Histochemical localization of acid and alkaline phosphatases and glucose-6-phosphatase of the hepatopancreas of the crab, Scylla serrata (Forskål)

Simultaneous histochemical localization of non-specific monophosphate esterases, acid and alkaline phosphatases, as well as a specific monophosphate esterase, glucose-6-phosphatase has been made on the hepatopancreas of the marine crab, Scylla serrata (Forskål). Maximum activity of the 3 enzymes was observed in the juvenile and mature absorptive cells. Lining cells of the main hepatopancreatic duct exhibited a moderate activity of the 3 enzymes whereas the embryonic and fibrillar cells and connective tissue of the gland showed negative reactions for the 3 enzymes. The secretory cells showed a positive reaction for these enzymes only at the brush border.Bilateral eyestalk removed evoked a rise in the activity of the 3 enzymes within 2–4 h. The same effect was observed after injection of eyestalk extract to both normal and eyestalkless animals followed by restoration to the normal level after 24 h.The present observations indicate that glucose-6-phosphatase and acid phosphatase may be under the direct influence of eyestalk hormone(s) while alkaline phosphatase activity appears to be related to changes in the substrate. The physiological significance of the various cell types and enzymes is discussed.     

The enzyme histochemistry of the pineal gland in rats

Synopsis The enzyme histochemistry of the adult rat pineal is reviewed with particular reference to the probable endocrine activity of this organ. The parenchymal cells contain large amounts of oxidative enzymes and non-specific esterase, rather less leucine amino peptidase and acid phosphatase, and only small amounts of phosphorylase and alkaline phosphatase. In addition, high concentrations of alkaline phosphatase are present in the walls of capillary vessels. Leucine aminopeptidase is also seen in the connective tissue around blood vessels.     

Qualitative and quantitative histochemical changes in the caecum and liver of turkeys infected with Histomonas meleagridis.

Changes in the amount and distribution of acid and alkaline phosphatase, non-specific esterase, glycogen, lipid and acid mucopolysaccharide in the caecal wall and liver of turkey poults infected with Histomonas meleagridis have been studied histochemically. A microdensitometer was used to measure changes in activity and distribution of acid phosphatase and non-specific esterase in the caecal mucosa. During the course of the infection there is a marked reduction in activity and distribution of acid phosphatase and non-specific esterase but little change in the amounts and distribution of alkaline phosphatase, glycogen, lipid and acid mucopolysaccharide in the wall of the main part of the caecum. Similar, but smaller, changes occurred in the wall of the neck region of the caecum. In the liver most changes occurred in the immediate vicinity of the parasites. Initially, there was a reduction in the amount of glycogen in the parasitic lesions but later in the infection there was a marked loss of glycogen in all regions of the liver. Changes in the caecum are apparently brought about by the parasite prior to and after invasion of the caecal tissues; changes in the liver occur after it has been invaded.     

Histochemistry of the development of the digestive system of Siberian sturgeon during early ontogeny

At hatching, the yolk-sac matrix of Siberian sturgeon Acipenser baeri contained neutral glycoconjugates, glycogen, proteins rich in arginine, lysine, tyrosine, cysteine and cystine, glycoproteins containing mannose (Man) and/or glucose (Glc), N -acetyl-D-galactosamine (GalNAc), L-fucose (Fuc), sialic acid and/or N -acetyl-D-glucosamine (GlcNAc) residues, as well as neutral and acidic lipids. Buccopharyngeal and anterior oesophageal goblet cellls produced a combination of neutral and acid sialoglycoproteins, while those from the posterior oesophagus secreted only neutral glycoproteins; both types of secretions contained tryptophan and -S-S- groups and were unreactive to lectin techniques. Most intestinal goblet cells secreted mainly carboxylated and sulphated sialoglycoproteins with some rests of neutral glycoconjugates, while few of them produced only acid or neutral glycoproteins. Intestinal glycoproteins were rich in GalNAc, GlcNAc and sialic acid residues. Close relationships between digestive enzymes and morphological development of digestive organs were observed. Histochemistry of enzymes revealed that just after hatching, alkaline and acid phosphatase, ATP -ase and non-specific esterase activities were detected in the yolk sac. From the onset of exogenous feeding to the juvenile stage (30 days post-hatch), an enhancement of enzymatic activities was observed, as alkaline and acid phosphatase, ATP -ase, aminopeptidase M and nonspecific esterase sharply increased. However, lipase activity decreased in the liver and brush border of enterocytes by 13–14 days post-hatch. Two types of lipase were detected in the alimentary canal, a non-pancreatic lipase that was secreted in the cardiac stomach by gastric glands, and a pancreatic lipase, which activity was mainly detected in the brush border of the intestinal epithelium.     

