Endogeneous peroxidase activity in the frog thyroid gland

Summary The fine structural localization of the endogeneous peroxidase activity in the thyroid of the young frog was studied. The reaction product for peroxidase was observed over the peripheral luminal colloid and apical region of the follicular epithelial cell. Most apical small granules and some parts of Golgi lamellae and a few Golgi vesicles were specifically stained. The cisternae of rough endoplasmic reticulum and the nuclear cisternae did not demonstrate any positive reaction for peroxidase activity with difference from that of various cells of mammalia. In this study, only mature peroxidase seems to be positive for its reaction and the enzyme in the rough endoplasmic reticulum is considered to be too immature to react for DAB method in the frog thyroid cell. The relationship between the localization of peroxidase reaction and the site of the iodination of thyroglobulin was discussed.     

Cytochemical localization of peroxidase in soybean suspension culture cells and protoplasts: Intracellular vacuole differentiation and presence of peroxidase in coated vesicles and multivesicular bodies

Summary The ultrastructural localization of peroxidase in soybean (Glycine max L.) suspension culture cells and protoplasts is reported. In cells peroxidase is found primarily in the cell wall and at the tonoplast. Protoplasts and cells contain a vacuolar system which is differentiated with respect to peroxidase content since some vacuoles are found which do not contain peroxidase reaction product. The Golgi dictyosomes, coated and smooth vesicles contain peroxidase. Some of the multivesicular bodies have the reaction product as well. The results are discussed in terms of the pathways of sorting of peroxidase between the cell wall and vacuoles of cultured cells.     

Carbonic anhydrase histochemistry: Evidence for non-enzymatic reaction and artifact production

Summary The fine structural localization of histochemically demonstrable carbonic anhydrase (CA) has been studied in tissues of the rat with particular regard to the red blood cell and associated reactions. A variety of fixation methods, including immersion in warm solution for periods up to one week, were used. All methods showed a precipitate along the red cell plasma membrane, with less reaction inside the cell. Secondly, the pinocytotic vesicles of capillary endothelium, pericytes, and smooth muscle cells accumulated precipitate; this staining was independent of neighboring red cell activity. A third finding was filling of the extracellular space, accessible pinocytotic vesicles, and mesaxons of small nerves by dense material. None of these staining patterns appear to be mediated by enzyme activity; the first may represent CA localization via direct staining, but the others are probably artifacts typical of many systems which employ a simple heavy metal salt.     

FINE STRUCTURAL LOCALIZATION OF A BLOOD-BRAIN BARRIER TO EXOGENOUS PEROXIDASE

Horseradish peroxidase was administered to mice by intravenous injection, and its distribution in cerebral cortex studied with a recently available technique for localizing peroxidase with the electron microscope. Brains were fixed by either immersion or vascular perfusion 10–60 min after administration of various doses of peroxidase. Exogenous peroxidase was localized in the lumina of blood vessels and in some micropinocytotic vesicles within endothelial cells; none was found beyond the vascular endothelium. Micropinocytotic vesicles were few in number and did not appear to transport peroxidase while tight junctions between endothelial cells were probably responsible for preventing its intercellular passage. Our findings therefore localize, at a fine structural level, a "barrier" to the passage of peroxidase at the endothelium of vessels in the cerebral cortex. The significance of these findings is discussed, particularly with reference to a recent study in which similar techniques were applied to capillaries in heart and skeletal muscle.     

Fine structural localization of peroxidase activity in the epithelium and the gland of the rat larynx

Summary Endogenous peroxidase activity was demonstrated in ciliated cells and secretory cells of the laryngeal epithelium and gland of rats, using the diaminobenzidine method for cytochemical demonstration of peroxidase activity. The intensity of peroxidase activity was greatly varied from cell to cell, but the fine structural localization of the activity was similar in various cell types. The activity was localized in cisternae of rough-surfaced endoplasmic reticulum including nuclear envelope, some vesicles and saccules of the Golgi complex, large membrane-limited granules, multivesicular bodies and probable lysosomes. In secretory cells, the activity was also found in secretory granules.The significance of peroxidase activity is not unclear, while the activity, at least a part of it, seems to be secreted into the cavity of the larynx. The possibility that peroxidase participates bactericidal mechanism, deserves further investigation.     

