Altered reabsorption of protein by the renal cortex in rats treated with hypertonic saline or mannitol.Straus, W
doi: 10.1177/23.10.1194661pmid: 1194661
The reabsorption of horseradish peroxidase (HRP) by the proximal tubule cells of rat kidneys was investigated by measuring the concentration of HRP in total particulate fractions of the cortex 1/4 and 1 hr after intravenous injection, and by correlated cytochemical observations. When compared to the corresponding values of the control animals, the concentration of HRP 1 hr after injection was decreased approximately 10-fold in the renal cortex of rats which had received an intravenous injection of hypertonic saline or two subcutaneous injections of mannitol. The plasma clearance and the urinary excretion of HRP were not altered significantly after injection of hypertonic saline, but the plasma clearance was decreased and the urinary excretion increased after injection of mannitol. When the dose of injected HRP was varied, the reabsorption of HRP by the renal cortex was proportional to the dose in the experimental and the control animals. Cytochemical staining for peroxidase activity also showed that the phagosomes and phagolysosomes of the proximal tubule cells contained much less peroxidase in the experimental rats than in the control rats. After injection of mannitol, large vacuoles appeared in the proximal tubule cells. The vacuoles often contained peroxidase-positive granules (phagosomes) which varied in diameter from the limit of microscopic visibility up to several microns. Most of the vacuoles did not react for acid phosphatase activity, but lysosomes were often aggregated around the vacuoles and seemed to release acid phosphatase into the cytoplasm. Certain analogies between the reabsorption of protein and that of water by the proximal tubule cells are discussed.
The coating of mouse myocardial cells. A cytochemical electron microscopical study.Gros, D; Challice, C E
doi: 10.1177/23.10.1194663pmid: 1194663
The coating of mouse myocardial cells has been investigated with a variety of cytochemical methods. The coating of the surface membrane gives a positive reaction with ruthenium red, colloidal thorium, phosphotungstic acid (PTA) at low pH, silver methenamine after periodic oxidation (PA-silver technique) and with silver proteinate after periodic oxidation and thiocarbohydrazide treatment (PA-TCH-silver technique). The coating of the T system gives almost similar results. The nexuses do not react with PTA nor with the PA-silver and PA-TCH-silver techniques, but they are strongly stained with ruthenium red which reveals periodic structures in their gaps. The specificities of the colloidal thorium technique and PAT staining have been tested by chemical treatments (methylation, acetylation, saponification), enzymatic digestions (pronase, trypsin, hyaluronidase, neuraminidase) and carbohydrate extractions (with 0.1 N NaOH and 0.05 M H2SO4). These cytochemical data indicate, considering the specificity of the reactions, that the coating of the membrane surface and the T system contains polyanionic groups. A part of them, at least, would belong to a carbohydrate-containing material (glycoproteins), whereas at the level of nexuses the sugar residues would probably be absent.
Electrophoretic studies on the phosphorylase isozymes.Yonezawa, S; Hori, S H
doi: 10.1177/23.10.1194664pmid: 1194664
The electrophoretic method of Davis, Schliselfeld, Wolf, Leavitt and Krebs (1967) for phosphorylase isozymes has been modified. By this method, five isozymes were separated in various organs of rat and pig and were disignated as phosphorylase L, LI, I, II and III. The L and III enzymes were the only forms found in liver and skeletal muscle, respectively, while the I enzyme was dominant in brain, uterus, lung and small intestine, which also contained some fractions of the II and III enzymes. The I enzyme was also dominant in adrenal, ovary and kidney, but these organs contained the L+II or L+LI as minor components. The L and LI were richly found in spleen and leukocytes of adult rats and pigs and in liver of newborn rats. Such organ-specific heterogeneity of phosphorylase was confirmed by the immunological tests with the antibodies prepared against phosphorylases I, III and L. The II and LI enzymes were found to be the hybrid molecules between the I and III enzymes, and between the I and L enzymes which have been previously reported as unhybridizable, respectively. In view of the above findings, it was concluded that the rat and pig possessed at least five molecular forms of phosphorylase.