Enzymes in the epidermis of Natrix piscator during its sloughing cycle

Acid phosphatase, non-specific esterase, alkaline phosphatase, monoamine oxidase and true lipase activities, in the epidermis of Natrix piscator in different stages of the sloughing cycle, have been localized using various histochemical techniques.
Different layers in scale epidermis have staining properties similar to corresponding layers in hinge epidermis.
Acid phosphatase and non-specific esterase activity in cell layers undergoing keratinization, and the lacunar tissue undergoing disintegration are associated with hydrolytic and catabolic wasting processes involving cell death. The activity of these enzymes in the clear layer is associated with the breaking down of the cementing substance resulting in the separation of clear layer from underlying tissue and facilitating the shedding of old slough.
Alkaline phosphatase activity in the stratum germinativum and undifferentiated epidermal cells has been associated with cell proliferation and differentiation. The presence of alkaline phosphatase in the lacunar tissue and clear layer has been correlated with the synthesis of mucopolysaccharides in these layers.
Monoamine oxidase and true lipase activity could not be located in the epidermis at any stage of the sloughing cycle.     

Studies on the rabbit appendix. I. Lymphocyte-epithelial relations and the transport of bacteria from lumen to lymphoid nodule

The proventriculus of White Leghorn chick embryos (stages 29–45) newly-hatched chicks, and adult chickens were frozen, sectioned in a cryostat and treated histochemically to identify localizations of alkaline and acid phosphatase, adenosine triphosphatase, 5-nucleotidase, nucleotide-diphosphatase, non-specific glycerophosphatase, glucose-6-phosphatase, non-specific esterase and succinic dehydrogenase. Ribonucleic acid, proteins and acid mucopolysaccharides were identified in tissues fixed in FAA. Acid phosphatase, nucleotide-diphosphatase, adenosine triphosphatase, succinic dehydrogenase, ribonucleic acid and proteins were present in the cells of the deep glands at all stages of development. Alkaline phosphatase and 5-nucleotidase were found only in mesenchymal derivatives of the proventriculus. After the chick begins swallowing and digesting albumen, enzymatic activity increased and non-specific esterase became very reactive. The surface epithelium is covered with a mucous coat. Ribonucleic acid, non-specific esterase, acid phosphatase and nucleotide-diphosphatase were localized in the basal portions of the epithelial cells. The functional significance of these different patterns is discussed.     

Histochemical studies of some enzymes in the tissues of the schistosome vector snailBulinus truncatus (Audouin) with special reference to the effects of a molluscicide. II. Hydrolases

Summary Accomparative study of six hydrolases, acid and alkaline phosphatases, aryl sulphatase, -gluchronidase cholinesterase, and non-specific esterase, was carried out on the tissues of normal healthy and Frescon-treatedBulinus. The presence and activity of these enzymes in the tissues of normal animals were taken to indicate the probale functions of the tissues concerned. Frescon administration caused inhibition of acid phosphatase and also induced the release of cholinesterase and non-specific esterase in some tissue. It is concluded that the most important effects of Frescon on snail physiology are the disorganization of neuronal function and disturbance of olfactory activity.     