Ultrastructural localization of cholesterol by enzyme histochemistry

Summary The histochemical localization of cholesterol using oxidized diaminobenzidine as the final reaction product was studied at the electron microscopical level and compared with the digitonin method of cholesterol localization based on cholesterol digitonide as the final reaction product. Tissue chopper sections of fixed rat adrenal glands were incubated at 37° C in a medium consisting of 0.8 units/ml cholesterol oxidase, 1.4 units/ml cholesterol ester hydrolase, 50 units/ml horseradish peroxidase, 0.5 mg/ml diaminobenzidine, 0.1% v/v Triton X-100 (or Surfal) and an endogenous peroxidase inhibitor in 0.1m phosphate buffer, pH 7.0. An electron-dense osmiophilic reaction product was observed in many lipid droplets, intracellular vesicles and focally around mitochondria. Appropriate control experiments indicated that deposition of reaction product depended on the presence of cholesterol and the necessary enzymes. Comparison studies using digitonin confirmed the presence of cholesterol in the lipid droplets, but ultrastructural distortion limited the resolution of the more discrete deposits of cholesterol such as around mitochondria. The enzyme method permits finer resolution of these discrete deposits of cholesterol than the digitonin method because it does not cause distortion of cellular ultrastructure attributed to the formation of cholesterol digitonide. The enzyme method or a combination of enzyme and digitonin enables localization of free, esterified or total cholesterol.     

Intracellular transport of albumin through the secretory apparatus of rat liver parenchymal cells. An immunocytochemical study

The fine structural localization of albumin in rat liver parenchymal cells was determined by an improved immunocytochemical method and serial sectioning. Albumin in the secretory apparatus of the parenchymal cells was present in segments of the rough endoplasmic reticulum, interrupted with negative segments, in transport vesicles, Golgi saccules, finely anastomosed tubules and vesicles on the trans side of the Golgi complex, and in secretion granules. Horizontally sectioned Golgi saccules contained lipoprotein particles on one side and albumin on the other side. After transport, the vesicles that contained albumin fused with the so-called rigid lamellae on the trans-side of the Golgi complex. Ultrathin serial sections revealed no true structural continuity between the endoplasmic reticulum and the cis-aspect of the Golgi complex. We concluded that secretory proteins are transported from the endoplasmic reticulum to the Golgi complex by transport vesicles that bud from the endoplasmic reticulum and fuse with the Golgi saccules. These vesicles fuse regularly with the Golgi saccules on the cis-side and occasionally with tubular elements on the trans-aspect that may belong to the so-called GERL.     

Immunochemical localization of epididymal protein DE on rat spermatozoa: Its fate after induced acrosome reaction

The localization of rat epididymal protein DE on cauda epididymis spermatozoa was studied with a specific antibody and the peroxidase antiperoxidase (PAP) immunocyto-chemical reaction. At the light microscopic level, all spermatozoa appeared to be labeled over the dorsal portion of the head, whereas tails were negative. This observation was confirmed using scanning electron microscopy. A large number of particles were seen on the external surface of the plasma membrane covering the acrosomal region and a smaller number on the postacrosomal portion. Flagella appeared free of particles. Sperm suspensions were incubated in conditions that induce capacitation and the acrosome reaction, and, in this instance, the permanence of protein DE on the vesicles and the postacrosomal region of the membrane were observed. The localization of this epididymal protein on the sperm surface is compatible with a role in the gamete interaction process.     

Immunocytochemical localization of soluble protein in the adrenal medulla

Synopsis An indirect immunocytochemical technique (Nakane, 1970) was employed to localize the soluble proteins purified from lysates of catecholamine (CA)-containing vesicles of the bovine adrenal medulla. Antiserum to the proteins, produced in rabbits, was used for incubation of sections of bovine adrenal tissue prepared by fixation in glutaraldehyde and embedding in serum albumin (McLean & Singer, 1970). The site of the antigen-antibody complex was visualized by incubating the sections with anti-rabbit -globulin (goat) conjugated to peroxidase, followed by the deposition of electronopaque reaction product generated by the enzyme. The reaction product, also visible at the level of the light microscope, appeared to have a distribution similar to that of the CA-storage vesicles. Electron microscopic examination revealed that nearly all the reaction product was deposited over the electron-opaque core of the vesicles. The intravesicular localization is consistent with the proposal that these proteins exist primarily in the CA-containing granular vesicle and may function to stabilize the CA-storage complex.     

