Journal of Histochemistry & Cytochemistry

Terada, T; Kono, N; Nakanuma, Y

doi: 10.1177/40.11.1431051pmid: 1431051

The expression and localization of the pancreatic and salivary isozymes of alpha-amylase in the intrahepatic biliary epithelium and hepatocytes were examined by the immunohistochemical method with polyclonal and monoclonal antibodies in 45 normal autopsied human livers. Immunoelectron microscopic studies with the protein A-gold method were performed with the monoclonal antibodies (MAb) on seven of the livers. The intrahepatic biliary system was divided into large ducts, septal ducts, interlobular ducts, bile ductules, and peribiliary glands. Immunohistochemically, pancreatic isozyme was observed in the supranuclear cytoplasm of the epithelium of large ducts, septal ducts, and peribiliary glands in almost all livers. Interlobular ducts expressed pancreatic isozyme in only four (9%) livers. Bile ductules and hepatocytes were negative for pancreatic isozyme in all cases. Expression of salivary isozyme was observed in the supranuclear cytoplasm of the epithelium of large ducts, septal ducts, interlobular ducts, bile ductules, and peribiliary glands in almost all livers, although the expression in interlobular ducts and bile ductules was weak. Hepatocytes were weakly positive for salivary isozyme. Immunoelectron microscopy revealed that both pancreatic and salivary isozymes were located in the supranuclear cytoplasm of the epithelium of large ducts, septal ducts, and peribiliary glands, and that hepatocytes had no pancreatic isozyme but contained salivary isozyme. These data suggest that pancreatic and salivary isozymes of alpha-amylase are produced by the intrahepatic biliary epithelium and secreted into intrahepatic biliary lumens, and that they may play an important role in the physiology of the intrahepatic biliary tree and hepatic bile. It is also suggested that hepatocytes produce a small amount of salivary alpha-amylase that may be secreted into the biliary tree.

Kömüves, L G; Heath, J P

doi: 10.1177/40.11.1431052pmid: 1431052

In ungulates, intestinal absorption of maternal immunoglobulins from colostrum plays a vital role in the acquisition of passive immunity during early neonatal life. In the present study we used post-embedding colloidal gold labeling to examine the intracellular localization of IgG in the jejunal enterocytes of miniature piglets suckled for 2 hr. Quantitation of the immunolabeling revealed that the most sensitive technique for IgG detection was the streptavidin bridge-gold technique. In this method, the LR White-embedded sections were labeled sequentially with biotinylated anti-porcine IgG, streptavidin, and biotinylated BSA conjugated to 10-nm colloidal gold. With this approach, we found the following sequence of maternal IgG accumulation: passage of IgG from colostrum through the brush border; binding to the apical plasma membrane; uptake in noncoated pits and invaginations; transport in endocytotic vesicles; and accumulation in granules in the apical cytoplasm.

Dirks, R W; Van Dorp, A G; Van Minnen, J; Fransen, J A; Van der Ploeg, M; Raap, A K

doi: 10.1177/40.11.1431053pmid: 1431053

The subcellular localization of mRNA sequences encoding neuropeptides in neuropeptidergic cells of the pond snail Lymnaea stagnalis was investigated at the electron microscopic (EM) level by non-radioactive in situ hybridization. Various classes of probes specific for 28S rRNA and for the ovulation hormone (caudodorsal cell hormone; CDCH) mRNA were labeled with biotin or digoxigenin and were detected after hybridization with gold-labeled antibodies. Hybridizations were performed on ultra-thin sections of both Lowicryl-embedded and frozen cerebral ganglia, and a comparison demonstrated that most intense hybridization signals with an acceptable preservation of morphology were obtained with ultra-thin cryosections. Addition of 0.1% glutaraldehyde to the formaldehyde fixative improved the morphology, but on Lowicryl sections this added fixative resulted in a decrease of label intensity. A variety of probes, including plasmids, PCR products, and oligonucleotides, were used and all provided good results, although the use of oligonucleotides on Lowicryl sections resulted in decreased gold labeling. The gold particles were found mainly associated with rough endoplasmic reticulum (RER) but were also observed in lysosomal structures. Finally, the in situ hybridization method presented in this study proved to be compatible with the immunocytochemical detection of the caudodorsal cell hormone, as demonstrated by double labeling experiments.