Human bone cell enzyme expression and cellular heterogeneity: correlation of alkaline phosphatase enzyme activity with cell cycle

Alkaline phosphatase, long implicated in biomineralization, is a feature of the osteoblast phenotype. Yet in cultured bone cells, only a fraction stain positive histochemically. To determine whether osteoblast enzyme expression reflects cellular heterogeneity with respect to cell cycle distribution or length of time in culture, the activities of alkaline phosphatase, tartrate-resistant and -sensitive acid phosphatases, and non-specific esterases were assayed kinetically and histochemically. In asynchronous subconfluent cultures, less than 15% of the cells stained positive and assayed activity was 0.04 IU/10(6) cells/cm2. After 1 week, the percent of alkaline phosphatase positive-staining cells increased 5-fold, while activity increased 10-fold. Non-specific esterases and tartrate-sensitive acid phosphatase were constitutive throughout time in culture, whereas tartrate-resistant acid phosphatase activity appeared after 2 weeks. Cell cycle analysis of human bone cells revealed a growth fraction of 80%, an S phase of 8.5 h, G2 + 1/2 M of 4 h, and a G1 of 25-30 h. In synchronous cultures induced by a thymidine-aphidicolin protocol, alkaline phosphatase activity dropped precipitously at M phase and returned during G1. A majority of the alkaline phosphatase activity lost from the cell surface at mitosis was recovered in the medium. Tartrate-sensitive acid phosphatase and non-specific esterase levels were relatively stable throughout the cell cycle, while tartrate-resistant acid phosphatase activity was not assayable at the density used in synchronous cultures. From these data, variations in alkaline phosphatase activity appear to reflect the distribution of cells throughout the cell cycle.     

A comparison between osmiophilic reagents and the Gomori lead method for the electron cytochemical demonstration of two lysosomal enzymes in oral epithelium

Synopsis Osmiophilic reagents were used to study the histochemical localization of acid phosphatase and non-specific esterase in the keratinized oral mucosa of rat. The reaction product from both enzymes was found in the epithelium and in cells of the corium as discrete granules, suggestive of a lysosomal localization. Treatment with E-600 before incubation for non-specific esterase did not change this localization. The osmium black end-product, due to acid phosphatase activity, was examined with the electron microscope and compared with the localization obtained by the Gomori lead phosphate technique. Both methods produced a reaction product in membrane-bounded bodies resembling lysosomes, as described in other tissues. These organelles were present in the basal prickle and granular cell layers of the epithelium. In the keratinized layer the reaction product was localized between the cell membranes of the deeper cells and no deposits were present in the cells. It is suggested that the osmiophilic reagents provide a good alternative to the Gomori method for the localization of lysosomal acid phosphatase at both the light and electron microscope levels.     

The localization of enzymes in the cotyledons of Pisum arvense L. during germination

Summary Enzyme activity is not uniformly distributed through the cotyledon of Pisum arvense. Initially the peripheral region, certain scattered cells of the storage tissue and the procambium show a high level of activity of succinic dehydrogenase, cytochrome oxidase, acid phosphatase and esterase. Activity of acid phosphatase declines sharply after the first day of germination; activity of the other enzymes declines after about three days. In the storage tissue, where activity is lower initially, it declines after about five days and is correlated with the disappearance of the reserves. The pattern of alkaline phosphatase activity is similar except that activity is lower in the procambium but increases in the sieve-elements during differentiation of the phloem. 5-nucleotidase and glucose-6-phosphatase activity is low throughout the cotyledon but it also increases to a significant level in the sieve-elements. Activity of starch synthesizing enzymes is high in the parenchymatous bundle sheath, where they may be involved in the pathway from lipids to soluble carbohydrates.     

The presence and activity in normal and regenerating rat liver postmicrosomal supernatant fraction of an enzyme with properties similar to those of membrane-bound 5''-nucleotidase.

