Localisation ultrastructurale de la phosphatase acide et de la phosphatase alcaline dans les cloisons septales stériles de l'anthozoaire Pachycerianthus fimbriatus

Résumé La phosphatase acide et la phosphatase alcaline ont été localisées dans les cellules des cloisons septales stériles d'un Cérianthe. Chez les animaux à jeun, l'activité de la phosphatase acide a été observée dans les citernes de l'appareil de Golgi, les lysosomes et les phagosomes provenant d'un repas précédent. Chez les animaux nourris dans les 12 heures précédentes, le précipité est localisé dans les mêmes structures ainsi que dans des phagosomes récemment formés par l'absorption de proie. La phosphatase alcaline a été détectée sur les membranes plasmiques apicales et latérales et dans les phagosomes anciens.

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Ultrastructural localization of acid and alkaline phosphatases in sterile septae of the anthozoa Pachycerianthus fimbriatus

Summary Acid and alkaline phosphatase activity has been localized in the cells of the sterile septae of starved and fed anthozoa. Acid phosphatase is present in lysosomes, in Golgi cisternae and old phagosomes of starved animals. In fed animals, the reaction is more intense and the number of lysosomes is increased. New phagosomes are loaded with lead phosphate. In starved animals, the alkaline phosphatase activity has been observed on the plasma membranes and in the old phagosomes.

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Ce travail a été rendu possible grâce à une bourse post-doctorale de recherche attribuée au titre des accords France-Québec, (Y.T.) et grâce à un octroi du Conseil des Recherches Médicales du Canada (J.H.)     

The relationships between the Golgi apparatus, GERL, and lysosomes of fetal rat liver Kupffer cells examined by ultrastructural phosphatase cytochemistry

Kupffer cells are the sinusoidal macrophages of the liver. Using ultrastructural phosphatase cytochemical methods, we examined the relationship between the Golgi apparatus, GERL, and lysosomes of Kupffer cells in fetal rat livers identified, in part, by their ability to phagocytize intravenously injected latex spheres. Thiamine pyrophosphatase (TPPase) activity was localized to the inner Golgi saccules and some vesicles in the Golgi region but not to GERL. A TPPase-like activity, demonstrable in lysosomes, was abolished by sodium fluoride but not suppressed by the alkaline phosphatase inhibitors L-cysteine and L-p-bromotetramisole. Acid phosphatase (AcPase) was localized by GERL, some coated vesicles, and in lysosomes, but not to the Golgi stacks. Continuities between GERL and lysosomes were observed. Phagosomes containing internalized latex spheres received TPPase and AcPase sequentially. TPPase was localized in phagosomes immediately after latex administration. AcPase activity was not found here until at least 10 minutes following the injection of the particulates. Our findings indicate that Kupffer cell lysosomes are derived from GERL, but also suggest that phagosomes may receive material packaged by the Golgi apparatus as well as GERL.     

Effect of starvation and insulin treatment on glycogen synthase D and synthase D phosphatase activity in rat heart

Summary We have previously shown that synthase phosphatase activity was decreased in starved animals and was rapidly restored by insulin administration (1). In order to determine whether the decreased phosphatase activity was due to a decrease in phosphatase enzyme per se or to a change in the substrate, synthase D, phosphatase activity has been determined using purified synthase D substrate. Using purified heart or liver synthase D, phosphatase activity was lower in extracts from starved animals than in fed animals. Insulin administration rapidly increased phosphatase activity in extracts from the starved animals. The total amount of endogenous synthase D which was convertible to synthase I was lower in extracts from starve animals, but this was rapidly increased within 15 minutes following insulin administration. These data suggest that starvation and insulin have a direct effect on the phosphatase enzyme activity per se and probably on the substrate suitability of synthase D as well.     

Protein transmission in the intestine of the newborn lamb: The involvement of acid and alkaline phosphatase activity

Synopsis The localization of acid phosphatase activity was differentiated from that of alkaline phosphatase in the foregut of the newborn lamb by light and electron microscopy. The examination of samples from fed and unfed lambs indicated the presence of alkaline phosphatase activity in endocytic vesicles originating from the brushborder. These vesicles, associated with protein absorption, were particularly numerous in fed lambs and occurred throughout the cytoplasm of the enterocytes. Acid phosphatase activity was absent from vesicles in the apical cytoplasm but it was localized in most sub-nuclear vesicles, also in the Golgi apparatus and the lysosomes of macrophages.The sub-nuclear vesicles were often observed in close proximity to the lateral and basement membranes of the enterocytes, also in continuity with the intercellular space. It is suggested that these results indicate the mechanism for transmission of brush-border and lysosomal enzymes, along with the immunoglobulins, into the lymph of the newborn lamb.     

Cytochemical analysis of organelle degradation in phagosomes and apoptotic cells of the mucoid epithelium of mice.