Immunoelectron microscopic study of polyamines in the gastrointestinal tract of rat

Polyamines (PAs) are ubiquitous polycationic metabolites in the eukaryotic and prokaryotic cells and are believed to be intimately involved in the regulation of DNA, RNA, and protein biosynthesis. However, the subcellular localization of PAs has not yet been fully elucidated in a variety of cell types. In the present study, a pre-embedding indirect immunoperoxidase approach was used to define the fine structural localization of PAs in the gastrointestinal tract of rat, which was fixed with glutaraldehyde and the monoclonal antibody ASPM-29 specific for spermine (Spm) and spermidine (Spd). Examination by a transmission electron microscopy showed that the peroxidase end products were commonly and predominantly localized in the free and attached ribosomes of the rough endoplasmic reticulum (rER) in the active protein- or peptide-secreting cells, and in rapidly proliferating cells including the gastric chief cells, mucous neck cells, and intestinal crypt cells. The nuclei, mitochondria, and secretory vesicles were devoid of PAs. Of note is the new finding that PAs are also located even on the small number of ribosomes in the cytoplasm of the parietal cells and of the villus-tip cells, because these were the cell types that were found to be almost PA-negative at the light microscopic level. These results seem to be completely consistent with those recently obtained for rat neurons. Thus, the present study generalized the subcellular localization of PAs on the ribosomes, and demonstrated that PAs are one of the components of biologically active ribosomes, possibly in any type of cell, that are closely involved in the translation processes of protein biosynthesis.     

Ultrastructural investigation of ACTH immunoreactivity in arcuate and supraoptic nuclei of the rat

Summary Fine structural localization of an ACTH-like substance was obtained in neurons of the rat arcuate nucleus using immuno-electron microscopy, whereas it could not be confirmed that ACTH-containing cell bodies are present in the supraoptic nucleus. The immunoreactive cells of the arcuate nucleus appeared to be more numerous than the unreactive neurons. Immunostaining was carried out before embedding in resin. Empty vesicles of irregular shape were found in dendrites of immunoreactive arcuate neurons, but their significance and nature remain enigmatic. The reaction product was distributed uniformly throughout the cytoplasm of the ACTH-positive cells, except that the mitochondria, rough endoplasmic reticulum and Golgi vesicles and cisternae were devoid of PAP molecules. This distribution differed from the localization reported in ACTH-secreting cells of the rat anterior pituitary, where the reaction product was found in the rough endoplasmic reticulum and Golgi complex as well as in secretory granules.     

THE FINE STRUCTURAL LOCALIZATION OF ENDOGENOUS AND EXOGENOUS PEROXIDASE ACTIVITY IN KUPFFER CELLS OF RAT LIVER

Endogenous peroxidase activity has been demonstrated in sections of rat liver fixed briefly by glutaraldehyde perfusion and incubated in Graham and Karnovsky's medium for cytochemical demonstration of peroxidase activity (29). In 25–40% of sinusoidal cells, an electron-opaque reaction product is localized in segments of the endoplasmic reticulum, including the perinuclear cisternae, a few Golgi vesicles and saccules and in some large membrane-bounded granules. This staining is abolished after prolonged fixation or boiling of tissue sections in glutaraldehyde, and in the absence of H₂O₂ or DAB from the incubation medium. Furthermore, the reaction is inhibited completely by sodium azide and high concentrations of H₂O₂, and partially by KCN and aminotriazole. Among the different cells in hepatic sinusoids, the nonphagocytic "fat-storing" cells (39) are always peroxidase negative, whereas the lining cells in process of erythrophagocytosis are consistently peroxidase positive. The possible biological significance of endogenous peroxidase in Kupffer cells is discussed. In addition, the uptake of exogenous horseradish peroxidase by Kupffer cells has been investigated. The exogenous tracer protein, which in contrast to endogenous peroxidase of Kupffer cells is not inhibited by prolonged aldehyde fixation, is taken up by micropinocytosis and remains confined to the lysosomal system of Kupffer cells. The significance of these observations in respect to some recent studies suggesting localization of exogenous peroxidases in the endoplasmic reticulum of Kupffer cells and peritoneal macrophages (22, 23) is briefly discussed.     