An alkaline 5'-nucleotidase with properties similar to those of membrane-bound 5'-nucleotidase was recovered in soluble form in the postmicrosomal supernatant fraction (cytosol) of rat liver. The enzyme seems to constitute a quantitatively distinct fraction, since the activity in postmicrosomal supernatants was increased by a further 10% by additional homogenization of livers. Lysosomal acid phosphatase activity increased similarly, whereas other membrane-bound marker enzymes alkaline phosphatase, phosphodiesterase I and glucose-6-phosphatase showed no increase when homogenization of liver tissue was continued. Gel-permeation chromatography and pH-dependence studies indicated that enzyme activity in the supernatant fraction with 0.3 mM-UMP or -AMP as substrate at pH 8.1 was about 85 or 100% specific respectively. In regenerating liver the enzyme recovered in soluble form showed decreased specific activity, in contrast with alkaline phosphatase measured for comparison. The nucleotidase activity per mg of cytosolic protein was 2.1 nmol/min with AMP as substrate. The total activity measured in the postmicrosomal supernatant was 1.5% of the homogenate activity measured in the presence of detergent.     

An Enzyme Histochemical Investigation of the Intestinal Mucosa in Diarrheic Calves

Selected enzymes were examined in the small intestine of twelve 2–5 week-old calves, 8 with diarrhea and 4 convalescents. The diarrheic calves showed a reduction of enzyme reactions mainly in the duodenum and middle small intestine, and the crypt reactions appeared most severely affected. In the duodenum, villous alkaline phosphatase, adenosine triphosphate-(ATP)-splitting enzyme, and β-D-galactosidase were reduced in 3 calves; the reaction in the corresponding crypts was decreased in 6 calves for the ATP-splitting enzyme and in 4 calves for the β-D-galactosidase. Six calves showed decrease of villous brush border acid phosphatase, and 3 of villous non-specific esterase. In the middle jejunum, villous ATP-splitting enzyme was reduced in 3 calves, while 5 showed decrease of the corresponding crypt reaction. Convalescents had no enzyme reduction in the duodenum, whereas 1 showed marked reduction of the ATP-splitting enzyme and aminopeptidase in the middle and posterior jejunum. The decreased enzyme reactions in the present material may be caused by immaturity of epithelial cells associated with regenerative crypt hyperplasia and/or microbial destruction of enzymes.     

Histochemical demonstration of changes in liver cell enzymes following infection with mouse hepatitis virus

Summary Changes in liver enzymes of Weanling CDF1 mice inoculated with mouse hepatitis virus (MHV3) were studied by histochemical techniques for the demonstration of alkaline phosphatase, acid phosphatase, and esterase. Marked changes were observed in the distribution of these enzymes 22 to 70 hours after infection. These included a generalized increase in peribiliary alkaline phosphatase together with a localized increase in acid phosphatase and a decrease in esterase associated with parenchymal damage and subsequent necrosis. Thus the effect of a virus infection upon a given tissue can be revealed and characterized by histochemical techniques.With 4 Figures in the Text     

Histochemical findings in the rat gastric mucosa during starvation

Summary The influence of starving on the activity of enzymes of the rat gastric mucosa was investigated by selected histochemical methods. Beside the conventional methods of enzymatic histochemistry the technique of semipermeable membranes was used in the proof of lysosomal enzymes. Dehydrogenases were proved in aqueous and also in gel media with PMS.During the starvation in the parietal cells a marked increase took place in the activity of acid phosphatase, E-600 resistant esterase, less in -glucuronidase. High activity of the lysosomal enzymes in macrophages did not change during starvation. Nor did any changes took place in the activity of alkaline phosphatase in the endothelium of the capillaries. The chief cells in the control and starving animals, in contrast to the human gastric mucosa, did not contain any non-specific esterase. Concerning dehydrogenase, parietal cells with a different activity of these enzymes were observed both in starved and control animals.In the rat gastric mucosa starving induced changes in the activity of the enzymes which mark important organelles of the cells. Thus it is possible to consider the observed histochemical changes as a functional manifestation of morphological damage of cellular structures which are affected during starvation.     