The activity of mitochondrial cytochrome oxidase and peroxisomal catalase in the phagolysosomes and apoptotic bodies of mucoid epithelial cells was analysed. Tissue from 2-6 day old mice was used. The activity of acid phosphatase in lysosomes was also estimated. Cytochrome oxidase was demonstrated in well-preserved mitochondria inside phagosomes. Mitochondria in cells exhibiting apoptotic death also show activity of cytochrome oxidase. The enzyme activity in swollen mitochondria ceases before the membranes of the cristae disappear completely. Apoptotic bodies are phagocytosed by sister mucoid cells and, later on, they are digested inside the cell. Phagosomes which contain already degraded mitochondria show still active catalase in sequestered peroxisomes. The acid phosphatase involved in degradation of phagocytosed material originates from endocytosed lysosomes and primary and secondary lysosomes which fuse with the membranes of phagosomes.     

Cytochemical analysis of organelle degradation in phagosomes and apoptotic cells of the mucoid epithelium of mice

Summary The activity of mitochondrial cytochrome oxidase and peroxisomal catalase in the phagolysosomes and apoptotic bodies of mucoid epithelial cells was analysed. Tissue from 2–6 day old mice was used. The activity of acid phosphatase in lysosomes was also estimated. Cytochrome oxidase was demonstrated in well-preserved mitochondria inside phagosomes. Mitochondria in cells exhibiting apoptotic death also show activity of cytochrome oxidase. The enzyme activity in swollen mitochondria ceases before the membranes of the cristae disappear completely. Apoptotic bodies are phagocytosed by sister mucoid cells and, later on, they are digested inside the cell. Phagosomes which contain already degraded mitochondria show still active catalase in sequestered peroxisomes. The acid phosphatase involved in degradation of phagocytosed material originates from endocytosed lysosomes and primary and secondary lysosomes which fuse with the membranes of phagosomes.     

Electron microscope studies of the distribution of phosphatases in rat intestinal epithelium from birth to ten days after weaning

Summary Electron microscope studies of the distribution of four phosphatases (Alkaline phosphatase, Acid phosphatase, ATP-ase and AMP-ase) have been made on rat jejunum from birth to ten days after weaning. The results showed that a considerable change in the location of alkaline phosphatase occurred in the early stages of post-natal development. Acid phosphatase was confined primarily to vesicles, vacuoles and lysosomes. A maximum number of lysosomes were found 25 days after birth but thereafter they decreased in number. The ATP-ase and AMP-ase showed little change with age.From the results presented, it is tentatively suggested that alkaline phosphatase may be one of the factors associated with the increase in cell adhesion noted. A pathway for the development of lysosomes from the large invaginatory inclusions to the normal granular type of lysosome is also proposed.     

怀头鲇早期发育阶段消化酶及碱性磷酸酶活性变化(英文)

采用动物性饵料和人工饲料培育1～10日龄怀头鲇(Silurus soldatovi)仔稚鱼,分析测定了全鱼酸性、碱性蛋白酶、淀粉酶、脂肪酶以及碱性磷酸酶的活性。结果表明:孵化后3天开口期仔鱼已具有较高的碱性蛋白酶活性,5日龄时碱性蛋白酶比活力达到较高值,8日龄时出现低值,总体变化呈波动上升趋势;酸性蛋白酶活性在1～8日龄处于较低水平,8日龄后开始迅速升高;淀粉酶活性在5日龄左右达到最高值,随后酶活性开始下降至较低水平;脂肪酶活性变化波动较大,表现为双峰型,两个峰值分别出现在3～4日龄和6～8日龄。摄食动物性饵料仔稚鱼消化酶活性和碱性磷酸酶活性均高于摄食人工饲料。在整个早期发育过程中,碱性蛋白酶比酸性蛋白酶活性高,碱性蛋白酶、淀粉酶比活力在约8日龄仔稚鱼转变期明显下降,而酸性蛋白酶活性开始迅速升高,这说明消化酶活性的变化与仔稚鱼发育过程中消化机能转换具有相关性。怀头鲇在10日龄内碱性磷酸酶活性呈上升趋势,表明怀头鲇胃肠道功能的逐步发育完善。     

The effects of fasting and refeeding on serum parathormone and calcitonin concentrations in young and old male rats.

