Journal of Histochemistry & Cytochemistry

Thurlow, P J; Kerrigan, L; Harris, R A; McKenzie, I F

doi: 10.1177/33.12.2415573pmid: 2415573

In order to study the antigenic phenotype of different hemopoietic cells, we used a series of monoclonal antibodies to investigate normal bone marrow in a standard immunofluorescence assay. The antibodies detected the following antigens: HLA-ABC, beta 2-microglobulin (beta 2m), HLA-DR (Ia), a lymphocyte subset and specific antigen (T and B) HuLy-m2, m3, T lymphocyte antigen (HuLy-m1), lymphocyte T200 antigen (HuLy-m4), a viral-associated antigen (HuLy-m5), and platelet-specific glycoproteins IIb-IIIa (HuPl-m1). The following results were obtained: (a) normoblasts were weakly HLA-ABC+, beta 2m+ and Ia-; all other lymphocyte and platelet antigens were not detected. (b) Myeloid cells at all stages of differentiation (promyelocytes, myelocytes, metamyelocytes, and neutrophils) were HLA-ABC+; beta 2m+; HuLy-m1-, m2-, m3+/- (20%), m4+, m5+/- (20%); HuPl-m1-; in addition, promyelocytes and myelocytes were Ia+ but neutrophils and metamyelocytes were Ia-. (c) Lymphocytes were HLA-ABC+, beta 2m+, Ia+/- (20-30%), HuLy-m1+/- (40-50%), m2+/- (60-70%), m3+, m4+, m5+; Pl-m1-. (d) Platelets and megakaryocytes were HLA-ABC+; beta 2m+; Ia-; HuLy-m1+-, m2-, m3-, m4-, m5-, HuPl-m1+, and the putative "megakaryocyte precursors" were HuPl-m1+, Ia-, HuLy-m1-. The different cell types in bone marrow could readily be distinguished, particularly cells of the myeloid series (Ia and HuLy-m4, m5), lymphocytes (Ia and HuLy-m1, m2, m3), and platelets and their precursor cells (HuPl-m1). This simple method of defining cellular phenotypes in bone marrow has demonstrated the practicality of using monoclonal antibodies to identify marrow cells and should be of diagnostic value.

Donoso, L A; Folberg, R; Edelberg, K; Arbizo, V; Atkinson, B; Herlyn, M

doi: 10.1177/33.12.3905953pmid: 3905953

A screening method is described to select monoclonal antibodies (Mabs) that bind to ocular melanoma-associated antigens (MAAs) retained in formalin-fixed, paraffin-embedded tissue sections. Small sections of epithelioid or spindle-cell-type uveal melanomas were cut into 2 mm cubes and reembedded in one block. Microslides were cut from this block and used to screen hybridoma supernatant fluid. Using this screening method, three MAbs were selected from two separate fusions of mouse myeloma cells with spleen cells of mice immunized previously with either ocular melanoma cells obtained fresh at enucleation or cells of a cutaneous melanoma cell line. Although all three MAbs showed similar specificities, MAb8-1H showed the strongest immunohistochemical reaction and was studied further in detail. MAb8-1H bound to 91% (71/79) of the choroidal or ciliochoroidal melanomas tested, indicating a high prevalence of this antigen in uveal melanomas. The antigen defined by MAb8-1H was isolated, purified, and partially characterized as a 40,000-50,000 dalton, highly glycosylated protein rich in glycine, serine, and glutamic acid, as is typical of a mucin-type glycoprotein.

