Immunocytochemical localization of beta 1,4 galactosyltransferase in epithelial cells from bovine tissues using monoclonal antibodies.

Post-embedding immunocytochemistry was employed to investigate the distribution of UDP-galactose:N-acetylglucosamine galactosyltransferase (beta 1,4-GT) in epithelial cells from various bovine organs. Several well characterized monoclonal antibodies previously demonstrated to recognize distinct polypeptide epitopes within the primary structure of beta 1,4-GT were applied to thin sections from tissues embedded in Lowicryl K4M, followed by the protein A-gold technique. Immunoreactivity was observed in the Golgi apparatus of epithelial cells from intestine, thymus and trachea. No immunoreactivity was observed in other intracellular structures, including rough endoplasmic reticulum, nuclear envelope and goblet cell mucus droplets. Within the Golgi apparatus, the staining was restricted to several cisternae in the trans region, with most portions of the trans-Golgi network appearing unlabelled. However, in thymic epithelial-reticular cells trans-Golgi network portions resembling classical GERL elements were stained by the antibodies. Thus, although immunoreactivity was subcompartmentalized within the Golgi apparatus in all epithelial cell types examined, the extent of staining within the trans-Golgi network was variable. Immunoreactivity was not detected at the plasma membrane (ecto-galactosyl-transferase), except in the case of a subpopulation of tracheal cells that resemble brush cells. These results suggest that in the epithelial cells examined, the subcompartmental distribution of beta 1,4-GT within the Golgi apparatus is maintained across different types of epithelial cell organization. Moreover, no evidence for a general epithelial cell ecto-galactosyltransferase could be discerned with these reagents.     

Immunocytochemical localization of glycogen phosphorylase isozymes in rat nervous tissues by using isozyme-specific antibodies

Isozyme-specific antibodies were raised against peptides from the low-homology regions of the sequences of rat glycogen phosphorylase BB and MM isozymes by immunization of rabbits and guinea pigs. Immunocytochemical double-labelling experiments on frozen sections of rat nervous tissues were performed to investigate the isozyme localization pattern. Astrocytes throughout the brain and spinal cord expressed both isozymes in perfect co-localization. Ependymal cells only expressed the BB isozyme. Most neurones were not immunoreactive. The rare neurones that contained glycogen phosphorylase only expressed the BB isozyme. Nearly all of these neurones formed part of the afferent somatosensory system. These findings stress the general importance of glycogen in neural energy metabolism and indicate a special role for the glycogen phosphorylase BB isozyme in neurones in the somatosensory system.     

Ultrastructural localization of immunoreactive neurophysins using monoclonal antibodies and protein A-gold

Using three different monoclonal antibodies against rat neurophysins (5), with protein A-gold as immunocytochemical marker (27), the murid hypothalamoneurohy-pophysial system was studied at the ultrastructural level. Postembedding staining was done on epoxy-embedded sections of supraoptic nuclei and posterior pituitaries. Specific immunolabeling of vasopressinergic and oxytocinergic neurosecretory granules was observed in tissues fixed with glutaraldehyde or glutaraldehyde mixtures (containing paraformaldehyde and picric acid), with or without osmium tetroxide postfixation and with or without sodium metaperiodate oxidation. Some autophagic vacuoles containing lysed neurosecretory granules were also neurophysin immunoreactive. Nonspecific background staining was extremely low. An attempt was made to appraise labeling intensities semiquantitatively by counting gold particles in relation to number of secretory granules per axonal varicosity. Immunoreactivity was measurably influenced by the mode of fixation, sodium metaperiodate oxidation, and titer and affinity of the antibody. The protein A-gold technique using monoclonal antibodies against neurophysins provides a superior means of ultrastructural analysis of the hypothalamoneurohypophysial system, both visually and morphometrically.     

Immunocytochemical localization of angiotensin II receptor subtypes and angiotensin II with monoclonal antibodies in the rat adrenal gland