Immunohistochemical evidence for neuronal and non-neuronal synthesis of GABA in the rat subcommissural organ

In the past few years, several studies have demonstrated in the rat subcommissural organ the presence of nerve endings and modified ependymocytes showing an uptake of [³H]GABA. The present work was performed to demonstrate in this cerebral zone the possibility of a GABA synthesis by the immunohistochemical localization of glutamate decarboxylase (GAD). GAD-positive reaction was detected with unlabelled antibody-enzyme peroxidase anti-peroxidase. Some nerve terminals containing either clear round vesicles, or sometimes clear round vesicles and some large granular vesicles, exhibited a positive staining. These terminals could belong to GABAergic inputs in the subcommissural organ. The few reactive terminals containing some granular vesicles could be related to the serotoninergic input as suggested previously (Gamrani et al., 1981). Several ependymocytes of this structure contained GAD-like positive reaction; these cells are also capable of taking up [³H]GABA (Gamrani et al., 1981) and present neuronal properties with regard to GABA. However, the presence in their cytoplasm of enolase, a specific glial marker, related them to glial elements. The presence of GABA in these ependymocytes suggests a modulating function of GABA on the secretory activity of the subcommissural organ.     

Biochemical and cytochemical studies of digestive-absorptive functions of esophagus, cecum, and tequment in Schistosoma mansioni: acid phosphatase and tracer studies.

Acid phosphatase activity was examined, both cytochemically and biochemically, using beta-glycerophosphate (betaGP) and p-nitrophenyl phosphate (NPP) as substrates. The hydrolysis of these substrates differs in pH optimum and sensitivity to some inhibitors. A latent component of the enzyme activity could be demonstrated with betaGP but not with NPP as substrate. These differences suggest the presence of multiple enzymes operative at acid pH in S. mansoni. Cytochemical localization of the sites of hydrolysis of these substrates shows the major activity of the digestive system to be in the posterior portion of the esophagus and in the cecum. The reaction product in the posterior esophagus is found in small dumbbell-shaped vesicles and in the basal infoldings, while in the cecum it occurs on the apical plasmalemma, basal infoldings, and in pleiomorphic vesicles. The electron-dense tracers, ferritin, peroxidase, Thorotrast, and latex beads were all ingested but none was phagocytized. Tracer material was found in some "apparent" vesicles with subsequently were shown by the lanthanum staining technique to be in communication with the extracellular space.     

An electron microscopic study of absorption of peroxidase-conjugated immunoglobulin G by guinea pig visceral yolk sac in vitro.

In the guinea pig and some other animals, passive immunity is conferred on the developing fetus by passage of immunoglobulin from mother to fetus across the yolk sac. In order to examine the cytological pathway involved in immunoglobulin transport, guinea pig visceral yolk sacs from late in gestation were exposed in vitro to peroxidase-conjugated guinea pig immunoglobulin G (IgG-HRP). Tissue was then fixed, incubated to show the site of localization of peroxidase reaction product and prepared for electron microscopy. The results suggested that the first step in the uptake of IgG-HRP by yolk sac is attachment of the protein to the surface coats of endocytic invaginations at the apical surfaces of the endodermal cells. The endocytic vesicles then appear to pinch off from the surface and move deeper into the cytoplasm. Some of the small endocytic vesicles fuse with large apical vacuoles, which often contain large amounts of reaction product. Other small endocytic vesicles pinch off from the surface, move deeper into the cytoplasm and fuse with the lateral plasmalemma; their protein content is emptied into the intercellular space by exocytosis. From the intercellular spaces the protein presumably diffuses across the basement membrane and connective tissue spaces and enters the vitelline capillary bed. It is postulated that the latter cellular pathway, involving small vesicles and the intercellular spaces, is utilized by those immunoglobulins which are transferred intact across the yolk sac endoderm.     