Tetrazolium methods for the histochemical investigation of hydrolases (author's transl)]

Using freeze-dried or sections from fresh-frozen or aldehyde-fixed material nitro BT (NBT), tetranito BT (TNBT), distyryl nitro BT (DS-NBT), thiocarbamyl nitro BT (TC-NBT) or benzothiazolylstyrylphthalhydrazidyl tetrazolium chloride (BSPT) were tested as auxiliary reagents for the localization of glycosidases, phosphatases and non-specific esterases with indoxyl substrates in rat tissues. By means of NBT or TNBT as a tetrazolium salt acid beta-D-galactosidase, beta-D-N-acetylglucosaminidase, acid phosphatase, neuraminidase and non-specific esterase can only be localized at the cellular level; a more precise localization is possible for lactase-beta-D-glucosidase in the intestinal brush border, and the best results are obtained in the demonstration of alkaline phosphatase; among all methods described previously the tetrazolium procedure with TNBT is the method of choice for the light microscopic localization of this enzyme. Reverse data are observed with BSPT as a tetrazolium salt; then, all acid and neutral hydrolases can be exactly localized in lysosomes, secretion granules, cytoplasm and/or microvilli of many cells and tissues provided BSPT-formazan is stabilized by osmification. Furthermore, this procedure enables the reliable ultracytochemical demonstration of these enzymes. However, in the case of alkaline phosphatase only sites with high enzyme activity reveal a positive reaction. -DS- and TC-NBT are inferior to NBT, TNBT or BSPT.     

Studies on the mechanism of the increase in serum alkaline phosphatase activity in cholestasis: significance of the hepatic bile acid concentration for the leakage of alkaline phosphatase from rat liver

In experimental bile obstruction the serum activities of the membrane-bound liver enzymes, alkaline phosphatase, 5'-nucleotidase and gamma-glutamyltransferase are greatly increased, whereas in the liver only the alkaline phosphatase activity is elevated. After partial hepatectomy or tetrachloride poisoning the alkaline phosphatase activity in the regenerating live is increased to the same extent as in cholestasis without an accompanying elevation in serum activity. The following results support the hypothesis of a bile salt-mediated solubilization of membrane-bound enzymes in cholestatic liver: (1) 30 min after bile duct ligation the total bile acids in the liver were increased 5-fold, 2 h later as much as 10-fold. After 1 day, the bile acid concentration was still 4 times above normal. (2) Isolated plasma membranes from normal and obstructed livers were incubated in vitro with increasing amounts of tri- and dihydroxycholanic acids. At a final concentration of 1 mmol/l taurochenodeoxycholate significant amounts of membrane-bound enzymes were released into the 12,000-g supernatant. (3) In the regenerating liver, where tissue phsophatase activity was high and serum phosphatase activity unchanged, the bile salt concentration was not increased.     

Histochemical distribution of digestive enzymes in intestine of goldline, Sarpa salpa L. 1758

Histochemical localization of non‐specific esterase, alkaline and acid phosphatase in the intestine of free‐living goldline (Sarpa salpa L. 1758) was investigated. Fish were caught in the vicinity of the town of Zadar (Adriatic Sea, Croatia), and samples of three parts of the intestine proper (anterior, middle and posterior) as well as the rectum were used for presentation of non‐specific esterases, alkaline phosphatase and acid phosphatase. Non‐specific esterase activity was found in the cytoplasm and brush border of enterocytes in all investigated intestinal segments and the rectum. The activity was stronger in the middle and posterior part of the intestine but weaker in the anterior segment of the intestine as well as in the rectum. Intestinal alkaline phosphatase was detected in the brush border and supranuclear cytoplasm of enterocytes of all investigated intestinal segments. Enzymatic activity gradually decreased in a posterior direction. Acid phosphatase activity was observed as a fine granular reaction product in the supranuclear region of enterocytes and was almost equal in all investigated intestinal segments as well as in the rectum. The possible role of enzymes in intracellular digestion and transport is discussed.     