Angiotensin II (Ang II), a major regulator of cardiovascular function and body fluid homeostasis, mediates its biological actions via two subtypes of G protein-coupled receptors, termed AT(1) and AT(2). The primary goal of this study was to raise monoclonal anti-peptide antibodies specific to angiotensin AT(1)- and AT(2)-receptor subtypes and to Ang II itself and using these monoclonal antibodies to determine the intraadrenal localization of AT(1) and AT(2) receptors and Ang II in male adult rats. Immunocytochemistry unambiguously demonstrates a regional colocalization of Ang II and angiotensin II receptors in the adrenal gland. The novel antibodies localized Ang II and the AT(1) receptors to the zona glomerulosa of the cortex and to the medulla whereas AT(2) receptors were limited to the medulla. The specificity of immunostaining was documented by pre-adsorption of the antibody with the immunogenic peptide. Our data underscore that AT(1) appears to mediate most of the physiological actions of Ang II in adrenal. Western blot analysis of rat adrenal protein extracts using AT(1) antibody showed a predominant 73-kDa band and a weaker 97-kDa immunoreactive band corresponding to glycosylated forms of the AT(1) receptor. Immunostaining with anti-AT(2) yielded one major immunoreactive band of 73-kDa size and one additional fainter band of 120 kDa. These antibodies may prove of value in unraveling the subcellular localization and intracellular effector pathways of AT(1) and AT(2).     

Mapping of distinct structural domains on microtubule-associated protein 2 by monoclonal antibodies

Monoclonal antibodies against microtubule-associated protein 2 (MAP2) were prepared and their specificity was verified by visualization of the antigens using the antibody overlay technique and by radioimmunoassay. MAP2 was cleaved by alpha-chymotrypsin to generate a series of high-molecular-mass fragments ranging between 270 and 140 kDa. The precursor-product relationship of these fragments was suggested from the rate of their appearance and from the analysis of the tryptic peptide map of each fragment. A group of monoclonal antibodies was found to react predominantly with the intact 270-kDa MAP2 molecule and a fragment having a mass of 240 kDa and to some extent with a 215-kDa fragment. Another group of monoclonal antibodies reacted with an antigenic determinant which was located on the 270-kDa molecule as well as on fragments as small as 140 kDa. None of the two groups of monoclonal antibodies reacted with the microtubule-binding domain of MAP2. These results suggest that one group of antibodies reacts with sites located at or dependent upon a terminal 60-kDa domain(s) distal to the microtubule-binding site of MAP2. The second group of antibodies, which can still bind to smaller proteolytic products, appear to be associated with the central region of the MAP2 molecule. Indirect immunofluorescence experiments with the antibody preparations indicated that at least some of the antigenic determinants are exposed when MAP2 is associated with microtubules in the cell body and neurite outgrowths of differentiated rat brain neuroblastoma B104 cells.     

Immunocytochemical localization of vesicular stomatitis virus proteins N and NS with monoclonal antibodies

The purpose of this paper is to describe the immunocytochemical-localization of N and NS nucleocapsid proteins of vesicular stomatitis virus in the cells throughout the infectious cycle. N protein was detected in the cytoplasm at 2 h after infection and formed small cytoplasmic clusters which progressively increased in size and number. At 5-6 h, it formed large cytoplasmic inclusions. NS protein was detected in the cytoplasm a little later than N protein and showed almost the same immunostaining pattern. However, diffuse background staining of NS protein was identified throughout the cytoplasm by double immunostaining methods. At electron microscopic level, N protein was mostly granular and occasionally organized in strands at 2-3 h. At 5-6 h, numerous immunostained reaction products were organized in strands. The reaction products of NS protein were almost the same as those of N protein with the exception that diffuse background staining was observed. Cos cells, transfected with SV40 vector containing N gene obtained by recombinant DNA technique, showed clusters of N protein, but virtually no strand at electron microscopic levels. The rapid-freezing and deep-etching replica method demonstrated that loosely coiled VSV genome coated with N protein was localized on cytoplasmic sides of cell membranes in the infected cells. These results showed that complete virus genome replication was needed for strand formation of N and NS proteins and suggested that they were bound to VSV genomes in the infected cells.     

Immunocytochemical localization of a calcium-binding protein in the rat duodenum

Summary The cellular localization of the vitamin D-dependent calcium-binding protein (CaBP) in the duodenum of rat was studied using indirect immunofluorescence and immunoperoxidase staining methods. Specific positive reaction product, indicative of the presence of CaBP, was exclusively located within the villous part of the duodenal mucosa. Moreover, CaBP was detected mainly within the supranuclear region of the cytoplasm of absorptive cells and also at the level of their basal laminae. CaBP was not demonstrable either in the nuclei or associated with the brush border membrane of absorptive cells. Also, CaBP was neither detectable in goblet cells nor in sub-epithelial layers. When the specific anti-CaBP antiserum was replaced by nonimmune rabbit serum or when it was preabsorbed on a CaBP-Sepharose conjugate, no positive immunostaining was seen. Together with recent biochemical data our observations agree well with the view that CaBP may act as an intracellular buffer by protecting the cell against too high Ca²⁺ concentrations.     