Electron microscopic autoradiography for demonstration of pineal serotonin in rat

Summary The fine localization of rat pineal serotonin has been studied by means of electron microscopic autoradiography. Two hours after the intravenous injection of tritium labelled 5-hydroxytryptophan, the location of large number of silver tangled threads is seen in the sympathetic nerve terminals. There is also a less specific accumulation of the silver grains in the pinealocytes, some appearing in the cytoplasmic organelles and some in the nucleus.In quantitative terms, 43% of the total count of silver grains were in the nerve endings whereas pinealocytes, which comprise a much larger volume of the section, contain a proportionally much smaller number of silver particles (53%). Furthermore the perivascular spaces, which comprise a larger percentage in volume of the section than the nerve endings has nevertheless only about 4% of the grains counted.Although the precise localization of the silver grains is obscure, the reaction of the granulated vesicles in the nerve terminals to the double fixation used, is similar to that shown by the extremely dense material in vesicles of platelets, which was demonstrated to contain serotonin. The results therefore suggest that the silver grains appearing in the nerve terminals two hours after the administration of 5-hydroxytryptophan are in the serotonin binding site in the axon terminals, containing the granulated vesicles.     

Fine structural localization of thiamine pyrophosphatase and acid phosphatase activities in the mouse pancreatic acinar cell

The fine structural localization of thiamine pyrophosphatase (TPPase) and acid phosphatase (AcPase) was examined in pancreatic acinar cells of fasting and fed mice. The results were not affected by these conditions. TPPase activity was positive in two and sometimes three cisternae of the inner Golgi lamellae as well as in the condensing vacuoles of the trans area, but negative in the rigid lamellae and small vesicles of the trans area. AcPase activity was demonstrated in two and sometimes three cisternae of inner Golgi lamellae, condensing vacuoles, rigid lamellae, lysosomes and smooth or coated vesicles in the trans area. The inner Golgi lamellae and the condensing vacuoles were positive for both enzyme activities. From these facts, the lysosome is considered to be formed not only in the GERL system but also through the rough endoplasmic reticulum-Golgi apparatus route. It is reasonable to consider that Novikoff's GERL is not independent from the Golgi apparatus but represents a part of this organelle.     

Uptake of horseradish peroxidase by bone cells during endochondral bone development

Summary To investigate the mechanisms whereby bone cells absorb organic bone-matrix components during endochondral bone development, rat humeri were examined, employing horseradish peroxidase as a soluble protein tracer.Intravenously-injected peroxidase filled the osteoid layer and penetrated into the osteocyte lacunae and canaliculi, but did not enter the mineralized bone matrix. Whereas osteocytes rarely took up exogenous peroxidase, osteoblasts and osteoclasts actively endocytosed peroxidase in pinocytotic coated vesicles, tubular structures, and vacuoles. They also formed endocytotic vacuoles containing peroxidase in the Golgi area. The Golgi apparatus and dense bodies of these bone cells were, however, free of reaction products. Osteoclast ruffled borders were responsible for peroxidase absorption. In the osteoblast, osteocyte and osteoclast, endogenous peroxidatic reaction was detected only in mitochondria and not in other membrane-bounded vesicles and bodies. These results strongly suggest that both osteoblasts and osteoclasts participate in the resorption of bone-matrix organic components during bone remodelling.     

An electron microscopic study of the permeability of iris capillaries to horseradish peroxidase in the vervet monkey (Cercopithecus aethiops)

Summary Anesthetized vervets were given intravenous injections of horseradish peroxidase. Subsequent studies of iris capillaries with the electron microscope showed peroxidase reaction product within the lumen of the vessels and in endothelial vesicles, but no peroxidase had penetrated the vascular endothelium. The normal ultrastructure of the vascular wall was retained.     

Permanganate fixation demonstrates the monoamine-containing granular vesicles in the SIF cells but not in the adrenal medulla or mast cells

Summary Three types of monoamine-storing cells were fixed with permanganates and analyzed ultrastructurally. The SIF cells contained the typical granulated vesicles characteristic of monoamines. On the other hand, both the catecholamine-storing cells in the adrenal medulla and the mast cells were devoid of a dense core in their monoamine vesicles. This is surprising, since permanganate is considered a reliable means of demonstrating monoamines at the fine structural level. The significance of this finding is discussed against the close relationship between SIF cells and cells of the adrenal medulla. Because permanganate as a fixative is widely used in monoamine fine structural cytochemistry, the present findings undoubtedly need further clarification.