympanum (auditory or eustachian tube and middle ear cavity) of chinchilla on an ultrastructural level, using lectin-gold complexes with six different lectins: BPA, ConA, RCA-1, WGA, LFA, and SNA. A comparison of the affinity of these lectins demonstrated the heterogeneity of secretory cells. The glandular serous cells and epithelial dark granulated cells produced "serum"-type glycoprotein. The glandular mucous cells and goblet cells produced dominantly "mucin"-type glycoprotein in the light granules, but "serum"-type glycoprotein in the dark cores. The labeling of LFA and SNA showed that sialic acids existed mainly in the mucinous granules of secretory cells and ciliated epithelium glycocalyx, and in the mucous blanket. The results also suggested that the dominant linkage of sialic acids of mucin is a Neu5Ac(alpha 2-6)Gal/GalNAc sequence. Furthermore, the data obtained from ConA and BPA suggested that initial O-glycosylation of mucin took place in the cis side of the Golgi apparatus and that initial N-glycosylation of the serum occurred in the rough endoplasmic reticulum.