Kiyohara, H; Egami, H; Shibata, Y; Murata, K; Ohshima, S; Ogawa, M

doi: 10.1177/40.11.1431054pmid: 1431054

The light microscopic and immunohistochemical distribution of human Group II phospholipase A2 (M-PLA2) in digestive organs of both human fetus and adult, with a new monoclonal antibody (MAb) against M-PLA2, was investigated semiquantitatively. The immunoreactivity was distributed similarly in the adult and fetal epithelium of the esophagus, duodenum, and small intestine, and in the acinar, islet, and duct cells of the pancreas. The epithelium of adult gallbladder was immunoreactive. Paneth cells, especially the secretory apparatus, were strongly immunoreactive. Hepatic Küpffer cells and macrophages of the adult spleen were also immunoreactive. These results suggest that these cells contain secretory-type Group II PLA2, which may be involved in host defensive mechanisms, such as phagocytosis in human digestive organs. In the adult colon, the immunoreactivity was observed only in the ascending colon and was not found in the transverse, descending, sigmoid, or rectal colon. The immunoreactivity was not found in fetal colon. Similarly, immunoreactivity was found in hepatocytes and Küpffer cells of adult liver but not in fetal liver. By contrast, strong immunoreactivity was observed in the epithelium of the fetal stomach but not in adult stomach except in gastric neck cells. This suggests that the expression of M-PLA2 may be related to cell differentiation in particular organs.

Ridderstråle, Y; Wistrand, P J; Tashian, R E

doi: 10.1177/40.11.1431055pmid: 1431055

Carbonic anhydrase II-deficient mice offer a possibility to study the localization along the nephron of membrane-associated carbonic anhydrase (CA) activity without interference from the cytoplasmic enzyme. We studied the localization of CA in kidneys from CA II-deficient and control mice by immunocytochemistry (CA II) and histochemistry. Cytoplasmic staining was found in convoluted proximal tubule, thick limb of Henle, and principal and intercalated cells of collecting duct in the control animals but was absent in the CA II-deficient mice. In cells with cytoplasmic staining the cell nuclei were stained. Intense histochemical activity was associated with apical and basolateral membranes of convoluted proximal tubule, first part of thin limb, thick limb, and basolateral membranes of late distal tubule. In collecting ducts of control animals, the basolateral cell membranes of intercalated cells were the only clearly stained membranes. In CA II-deficient animals one type of intercalated cell was stained most intensely at the apical membranes and another only at the basolateral. We suggest that the former corresponds to Type A intercalated cells secreting H+ ions to the luminal side and the latter to Type B cells secreting H+ ions to the basolateral side.

Itoh, J; Kinjoh, K; Ohyama, A; Nose, M; Kyogoku, M

doi: 10.1177/40.11.1431056pmid: 1431056

We studied the localization of T-cells and HLA-DR antigen-bearing (DR+) cells in rheumatoid synovitis by employing an improved two-color immunofluorescent staining (TCIF) technique. With this technique we have successfully identified DR+ activated T-cells in the inflammatory synovium. T-cells expressed HLA-DR antigen when they were in contact with DR+ antigen-presenting cells (APC). In addition, activated T-cells showed characteristic distribution within the synovium: they were found around high endothelial venules, within lymphoid follicles, and in hyperplastic synovial lining, suggesting their involvement in the development of rheumatoid synovial lesions via interaction with synovial DR+ APC lineage cells. These findings may contribute to better understanding of the role of activated T-cells in the histogenesis of rheumatoid synovitis, a typical chronic inflammatory lesion.

Dawirs, R R; Teuchert-Noodt, G

doi: 10.1177/40.11.1431057pmid: 1431057

We investigated dopamine immunoreactivity in the kidney of gerbils (Meriones unguiculatus). For that purpose a sensitive and selective antibody against glutaraldehyde-conjugated dopamine was applied. Dopamine-immunoreactive cells were found in the epithelium of the proximal convoluted tubule, where these cells revealed a typical segment-like distribution pattern. Dopamine-immunoreactive precipitates were small and concentrated at the apical pole of the labeled cells. This study has directly identified dopamine as a constituent of certain cells of the proximal convoluted tubule in gerbils. The functional significance of dopamine in these cells is discussed in relation to the present view of renal dopaminergic actions.