Although fasting and refeeding reveal the existence of age-related changes in carbohydrate and lipid metabolism, the effects of aging on mineral metabolism in refed animals are unknown. We therefore investigated hormonal regulation of calcium metabolism in young (4 months) and old (26 months) male rats fasted for 48 hours and then refed for 4 or 24 hours. Serum concentrations of total and ionized calcium and parathormone were similar in control young and old rats. Serum calcitonin level was higher, and the concentrations of albumin and inorganic phosphate and alkaline phosphatase activity were lower in fed old rats. In young fasted rats, the serum ionized and total calcium was decreased, and phosphate concentration was increased. In old rats, fasting resulted in the increase of serum parathormone level. Fasting reduced serum alkaline phosphatase activity to a similar extent in both age groups. In young rats, refeeding for 24h normalized serum calcium and phosphate levels and alkaline phosphatase activity, and decreased serum concentrations of PTH and calcitonin. In old refed rats, serum calcitonin concentration was raised by 77% compared to fed or fasted animals, whereas parathormone levels were normalized. Our results indicate that old fasted or refed rats maintain normal serum calcium concentration in a different way than young animals, possibly through the increase in serum levels of parathormone and/or calcitonin. Thus, dietary manipulations such as fasting and refeeding constitute an interesting model for the investigation of the effects of aging on the hormonal regulation of serum calcium level.     

Age-Related Changes of Ribonuclease Activities in Various Regions of the Rat Central Nervous System

Acid (pH 5.5), free, and latent alkaline (pH 7.4) RNases were assayed in homogenates of temporal cortex, hypothalamus, hippocampus, and cervicothoracic segments of spinal cord of rats at three different ages (5, 14, and 25 months old). Free alkaline RNase activity was lower (two- to fivefold) than the acid activity. Both free and inhibitor-bound alkaline RNases remained unchanged with age in all CNS regions examined. This result also indirectly indicates no change of RNase-inhibitor complex throughout aging. In contrast, the acid RNase activity showed a significant increase during aging in all tissues, with exception of the hypothalamus. Because this enzyme is localized mainly in the lysosomes, this result might be due to an increased lysosomal activity and/or to the release of hydrolases into the cytoplasm from these organelles, undergoing shrinkage and degeneration in aged animals.     

Cytochemical demonstration of phosphatases in membrane-recycling structures of endodermal cells

We applied cytochemical procedures to demonstrate the presence of acid and alkaline phosphatase in the visceral yolk-sac endoderm of rats using frozen, aldehyde-fixed tissue with cerium as the capture agent. This procedure allowed more detailed topochemical localization than was possible using unfrozen tissue or with lead as the capture agent. Acid phosphatase was found to be present in lysosomes as well as in a small number of apical canaliculi, which are thought to be recycling structures of the cell membranes in endodermal cells. Reaction products of alkaline phosphatase were observed on the outer surface of apical, lateral, and basal cell membranes. In addition, some apical vacuoles contained alkaline phosphatase, and more apical canaliculi were positive for alkaline phosphatase than for acid phosphatase. However, most of the apical canaliculi were negative for both enzymes. It is suggested that acid and alkaline phosphatase are taken up by different numbers of apical canaliculi during the detachment of apical canaliculi from lysosomes and resorption vacuoles.     

Ultrastructural localization of esterase and acid phosphatase in digestive gland cells of fed and starvedCepaea nemoralis (L.) (Mollusca: Helicidae)

Summary The ultrastructural localizations of thiolacetic acid esterase, indoxyl acetate esterase and acid -glycerophosphatase have been studied in the digestive gland cells of fed and starvedCepaea nemoralis. In fed snails the major localization of all three enzymes was in the green granule vacuoles of digestive cells. In addition, the cytoplasm of calcium cells and the Golgi apparatus and GERL (?) of all cell types were acid phosphatase positive. Many digestive cells of starved snails showed a similar enzyme distribution to that found in fed snails but other digestive cells showed a very high cytoplasmic activity of all three enzymes. It is suggested that these cells are in the process of autolysis. New light is also thrown on the process by which food is transported from the digestive gland lumen to the phagosomes of digestive cells.     

Distribution and ontogeny of digestive enzymes in larval yellowtail and winter flounder

The distribution of digestive enzymes was studied using histoenzymological methods in yellowtail and winter flounder larvae reared on three different diets: live food, weaned at day 15, or starved. Alkaline phosphatase, dipeptidyl peptidase IV, aminopeptidase M and esterase were present at 3 days post-hatch and became differentially distributed coinciding with morphological development. For larvae fed a live diet, activity of these enzymes was present in the intestine of both species and rectum of yellowtail flounder. Alkaline phosphatase was also present in the post-oesophageal swelling (stomach anlage) of winter flounder. Activity of all enzymes was absent in starved winter flounder larvae and a decrease in aminopeptidase M and esterase activity occurred in starved yellowtail flounder larvae. Acid phosphatase was not identified in either species. The eVect of weaning on enzymatic activity was not evaluated fully as the larvae did not survive long enough after the introduction of the artificial diet to complete experimentation.     

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.     