Oyamada, M; Mori, M

doi: 10.1177/33.12.2415574pmid: 2415574

There have been many studies on the localization by immunocytochemistry of cytoskeletal proteins in cells cultured in vitro. However, the distribution of cytoskeleton in cells in situ has yet to be elucidated. In the present study we developed an immunohistochemical method for visualizing tubulin and actin in rat hepatocytes in situ, using a perfusion extraction-fixation procedure, in which the liver was perfused through the portal vein with a nonionic detergent to make the plasma membranes permeable to soluble substances, followed by a fixative to preserve cytoskeletal structure. Using the immunogold and peroxidase-antiperoxidase (PAP) staining procedures, we found that in hepatocytes in situ, tubulin was localized in cytoplasmic filamentous networks and in spindle fibers, as in hepatocytes and other cells in vitro. On the other hand, the distribution of actin in hepatocytes in situ was considerably different from that in well-spread hepatocytes and other cells cultured in vitro. In hepatocytes in situ, actin did not form any stress fibers, but was distributed preferentially under the plasma membrane, especially around the bile canaliculi. The perfusion extraction-fixation procedure could be adapted to visualize cytoskeleton in other tissues.

Gaasbeek Janzen, J W; Moorman, A F; Lamers, W H; Charles, R

doi: 10.1177/33.12.4067274pmid: 4067274

Carbamoyl-phosphate synthetase (ammonia) is homogeneously distributed in rat-liver parenchyma at birth, as demonstrated by immunohistochemistry. A heterogeneous distribution can first be demonstrated at 6 days post partum, but can be masked by use of a too sensitive detection system. This heterogeneity is established by a decrease in enzyme content around the hepatic venules and a considerable increase in enzyme content in the remaining parenchyma. The perivenous decrease in enzyme content does not occur in all hepatocytes synchronously. The adult type of heterogeneity is characterized by a perivenous layer, only two to three cells thick, in which carbamoyl-phosphate synthetase can no longer be detected, irrespective of the sensitivity of the assay used. This situation is fully established at the age of two months.

Hearn, S A; Silver, M M; Sholdice, J A

doi: 10.1177/33.12.3934258pmid: 3934258

Previous studies have found that immunoglobulin cannot be immunolabeled in tissues prepared for electron microscopy by usual methods. To test this conclusion, we used a protein A-gold postembedding immunolabeling method on tissues that were fixed in glutaraldehyde, post-fixed in osmium tetroxide, and embedded in epoxy resin; sections were pretreated with sodium metaperiodate. A variety of common fixation protocols were also used and the most suitable conditions for immunolabeling were determined. This technique permitted the ultrastructural localization of immunoglobulin light chains in optimally preserved and contrasted plasma cells from human tonsil, lymph nodes, plasmacytomas, and a renal biopsy. We were able to demonstrate multiple antigens in the same tissue and label antigens in tissues that had been stored for many years in epoxy resin. The technique allows quantitation of the gold label over plasma cell organelles and therefore gives information about the immunoglobulin secretory pathway in these cells. We found that the protein A-gold procedure compares favorably in technical ease with the immunoperoxidase, avidin-biotin peroxidase, and immunoglobulin-colloidal gold immunolabeling methods, and has added advantages in allowing precise localization and quantitation of the labeled antigen.

Marcinkiewicz, M; Benjannet, S; Seidah, N G; Cantin, M; Chrétien, M

doi: 10.1177/33.12.4067275pmid: 4067275

A novel pituitary protein called 7B2 was localized in rat pituitary and brain by immunocytochemistry (unlabeled antibody technique). Immunoreactive material was present in the secretory cells of anterior and intermediate lobes and in neural structures of the posterior lobe of the hypophysis. 7B2-immunoreactive neurons were evident within the hypothalamus in the supraoptic nucleus, paraventricular nucleus (magnocellular and parvocellular parts), and lateral hypothalamus. Immunoreactive nerve fibers were seen within the internal and external zone of the median eminence. Among extrahypothalamic regions, the substantia nigra, dorsal tegmental nucleus, cuneiform nucleus, dorsal parabrachial nucleus, spinal tract trigeminal nerve, interior olive, solitary nucleus, and layers I and II of the spinal cord contained 7B2-immunoreactive material. This anatomical distribution suggests a role for 7B2 in endocrine and autonomic functions.