Asari, A; Miyauchi, S; Miyazaki, K; Hamai, A; Horie, K; Takahashi, T; Sekiguchi, T; Machida, A; Kohno, K; Uchiyama, Y

doi: 10.1177/40.11.1431058pmid: 1431058

To demonstrate the intra- and extracellular localization of hyaluronic acid (HA) in articular cartilage of the rabbit tibia, biotinylated HA binding region, which specifically binds to the HA molecule, was applied to the tissue. In comparison with the localization of HA, that of chondroitin sulfate (CS), keratan sulfate (KS), and the protein core (PC) of the proteoglycan was examined by immunohistochemistry. Strong positive staining for HA was detected in chondrocytes located in the transition between the superficial and middle zones of the tissue. Pre-treatment with chondroitinase ABC, keratanase II, or trypsin enhanced the stainability for HA in peri- and intercellular matrices. Immunohistochemistry with or without enzymatic pre-treatment demonstrated that immunoreactivity for CS, KS, and PC was distinctly discerned in chondrocytes and in the extracellular matrix located in the middle and deep zones. In particular, the immunoreactivity for KS and PC was augmented by pre-treatment with chondroitinase ABC not only in chondrocytes but in the extracellular matrix located in the middle and deep zones. Microbiochemical analysis corresponded well with histochemical and immunohistochemical results. These results suggest that HA is abundantly synthesized and secreted in chondrocytes located in the transition between the superficial and middle zones.

Munim, A; Asayama, K; Dobashi, K; Suzuki, K; Kawaoi, A; Kato, K

doi: 10.1177/40.11.1431059pmid: 1431059

We investigated the developmental profile of copper-zinc and manganese superoxide dismutase (CuZnSOD and MnSOD) in tissue sections obtained from fetal (Day 12 to 21 of gestation) and neonatal (Day 0 and 6) rats. Tissues were stained immunohistochemically with specific antisera against the respective rat SODs. There was a general trend towards richness of SODs in the epithelial linings and metabolically active sites, although differential distribution between the two SODs also existed. At Day 12 of gestation, immunoreactivity for both SODs was detected in the cardiomyocytes but not in other tissues. Hepatocytes expressed CuZnSOD at Day 14 and MnSOD at Day 17. By Day 18 CuZnSOD was detected in the epithelial cells of the gastrointestinal tract, respiratory tract, pancreatic islets, kidneys, and adrenals. These tissues exhibited MnSOD staining at Day 19. CuZnSOD occurred in the epithelia of the thyroid, thymus, and salivary glands at Day 19, while MnSOD was seen at Day 21. The increase in intensity of the staining for SODs occurred no later than postnatal Day 0, indicating that most tissues accumulated SODs during late gestation. Breathing atmospheric oxygen during early extrauterine life did not appreciably intensify the SOD staining. These results suggest that perinatal increase in SODs occurs as a general mechanism of preparation for birth.

Dobado-Berrios, P M; Ruiz-Navarro, A; Torronteras, R; Gracia-Navarro, F

doi: 10.1177/40.11.1358942pmid: 1358942

The objective of the present study was to quantify the absolute hormone release from individual porcine pituitary cells incubated on polyvinylidene difluoride (PVDF) transfer membranes (cell-blot assay). After immunoperoxidase staining, growth hormone (GH) release from isolated somatotrope cells appeared like a colored zone of secretion surrounding the cell. Optical densities of these secretion zones were quantitated by computerized image analysis and translated into picograms by means of an appropriate standard curve. As a prior step, the staining method and the optimal immunocytochemical conditions were selected by applying purified porcine growth hormone (pGH) to the transfer membranes. The avidin-biotin-peroxidase nickel-intensified (ABC-Ni) method produced a better resolution than the peroxide-anti-peroxidase (PAP) method, although both techniques were similar with regard to background, sensitivity, and range of quantitation. The amount of GH released from single porcine somatotropes was highly heterogeneous, although the cells were treated under the same conditions. Moreover, this fact was consistent with the stimulation of the average release of GH by GH-releasing factor (GHRF) but not by GHRF+somatostatin (SRIF). Our results confirm the availability of the recently developed cell-blot assay and support the concept of functional heterogeneity in anterior pituitary cell populations.