Immunocytochemical localization of vesicular stomatitis virus proteins N and NS with monoclonal antibodies

Summary The purpose of this paper is to describe the immunocytochemical localization of N and NS nucleocapsid proteins of vesicular stomatitis virus in the cells throughout the infectious cycle. N protein was detected in the cytoplasm at 2h after infection and formed small cytoplasmic clusters which progressively increased in size and number. At 5–6 h, it formed large cytoplasmic inclusions. NS protein was detected in the cytoplasm a little later than N protein and showed almost the same immunostaining pattern. However, diffuse background staining of NS protein was identified throughout the cytoplasm by double immunostaining methods. At electron microscopic level, N protein was mostly granular and occasionally organized in strands at 2–3 h. At 5–6 h, numerous immunostained reaction products were organized in strands. The reaction products of NS protein were almost the same as those of N protein with the exception that diffuse background staining was observed. Cos cells, transfected with SV40 vector containing N gene obtained by recombinant DNA technique, showed clusters of N protein, but virtually no strand at electron microscopic levels. The rapid-freezing and deep-etching replica method demonstrated that loosely coiled VSV genome coated with N protein was localized on cytoplasmic sides of cell membranes in the infected cells. These results showed that complete virus genome replication was needed for strand formation of N and NS proteins and suggested that they were bound to VSV genomes in the infected cells.S. Ohno was a visiting fellow from the Fogarty International Center at the National Institutes of Health, while this work was in progress     

Immunocytological localization of the HNK-1 carbohydrate in murine cerebellum,hippocampus and spinal cord using monoclonal antibodies with different epitope specificities

The HNK-1 carbohydrate, an unusual 3′-sulfated glucuronic acid epitope characteristic of many neural recognition molecules, serves as a ligand in neural cell interactions and is differentially expressed in the quadriceps and saphenous branches of the femoral nerve in the PNS of adult mice. Based on these observations, we investigated the possibility that the HNK-1 carbohydrate may be differentially distributed in neurons and fiber tracts also in the CNS thereby contributing to different targeting and guidance mechanisms. We have used antibodies with different HNK-1 epitope specificities to probe for subtle differences in expression patterns. In the adult mouse cerebellum the HNK-1 carbohydrate is detectable in stripe-like compartments in the molecular and Purkinje cell layers, whereas N-CAM and its associated α2,8 polysialic acid does not show this compartmentation. In the adult hippocampus, the HNK-1 carbohydrate localizes to perineuronal nets of inhibitory interneurons and marks the inner third of the molecular layer of the dentate gyrus. In the adult spinal cord, HNK-1 labeling is most pronounced in gray matter areas. White matter enriched regions show differential labeling with regard to fiber tracts and antibody specificity. Whereas the different antibodies do not show differences in staining in the cerebellum and the hippocampus, they show differences in staining pattern of fiber tracts and motoneurons in the spinal cord. The HNK-1 expression pattern also differed in the adult spinal cord from that observed at embryonic day 14 and postnatal day 14. Our observations suggest a functional role in the specification of functionally discrete compartments in different areas of the CNS and during development.     

Immunocytochemical localization of rat intestinal vitamin D-dependent calcium-binding protein

Vitamin D-dependent calcium-binding protein (CaBP) was localized in intestinal tissue sections obtained from rats raised under three different nutritional conditions: a normal vitamin D-replete diet, a vitamin D-free diet followed by supplementation with vitamin D3, or a vitamin D-free diet without additional supplementation. An indirect immunoperoxidase technique, with immunocontrols, was used to visualize the specific sites of CaBP. CaBP was visualized only in the cytoplasm of absorptive cells. In the duodenum of animals raised on a normal diet, CaBP was present in absorptive cells from the upper crypt region to the villus tips. In the jejunum, many fewer absorptive cells contained CaBP, while in the ileum only random absorptive cells near the villus tips contained CaBP. In rats raised on a vitamin D-deficient diet then supplemented with vitamin D3, CaBP was present in cells at the full depth of the crypts and in absorptive cells along the total villus length in the duodenum. Rats raised on the same deficient diet but without supplementation with additional vitamin D exhibited no CaBP in crypt cells nor in absorptive cells more than half way up the villi. Absorptive cells higher on the villi contained immunoreactive CaBP but the intensity of immunostaining and number of CaBP-containing cells was markedly reduced compared to the vitamin D-supplemented group.     