Effects of starvation on lung mechanics and biochemistry in young and old rats

Two groups of rats (young and old) were food-deprived for 3 wk and were compared with age-matched fed groups. Final body weight and dry and wet weights of lungs were significantly reduced in both young and old starved rats. As determined by saline volume-pressure (VP) curves, lungs of young starved rats accepted significantly less volume at all pressure levels compared with lungs of young fed rats. When expressed as a percent of maximum lung volume, the VP curve in young starved rats was significantly shifted upward at low lung volumes. In the old rats, the VP curves were similar in fed and starved rats. Total lung content of protein, DNA, crude connective tissue, hydroxyproline, and elastin were significantly reduced in young starved compared with young fed rats, whereas in old starved rats only protein and DNA contents were lower than those in old fed animals. It appears that in rapidly growing young rats starvation leads to growth retardation, loss of connective tissue components, and possibly reduction in tissue elastic forces at low lung volumes, whereas starvation has no significant effects on lung mechanics and connective tissue in old rats.     

Reduction of mitochondrial pyruvate dehydrogenase phosphatase activity in lactating rat mammary gland following starvation or insulin deprivation.

The initial rates of activation of inactivated pyruvate dehydrogenase from lactating rat mammary gland and from pig heart were employed to assay pyruvate dehydrogenase phosphatase activity in mammary gland mitochondrial extracts. 24 h-starvation or 3 h-deprivation of insulin diminished phosphatase activity compared to fed controls. Refeeding and insulin treatment of 24 h starved animals restored in 1 h control levels of phosphatase activity.     

Endocytosis and the adaptive acid hydrolases in Tetrahymena pyriformis GL

Endocytosis of yeast cells by Tetrahymena pyriformis GL for a period of 2.5 h produced changes in cellular acid hydrolases. Acid phosphatase, acid deoxyribonuclease and acid proteinase activities were markedly increased, whereas there was a decrease in acid ribonuclease activity and little change in -glucosidase activity. These alterations do not appear to be due to any alteration in the rates of secretion of these enzymes into the milieu. Evidence is presented that the cellular enzyme increases found upon endocytosis of yeast reflect changes in lysosomal enzymes, because it was shown that the acid phosphatase activity increase resulted in an increased amount of latent enzyme within the cell. The results also support the idea that there are at least 3 distinct populations of lysosomes, in addition to phagolysosomes, present in Tetrahymena pyriformis GL, with different modes of formation. There appears to be a large excess of lysosomes, uncombined with phagosomes, present in these fed cells since latency averaged 66% in broken-cell preparations which contained very few intact phagolysosomes. The phagolysosomal acid phophatase activity cannot account for more than 34% of that present in the cell. The endocytosis of yeast in the presence of growth medium resulted in a marked drop in the rate of cell division as compared to cells growing in the growth medium alone. The results are discussed.     

Effect of various fish meals on disaccharidases and alkaline phosphatase of the small intestine in rats

Female rats of the Wistar strain, weighing 40-60 g were used to study the effect of fish meals (Coryphaenoides rupestris, Chimaera monstruosa and Merluccius merluccius) on the disaccharidases and alkaline phosphatase in the small intestine in relation to the control group which consumed casein. Fish meal diets diminished lactase and alkaline phosphatase activity, the latter being most remarkable in animals fed Ch. monstruosa meal, while no statistical variations in maltase and sucrase activity were observed. Maltase, sucrase and lactase activity of animals fed Ch. monstruosa meal dropped in comparison with those fed C. rupestris meal, while the alkaline phosphatase activity showed no significant changes.     

Histophysiology of digestion and observations on the structure of the alimentary canal in the ectosymbiont Chaetogaster limnaei limnaei Baer, 1827 (Annelida: Oligochaeta)

The naidid oligochaete Chaetogaster limnaei limnaei has an alimentary canal consisting of a mouth, pharynx with a dorsal pharyngeal pad, esophagus, stomach, anterior and posterior intestine, and anus. The diet is omnivorous but limited by particle size. Unattached food organisms are sucked into the pharynx while sessile organisms are plucked from the substratum. Granules of acid mucosubstances that stain purple with neutral red are secreted into the stomach lumen after food enters, rapidly increasing the acidity from pH 3 to 1.5. Acid induced lysis of the organisms initiates autolysis before the food is passed into the alkaline, pH 7 to 8, anterior intestine. Ciliated intestinal cells showed arylamidase, acid phosphatase and C-esterase active granules indicating primary lysosomes with secondary lysosomes being recognized in electron micrographs suggesting intracellular digestion. Arylamidase and alkaline phosphatase activity appears in the intestinal margins during the alkaline phase of digestion. Scattered, pyramidal cells found only in the anterior intestine contain yellow refractile spheres. The spheres stain alcian blue pH 2.5 and bromophenol blue positive and exhibit a strong acid phosphatase activity all the time with A-esterase active granules surrounding them. Glycogen and lipids are stored mainly in the chlorogague cells. Many of the yellow refractile granules in the stomach and intestinal cells are bacteria.