N-acetyl-beta-glucosaminidase activity in normal and malignant leukocytes.Reed, C E; Bennett, J M
doi: 10.1177/23.10.1194665pmid: 1194665
An improved cytochemical method demonstrating N-acetyl-beta-glucosaminidase in peripheral blood and bone marrow leukocytes is described. A significant elevation in enzyme activity in circulating monocytes from patients with solid tumor malignancies was observed. In a large series of cases of acute nonlymphocytic leukemia, elevated levels were found in the vast majority of those leukemias that had a predominant monocytic component identified either morphologically or by standard cytochemical methods. This reaction would appear to be useful as a monocyte marker.
Enzyme cytochemistry of Candida albicans.De Nollin, S; Thoné, F; Borgers, M
doi: 10.1177/23.10.172554pmid: 172554
The application of a new preparation method for demonstrating the activities of hydrolytic and oxidative enzymes in Candida albicans is reported. The problem of inadequate penetration of fixatives into yeast cells has been solved by sectioning solidified pellets of the cells in the presence of glutaraldehyde, a procedure that yields a fairly well preserved ultrastructure and sufficient enzyme activities. The subcellular distribution of most specific and nonspecific phosphatases and of peroxidases is at variance with that found in mammalian cells. The activities toward beta-glycerophosphate, p-nitrophenylphosphate, adenosine triphosphate, adenosine monophosphate, thiamine pyrophosphate and glucose 6-phosphate are almost exclusively confined to the central vacuolar apparatus. Oxidative and peroxidative activities are demonstrated only in mitochondria. Specific marker enzymes for endoplasmic reticulum, plasmalemma, Golgi apparatus and peroxisomes in C. albicans are not found. The possible function of the various subcellular organelles in relation to their enzymatic content is discussed.
Adenosine triphosphate and phosphocreatine levels in cochlear structures. Use rate and effect of salicylates.Krzanowski, J J; Matschinsky, F M
doi: 10.1177/23.10.1194666pmid: 1194666
Guinea pigs were injected with various dosages of salicylate for varying time periods. The temporal bones were removed, frozen quickly, freeze-dried, and the cochlea was dissected into essential auditory component parts and subjected to microchemical analysis for phospho-creatine (P-creatine) and adenosine triphosphate (ATP) levels. It was found that high energy phosphates were not decreased by therapeutic or acutely toxic levels of salicylate. Only when chronic intoxication with salicylate was accomplished was there a reduction in ATP and P-creatine. The data presented do not provide support for the widely held view that uncoupling of oxidative phosphorylation or inhibition of enzymes involved in energy generation in the inner ear structures studied (organ of Corti, stria vascularis, Reissner's membrane, modiolar blood vessels, cochlear nerve and spiral ganglion) are the mechanisms by which salicylates cause reversible hearing loss. The study confirms the existence of a P-creatine gradient opposite to the well known glycogen gradient in the organ of Corti (Krzanowski JJ Jr, Matschinsky M: J Histochem 19:321, 1971) and suggests a relatively uniform energy use rate of this tissue for all four turns (20 mmoles of approximately phosphorus used/kg dry weight/min).
Histochemical localization of glutathione in tissues.Asghar, K; Reddy, B G; Krishna, G
doi: 10.1177/23.10.53246pmid: 53246
A histochemical method has been developed for the localization of glutathione (GSH) in frozen sections from various tissues including liver, lung, kidney, testis and eye. The reliability and specificity of the method has been investigated by comparing the rates of reaction in tissue and gelatin sections and after depletion of GSH in liver by diethyl maleate. In principle, the method is based on the formation of an irreversible complex of mercury orange with the --SH group of GSH. A 5-min staining period was found to be optimal for staining the --SH group of GSH. In brief, frozen sections 8 mu thick are stained with a 50 muM solution of mercury orange dissolved in toluene, counterstained in 0.05 per cent methylene blue and mounted in Histoclad. Pretreatment of the sections with fixatives or drying them in air completely prevented the staining. In hepatic lobules the brick red granules of the GSH mercury orange complex were distributed uniformly, whereas in other tissues they were not uniform. The GSH staining was localized in the proximal convoluted tubules in the cortex of the kidney, the interalveolar epithelial cells of lungs, the epididymis and the capsule of testis, epithelial cells of vas deferens and the periphery of the lens.