Immunocytochemical characterization of glucagon-immunoreactive cells using monoclonal antibodies to pancreatic glucagon

Summary Monoclonal antibodies raised to pancreatic glucagon were tested for their ability to detect glucagon-containing endocrine cells in material processed for light and electron microscopy. Samples from man, baboon and rat were used in this investigation. Two antibodies were specific for the pancreatic islet A cells, the remainder detected both pancreatic and enteric endocrine cells.In man and baboon the glucagon-containing cells were confined to the pancreas, lower small intestine and colon. In the rat the distribution was extended to include the corpus of the stomach and the jejunum. The cells identified in the ileum and colon were of three morphological types endocrine, paracrine (type 1) with a single basal process and paracrine (type 2) with multiple small cytoplasmic processes.These antibodies also detected cells in material fixed by conventional methods for electron microscopy. The ultrastructural appearance of the baboon pancreatic glucagon-containing ultracellular secretory granules were demonstrated to be clearly distinct from those described previously in man and rat. The secretory granules averaged 330±23 nm and lacked the characteristic clear outer halo seen in the other two species.     

Immunocytochemical characterization of glucagon-immunoreactive cells using monoclonal antibodies to pancreatic glucagon

Monoclonal antibodies raised to pancreatic glucagon were tested for their ability to detect glucagon-containing endocrine cells in material processed for light and electron microscopy. Samples from man, baboon and rat were used in this investigation. Two antibodies were specific for the pancreatic islet A cells, the remainder detected both pancreatic and enteric endocrine cells. In man and baboon the glucagon-containing cells were confined to the pancreas, lower small intestine and colon. In the rat the distribution was extended to include the corpus of the stomach and the jejunum. The cells identified in the ileum and colon were of three morphological types endocrine, paracrine (type 1) with a single basal process and paracrine (type 2) with multiple small cytoplasmic processes. These antibodies also detected cells in material fixed by conventional methods for electron microscopy. The ultrastructural appearance of the baboon pancreatic glucagon-containing ultracellular secretory granules were demonstrated to be clearly distinct from those described previously in man and rat. The secretory granules averaged 330 +/- 23 nm and lacked the characteristic clear outer halo seen in the other two species.     

Cellular localization of insulin-degrading enzyme in rat liver using monoclonal antibodies specific for this enzyme

Although insulin-degrading enzyme (IDE) has been implicated in the intracellular degradation of insulin, the cellular localization of this enzyme is still controversial. In the present study, we have examined the cellular localization of IDE in the rat liver by three different techniques using monoclonal antibodies. First, direct immunohistochemical staining of rat liver with one of the monoclonal antibodies revealed that IDE immunoreactivity mainly exists in parenchymal cells, especially in the vicinity of the portal tract and also in the epithelium of the bile duct under light microscopy. In the electron microscopic study, IDE immunoreactivity was found in the cytoplasm near the rough endoplasmic reticulum but not in the plasma membrane, nucleus, or mitochondria. Second, immunoblotting analysis of the subcellular fraction in rat liver showed that the monoclonal antibody specifically reacted with a single polypeptide in the cytosolic fraction, of apparent Mr 110,000, which was consistent with the Mr of IDE. However, a polypeptide band corresponding to IDE could not be observed in the plasma membrane, mitochondrial, or lysosomal fraction. Third, IDE was only detectable in the cytosolic fraction by sandwich radioimmunoassay using two monoclonal antibodies. These results all suggest that IDE is a cytosolic enzyme.     

Ultrastructural localization of rat Clara cell 10 KD secretory protein by the immunogold technique using polyclonal and monoclonal antibodies

Using a monoclonal antibody and affinity-purified polyclonal antiserum against a 10 KD protein isolated from rat pulmonary lavage, we have localized the protein within Clara cells by a post-embedment protein A-gold technique. The gold particles were localized over the secretory granules of rat Clara cells. Ultrastructural immunolocalization was abolished when the primary antibodies were previously absorbed with purified 10 KD protein. Other pulmonary cells, including type II pneumocytes and ciliated cells, were negative with this technique. These results demonstrate the presence of the 10 KD protein in the secretory granules of the Clara cell and support the concept that this protein constitutes a specific and unique secretory product of Clara cells.     

