Journal of Histochemistry & Cytochemistry

Karttunen, T; Sormunen, R; Risteli, L; Risteli, J; Autio-Harmainen, H

doi: 10.1177/37.3.2918219pmid: 2918219

We studied the ultrastructural distribution of laminin, type IV collagen, and the amino terminal pro-peptide of type III collagen (type III pN-collagen) in normal human lymph nodes. After fixation with freshly prepared 4% paraformaldehyde mixed with 0.1% glutaraldehyde, cryoultramicrotomy proved to preserve the antigenicity of these proteins better than embedding in Lowicryl K4M. Sections were treated with rabbit antibodies against the 7S domain of human type IV collagen, the fragment P1 of human laminin, and the amino terminal pro-peptide of human type III pro-collagen, followed by anti-rabbit IgG conjugated to 10-nm colloidal gold. Laminin and type IV collagen were seen in the basement membrane structures of the blood vessels and in the walls of sinuses. The amorphous material between the collagenous fibers in locations corresponding to reticular fibers also contained laminin and type IV collagen. The amino terminal pro-peptide of type III pro-collagen was present in the collagenous fibers in reticular fibers and in the walls of blood vessels and sinuses. Therefore, a significant number of the type III collagen molecules in these fibers must have retained their amino terminal pro-peptide. These results indicate that the basement membrane proteins laminin and type IV collagen are genuine components of reticular fibers, as suggested earlier by immunohistochemical studies at the light microscopic level.

Funata, N; Fukayama, M; Sugano, K; Koike, M

doi: 10.1177/37.3.2918220pmid: 2918220

To identify and characterize the subcellular topography of glycine-extended pro-gastrin-processing intermediates (G-Gly) in human antral mucosa, we performed an electron microscopic immunocytochemical study using region-specific antisera generated against the synthetic peptide, Tyr-Gly-Trp-Met-Asp-Phe-Gly (GL7), and C-terminal-specific anti-gastrin antisera. As has been previously reported, G-cells contained both electron-dense and electron-lucent granules, with a range of intermediate forms. Gastrin immunoreactivity was demonstrated in almost all granules of each type, whereas anti-GL7 antisera immunostained chiefly electron-dense granules. The relative ratio of GL7/gastrin granules varied among different cells but was approximately 1:10 on average. Other cytoplasmic organelles were devoid of specific labeling for GL7 or gastrin. As we have assumed that G-Gly serves as the immediate precursor for each molecular form of gastrin, electron-dense granules with high labeling for GL7 are regarded as the principal site for conversion of G-Gly to gastrin. This speculation supports many previous reports that electron-dense granules are immature and that the granules become less electron-dense with maturation.

Mariani-Costantini, R; Theillet, C; Hutzell, P; Merlo, G; Schlom, J; Callahan, R

doi: 10.1177/37.3.2645359pmid: 2645359

We used a sensitive RNA:RNA in situ hybridization technique to study steady-state levels of c-myc proto-oncogene mRNA in primary human colon adenocarcinomas, villous adenomas, and normal mucosa samples. Frozen tissue sections, fixed in 4% buffered paraformaldehyde, were hybridized to 35S-labeled anti-sense transcripts of a c-myc clone and processed for autoradiography. The specificity of the hybridization was controlled by using 35S-labeled plasmid transcripts as a negative control, while RNA preservation in the tissue sample was assessed by using 35S-labeled anti-sense transcripts of a murine 28S rRNA clone. c-myc RNA was detectable in all the carcinomas (eight) and villous adenomas (four), but steady-state levels varied from high to low in different tumors with similar histology. Low levels of c-myc RNA were detected in epithelial stem cells of some of the normal mucosa samples (five). No genetic alterations of the c-myc locus were found by Southern analysis of DNAs extracted from the carcinomas.

De Strooper, B; Van der Schueren, B; Jaspers, M; Saison, M; Spaepen, M; Van Leuven, F; Van den Berghe, H; Cassiman, J J

doi: 10.1177/37.3.2645360pmid: 2645360

We studied the distribution of the beta 1 integrin subfamily in human tissues and cells by light microscopy, electron microscopy, and immunoblotting, using monoclonal antibody DH12, previously shown to react with the beta 1 subunit of the human fibronectin receptor. Crossreaction with the other beta subunits of the integrin family, which have 45% and 47% primary amino acid sequence identity with the beta 1 subunit, was excluded, as MAb DH12 did not react with the beta 2 subunit in granulocytes and the beta 3 subunit in thrombocytes. Reactivity with the anti-beta 1 antibody was found in skin, lung, heart, striated and smooth muscle, blood cells, liver, kidney, intestine, spleen and placenta. Thus, cells of mesodermal, ectodermal, and entodermal origin express the beta 1 subunit. In skin fibroblasts cultured in vitro, beta 1 subunit was also detected intracellularly. The wide distribution of the beta 1 family, originally detected in activated T-lymphocytes after prolonged culture in vitro, contrast with the restricted distribution of the beta 2 integrins on leucocytes.

Trahair, J F; Ryan, G B

doi: 10.1177/37.3.2645361pmid: 2645361

Neuron-specific enolase-like and kallikrein-like immunoreactivity was found to be co-localized in the ductal elements of the submandibular gland and in the more distal portions of the nephron in the kidney of newborn lambs. Some glomerular peripolar cells in the kidney were immunopositive for neuron-specific enolase without detectable kallikrein-like immunoreactivity.