Histological localization of hydrolases in the epididymis of the dog]

Localization and activity of five hydrolases (alkaline phosphatase, adenosine triphosphatase, acid phosphatase, nonspecific esterase and leucylamino-peptidase) were evaluated histochemically in the epididymides of mature dogs. In the ductuli efferentes, cilia and apical parts of the epithelial cells displayed high activity of alkaline phosphatase and adenosine triphosphatase. Strong activity of acid phosphatase, nonspecific esterase and leucylamino-peptidase was present in the basal and supranuclear zones of the epithelium of the ductuli efferentes. Stereocilia of all three segments of the ductus epididymidis showed a high activity of alkaline phosphatase. Positive adenosine triphosphatase reaction was confined to the stereocilia of the initial segment. A complex pattern of acid phosphatase activity was observed in the middle segment. The subdivision of the middle segment in four subsegments was therefore suggested. In the epithelium of the initial segment only a few nonspecific esterase-positive cells were seen. The infranuclear and basal areas of the epithelium in the middle segment and the supranuclear zone of the terminal segment displayed distinct nonspecific esterase activity. The possible contribution of the hydrolases to the function of the epididymis is discussed.     

Structure and histochemistry of the normal intestine of the fowl. I. The mature absorptive cell

Synopsis The fine structure and cytochemistry of the intestinal epithelial cell of the fowl have been investigated. The fine structure of the mature absorptive cell of the fowl duodenum was very similar to that described for man and other mammals. Minor differences were the thinner microvillous glycocalyx, the unusual length of the cells and their microvilli, and the wide distribution of lysosomal bodies. The membrane-associated enzymes alkaline phosphatase, ATPase (pH 7.2) and leucine naphthylamidase were mainly associated with the brush border; this organelle also gave positive reactions for mucopolysaccharides and phospholipids. No enzyme activities were found in the terminal web.The distribution of lysosomes between the terminal web and the Golgi apparatus was correlated with the granular localization of the lysosomal enzymes acid phosphatase, -glucuronidase and non-specific esterase. The mitochondrial enzyme succinate dehydrogenase was seen to be localized in rod-like dots which marked the distribution of mitochondria in the absorptive cell. The localization of mitochondrial ATPase (pH 9.4) was not clearly demonstrated because of diffusion artifacts. The region of the Golgi apparatus gave a strong reaction for thiamine pyrophosphatase, together with weak reactions for acid and alkaline phosphatases after extensive overincubation.The endoplasmic reticulum-associated enzymes glucose-6-phosphatase and nonspecific esterase were distributed throughout the absorptive cell, with a maximum activity apical to the Golgi apparatus. Additionally, the jejunal absorptive cells showed endoplasmic reticulum-as well as lysosomal-associated -glucuronidase.     

Cytochemical localization of alkaline and acid phosphatase in human vanishing bone disease

This report is the first cytochemical investigation of vanishing bone disease "Gorham's Disease" (Gorham and Stout 1955). The ultrastructural localization of non-specific alkaline phosphatase and of specific and non-specific acid phosphatase activity was studied in slices of tissue removed from a patient with this rare disorder. Sodium beta-glycerophosphate and phosphorylcholine chloride were used as substrates. Alkaline phosphatase was present around the plasma membranes of osteoblasts and associated with extracellular matrix vesicles in new woven bone. This is consistent with the proposed role for this enzyme (Robison 1923) and for matrix vesicles (Bonucci 1967) in the mineralization of bone (Bernard and Marvaso 1981). Concentrations of specific secretory acid phosphatase reaction product in the cytoplasm of degenerating osteoblasts may contribute to the imbalance between bone formation and resorption. Osteoclasts, while few in number, showed non-specific and specific acid phosphatase activity. The Golgi apparatus and heterophagic lysosomes of mononuclear phagocytes were rich in non-specific acid phosphatase. This was also present in the Golgi lamellae and lysosomes of endothelial cells. Acid phosphatase cytochemistry suggests that mononuclear phagocytes, multinuclear osteoclasts and the vascular endothelium are involved in bone resorption in this disease.