Immunocytochemical localization of S-100 protein in the brain of adult rat

Summary The cellular and subcellular distribution of the nervous system-specific S-100 protein has been investigated in the brain of adult rat at the ultrastructural level by the pre-embedding unlabelled antibody PAP method. The protein is found in both fibrous and protoplasmic astrocytes and in the ependymal cells. The neurons, the oligodendrocytes as well as the microglial cells are lacking S-100. The labelled cells show a reaction product diffusely distributed in the cytoplasmic matrix and on specialized membranes, namely plasma membranes, outer mitochondrial membranes and membranes of the endoplasmic reticulum and Golgi apparatus. The astrocytic filaments and the axonemes of the ependymal cilia exhibit a strong immunoreactivity. The reaction product is also present in the nucleoplasm of the astrocytes and ependymal cells but it is absent from the nucleolus and nuclear envelope. This immunocytochemical data on tissue with satisfactory ultrastructural preservation, provides new information on the localization of the S-100 protein, and could contribute to the understanding of the biological role of the protein.     

Immunocytochemical localization of native chondroitin-sulfate in tissues and cultured cells using specific monoclonal antibody

Chondroitin-sulfate containing proteoglycan (CSPG) of the extracellular matrix (ECM) was visualized in chick tissues and cell cultures with a monoclonal antibody, CS-56. Cultured cells of various origins contained dense punctate layers of CSPG on both the substrate and the cell surface, as determined by immunofluorescent and immunogold staining. Under culture conditions the CSPG-containing matrix was usually excluded from stable cell-to-substrate focal contacts. The substrate-attached CSPG exhibited remarkable chemical stability but could be successfully removed by pronase or chondroitinases ABC and AC. Incubation of living cells with CS-56 antibodies resulted in the clustering of surface CSPG into patches, indicating that the surface-bound CSPG is free to move laterally along the plasma membrane. The unique properties of the CSPG-containing ECM revealed by CS-56 antibodies and their relationships to specific types of cell contacts are discussed.     

Immunocytochemical localization of aromatase in rat testis

The immunocytochemical localization of aromatase in the testes of young and adult rats was investigated by an indirect-immunofluorescent method using antihuman placental aromatase-II cytochrome P-450 antibody. In both young (1 and 2 weeks old) and adult rats, only the Leydig cells in the interstitial tissue showed a positive immunoreaction for aromatase, while the germ cells and Sertoli cells in the seminiferous tubule were entirely negative. In addition, electron microscopy revealed that the Leydig cells in the testes of young as well as adult rats have a well-developed smooth endoplasmic reticulum, mitochondria with tubulovesicular cristae, and a few lipid droplets, these structures being characteristic of steroid secretory cells. On the basis of these results, we suggest that estrogens are mainly synthesized in Leydig cells of the testes.     

Immunocytochemical localization of aromatase in rat testis

Summary The immunocytochemical localization of armatase in the testes of young and adult rats was investigated by an indirect-immunofluorescent method using antihuman placental aromatase-II cytochrome P-450 antibody. In both young (1 and 2 weeks old) and adult rats, only the Leydig cells in the interstitial tissue showed a positive immunoreaction for aromatase, while the germ cells and Sertoli cells in the seminiferous tubule were entirely negative. In addition, electron microscopy revealed that the Leydig cells in the testes of young as well as adult rats have a well-developed smooth endoplasmic reticulum, mitochondria with tubulovesicular cristae, and a few lipid droplets; these structures being characteristic of steroid secretory cells. On the basis of these results, we suggest that estrogens are mainly synthesized in Leydig cells of the testes.Supported by grants from the Ministry of Education, Science, and Culture, Japan, and USPHS HD 04945     

Immunocytochemical localization of pepsinogen in rat stomach

The localization of pepsinogen in rat stomachs was investigated by a postembedding immunoferritin method. When the preparations embedded in Epon were used, the secretory granules of chief cells were stained heavily and the granules of mucous neck cells were stained moderately. The secretory granules of cells intermediate between mucous neck cells and chief cells showed a bizonal staining; the electron dense parts were stained heavily and the electron lucent parts were stained moderately. The secretory granules of pyloric gland cells, on the other hand, were labeled faintly. However, the secretory granules of surface mucous cells, foveolar mucous cells, endocrine cells, cardiac mucous cells and cardiac serous cells were not stained by the method. The protein A-gold method showed a similar staining pattern of pepsinogen to that of the immunoferritin method. When the samples embedded in Lowicryl K4M were used to enhance the stainability of pepsinogen, essentially the same staining pattern as that of the samples embedded in Epon was obtained. In addition, the Golgi apparatus and the rough surfaced endoplasmic reticulum were more easily stained.