Jemmerson, R; Klier, F G; Fishman, W H

doi: 10.1177/33.12.4067276pmid: 4067276

The cell-surface distribution of human placental alkaline phosphatase (PLAP) on cultured cancer cells, A431 and HeLa TCRC-1, and on normal syncytial cells of placental tissue was examined in immunoelectron transmission microscopy using the gold-labeling technique. Chemically fixed cells were reacted with affinity-purified rabbit polyclonal antibodies to PLAP, and the antibodies were visualized using gold particles tagged with goat antirabbit IgG. On all cells PLAP was observed in clusters distributed throughout the membrane surface, including microvilli, but it was not expressed in desmosomes or along other dense regions on the membrane. Previous histochemical and immunochemical techniques failed to demonstrate clusters. The results show that (1) the gold-labeling technique allows a more precise localization of PLAP on the cell surface than previously employed methods, and (2) the distribution of the enzyme is the same on cultured cancer cells and on normal placental syncytial cells. The clustered distribution of PLAP is thus a general phenomenon and is probably influenced by the physiological function of the enzyme, which has yet to be defined.

Gresik, E W; Gubits, R M; Barka, T

doi: 10.1177/33.12.3877752pmid: 3877752

Epidermal growth factor (EGF) is a polypeptide originally isolated from the mouse submandibular gland, where it is localized immunocytochemically in cells of the granular convoluted tubules (GCT). cDNAs encoding the precursor of mouse submandibular EGF have been cloned (Scott et al. Science 221:236, 1983; Gray et al. Nature 303:722, 1983). A fragment of one of these clones, pmegf10, containing the EGF coding region, was tritium-labeled by nick-translation and used as a probe for in situ hybridization to EGF mRNA. A specific hybridization signal for EGF mRNA was seen only in mature or developing GCT cells. The intensity of the signal was stronger in glands of intact males than in females or in castrated males. In glands of castrates treated with testosterone, or of intact females treated with triiodothyronine (T3), the signal was comparable to that in intact males. In glands of males treated with T3 the intensity of the signal was stronger than in untreated males. A weak to moderate signal was seen in developing GCT cells of 20-day-old males but not females. Hybridization for 3 days gave a stronger signal than that for 1 day. No signal was seen in either sex at 10 days of age, or in control preparations exposed to labeled DNA of pBR322. The presence of EGF mRNA exclusively in GCT cells provides strong evidence that these cells are the only site of synthesis of EGF in the submandibular gland. In situ hybridization with this cDNA probe will provide a sensitive method to determine possible cellular sites of EGF production outside of the submandibular gland.

Landegent, J E; Jansen in de Wal, N; Ploem, J S; Van der Ploeg, M

doi: 10.1177/33.12.2415575pmid: 2415575

A new sensitive method for visualization of nonautoradiographic hybridization results in microscopic preparations is described. The method is based on the reflection of the incident light by diaminobenzidine precipitates deposited at the site of hybridization during an indirect hybridocytochemical procedure. The reflected light is detected by means of reflection-contrast microscopy. The applicability of the procedure is demonstrated with nucleic acid probes modified with 2-acetylaminofluorene groups. These in turn are localized in situ by an indirect immunoperoxidase reaction. Besides its sensitivity, this simple visualization technique possesses the additional advantages, over absorption and fluorescence microscopy, that it provides a total DNA counterstain and a chromosomal banding pattern.

Manigley, C; Roth, J

doi: 10.1177/33.12.2415576pmid: 2415576

We report the development of a new light-microscopic double-staining technique using colloidal gold as sole marker. The contrasting color to the red of colloidal gold is achieved by the application of photochemical silver reaction. The silver reaction, which is principally performed at the end of the first staining sequence, converts the red color of a gold-labeled reagent into black. This contrasts clearly with the red coloration that results from the second incubation sequence without silver reaction. For antigen double staining, the same protein A-gold complex can be used to provide the black and the red color, thus rendering the technique very economical. Alternatively, combination of protein A-gold immunolocalization and lectin-gold staining is possible, as is combined lectin-gold staining.