Skalli, O; Pelte, M F; Peclet, M C; Gabbiani, G; Gugliotta, P; Bussolati, G; Ravazzola, M; Orci, L

doi: 10.1177/37.3.2918221pmid: 2918221

alpha-Smooth muscle (alpha-sm) actin, an isoform typical of smooth muscle cells (SMC) and present in high amounts in vascular SMC, was demonstrated in the cytoplasm of pericytes of various rat and human organs by means of immunocytochemistry at the electron microscopic level. In SMC and pericytes, alpha-sm actin was localized in microfilament bundles, strengthening the assumption that it is the functional isoform in these cell types and supporting the assumption that pericytes exert contractile functions.

Russo, S A; Greengard, O

doi: 10.1177/37.3.2563747pmid: 2563747

A fluorescent method developed for visualizing gamma-glutamyltranspeptidase (GGT) in intact liver cells was adapted to leukocytes and used in a multiparameter flow cytometric study of blood and bone marrow cells from rats with subcutaneous implants of mammary carcinoma 5A. The severe granulocytosis caused by this non-metastatic tumor was preceded by a progressive rise in the percentage of leukocytes with high GGT fluorescence. Both granulocytes and small, immature cells of bone marrow showed increased GGT expression, whereas in blood this increase was attributable entirely to mature granulocytes. At 28 days (but not yet at 14 days) after carcinoma implantation, 20-30% of blood or bone marrow granulocytes constituted a distinct subpopulation in that their GGT fluorescence intensity range was much higher and did not overlap with the range for the rest of the population. The results indicate that fluorescent GGT assay of intact leukocytes provides a useful probe for flow cytometric analysis of population heterogeneity in leukoproliferative disorders.

Roels, F; Cornelis, A

doi: 10.1177/37.3.2918222pmid: 2918222

Hepatocellular peroxisomes stained for catalase activity have different electron densities. When measured by scanning transmission electron microscopy, density is inversely linear to diameter. We investigated whether this phenomenon is the result of a staining artifact that reflects more efficient diffusion of substrate into smaller peroxisomes (higher surface-to-volume ratio), or of differences in endogenous enzymatic activity. Measurements of optical density show that the amount of reaction product is proportional to the diaminobenzidine concentration in the medium; this is not the case for H2O2. Modifying the concentration of both substrates does not alter the heterogeneous staining pattern. Heterogeneity persists when the reaction is slowed by inhibitors or when diffusion takes place before the reaction, and in preparations that have not been subjected to cytochemical staining. These data show that catalase activity is different in individual peroxisomes and that the staining differences are not a consequence of variations in substrate diffusion. Some implications of this conclusion are discussed.

Mednieks, M I; Jungmann, R A; Fischler, C; Hand, A R

doi: 10.1177/37.3.2537353pmid: 2537353

A mouse monoclonal antibody of the IgM class, MAb BB1, specific for the type II regulatory subunit (RII) of cyclic AMP-dependent protein kinase (cAPK), was produced using a purified subcellular protein fraction from rat parotid gland as the original antigen. The antibody immunoprecipitated radioactivity labeled RII from bovine heart cAPK, and from rat and human parotid saliva. Western blot analysis revealed specific binding of the antibody to proteins of 52 and 54 KD in extracts of rat parotid tissue, parotid saliva, and bovine heart cAPK. Immunogold labeling of thin sections of rat parotid gland revealed specific labeling of acinar cell nuclei (especially the heterochromatin), cytoplasm (particularly in areas containing granular endoplasmic reticulum), and the content of secretory granules. Labeling was greatly reduced (approximately 84%) when the antibody was pre-absorbed with an excess of bovine heart cAPK. In duct cells the cytoplasm and nuclei were also labeled, but few gold particles were present over secretory granules. These results provide additional evidence for the presence of nuclear cAPK in rat parotid cells, and confirm previous observations on the presence of cAPK regulatory subunits in acinar secretory granules and saliva. The hybridoma reagent will be used for studies of stimulus responses in the parotid and for immunocytochemical analyses of RII distribution in other secretory tissues.

Watanabe, T; Watanabe, M; Ishii, Y; Matsuba, H; Kimura, S; Fujita, T; Kominami, E; Katunuma, N; Uchiyama, Y

doi: 10.1177/37.3.2521876pmid: 2521876

To examine localization of cathepsin B, a representative lysosomal cysteine protease, in atrial myoendocrine cells of the rat heart, immunohistochemistry at the light and electron microscopic level was applied to the atrial tissue, using a monospecific antibody for rat liver cathepsin B. In serial semi-thin sections, immunoreactivity for cathepsin B and atrial natriuretic peptides (ANP) was detected in the para-nuclear region of atrial myoendocrine cells. Several large granules and many fine granules in the region of the cells were positively stained by the cathepsin B antibody. Gold particles indicating cathepsin B antigenicity labeled secretory granules in the cells, which were also labeled by those indicating ANP, using thin sections of the Lowicryl K4M-embedded material. Moreover, some granules labeled densely by immunogold particles for cathepsin B seemed to be lysosomes. By double immunostaining using thin sections of the Epon-embedded material, gold particles indicating cathepsin B and ANP antigenicities were co-localized in secretory granules of the cells. By enzyme assay, activity of cathepsin B was three times higher in atrial tissue than ventricular tissue. The results suggest that co-localization of cathepsin B and ANP in secretory granules is compatible with the possibility that cathepsin B participates in the maturation process of ANP.