Experimental substantiation of the possibility of using the cytochemical parameters of peripheral blood to assess the functional state of the organism of the pilot

The activity of succinate (mitochondrial), lactate, α-glycerophosphate, glucose-6-phosphate peripheral blood lymphocytes in rats under the conditions of modeling acute and chronic gravitational stress was studied by quantitative spectrophotometry of cytochemical reaction products to reveal the localization of oxidative enzymes. The dynamics of morphofunctional transformations is determined, the severity of which depends on the duration of the effect (the rotation time of the animals on the centrifuge). For acute gravitational stress, changes in the activity of mitochondrial succinate dehydrogenase are characteristic, and in the various stages of chronic gravitational stress, glycolysis (increase in lactate dehydrogenase and α-glycerophosphate dehydrogenase activity) and plastic metabolism (increase in glucose-6-fosfata dehydrogenase activity) are characteristic. These changes are explained by the inclusion of neurohumoral regulatory mechanisms that ensure synchronization of oxidative metabolic processes in the cells of organs of various body systems under unfavorable conditions of their functioning. Significant correlation links between the activity of lymphocyte enzymes with the same indices of neurons of the celiac sympathetic node, adenocytes of the cortical and medulla of the adrenal glands have been established. This suggests that the activity of lymphocyte enzymes can be used as indirect indicators of the processes occurring in the organs of the sipato-adrenomedular and pituitary-adrenocortical systems under conditions of acute and chronic gravitational stress.

Role of Reactive Oxygen Species and NFKB p65 in the Lupus Kidney

Reactive oxygen species (ROS) play an important role in lupus nephritis. It has been known that nuclear factor kB(NFkB) is activated by ROS, and binds to KB element in nucleus. Afterwards, inflammatory cytokines are translated and produced in lymphocytes, macrophages and glomerular cells in the kidney. In this study, we investigated the role of ROS and NFkB p65 in the pathogenesis of lupus nephritis (MRL lpr/lpr mice) by the histochemical and immuno-electron microscopic methods.A modified Brigg’s method was used to determine the generation of H2O2 in the renal tissue of lupus mice. Tissue samples were incubate in 0.1 MTris maleate buffer (pH 7.4) with 7% sucrose, 1mM CeCl3 and 10 mM aminotriazole at 37 °C for 30 min. After completion of the cytochemical reaction, tissues were fixed in 2% w/v glutaraldehyde in 0.1 M cacodylate buffer (pH 7.4) at 4 °C for 60 min.

The organization of the endoplasmic reticulum and the intermediate compartment in cultured rat hippocampal neurons.

The boundaries of the organelles of the biosynthetic endomembrane system are still controversial. In this paper we take advantage of the unique architectural organization of neurons to investigate the localization of a spectrum of compartment-specific markers with the goal of defining the location of the rough endoplasmic reticulum (ER), smooth ER, intermediate compartment, and the Golgi complex. Markers of the rough ER (signal sequence receptor), Golgi complex (mannosidase II), and the trans Golgi network (TGN38) were essentially restricted to the cell body and the initial segment of one of the cell's dendrites. In contrast the cytochemical reaction product for glucose 6 phosphate, a classical ER marker, in addition to staining ER structures in the cell body also reacted with smooth ER elements that extended into both axons and dendrites. These peripheral smooth ER elements also reacted at the immunofluorescence level for ER marker 3-hydroxy-3-methylglutaryl-coenzyme A reductase, as well as for calnexin and protein disulfide isomerase. We also analyzed the location of rab1, rab2, p58, the KDEL receptor, and beta-subunit of coatomer. These intermediate compartment markers were found predominantly in the cell body but also extended to the proximal parts of the dendrites. Collectively, our data argue that the ER of hippocampal neurons consists of functionally and spatially distinct and separated domains, and they stress the power of the hippocampal neuron system for investigations of the organization of the ER by light microscopy.

Post-embedding staining with high-iron diamine-thiocarbohydrazide-silver proteinate and its application to visualizing sulfated glycoconjugates in cryofixed kidney and cartilage.

Cryofixation is generally believed to provide optimal tissue preservation. However, certain post-embedding cytochemical reactions, such as high-iron diamine (HID) staining for sulfated glycoconjugates, are not applicable to cryofixed and freeze-substituted tissues. In the present study, the HID technique was therefore adapted for post-embedding staining. HID staining was performed on thin sections of chemically and cryofixed kidney and growth plate cartilage, embedded in Epon and various acrylic-based resins. All resins and most tissue preparation conditions allowed post-embedding staining with HID, albeit to variable degrees. However, no significant cytochemical reaction was obtained with tissue sections of osmicated kidney embedded in Epon. Profile views of re-embedded sections showed that large stain deposits were usually restricted to the surface, whereas small ones were observed throughout the entire thickness of the section. The staining pattern was essentially similar between chemically fixed and cryofixed specimens. In the glomerulus, stain deposits were mainly seen over the free surface of podocyte foot processes and over the lamina rara externa. The pericellular cartilage matrix of chemically fixed specimens often appeared as condensed elements, usually stained with large deposits. In cryofixed tissues this matrix formed a meshwork composed of thin, extended filamentous structures, many of which showed linear arrays of smaller stain deposits. The data presented here indicate that post-embedding HID-TCH-SP staining can be successfully performed on thin sections of tissues embedded in various resins and, as a result, can be further adapted to cryo-prepared specimens to give a high resolution localization of sulfated glycoconjugates in tissues with optimal molecular preservation.

Biochemical and cytochemical studies on enzymes that dephosphorylate inositol (1,4,5)-trisphosphate in neutrophils.

Guinea pig neutrophils contain membrane-bound and soluble phosphatases that catalyze the dephosphorylation of inositol (1,4,5)-trisphosphate [Ins(1,4,5)P3]. The activities were 5.1 +/- 0.2 and 1.3 +/- 0.2 (SD; n = 5) nmoles phosphate (Pi) released/min/10(7) cell equivalents, respectively. The membrane-bound enzyme dephosphorylated many substrates (e.g., beta-glycerophosphate), exhibited alkaline pH optima, and was inhibited by levamisole. In contrast, the soluble phosphatase was specific for Ins(1,4,5)P3, exhibited a neutral pH optimum, and was insensitive to levamisole. A cerium-based ultrastructural cytochemical procedure was employed to identify the subcellular sites of the membrane-bound activity. Staining was observed on the exterior of the plasmalemma and in a population of granules. Staining in the granules was observed only in permeabilized cells. Treatment of neutrophils with p-diazobenzenesulfonate (DBSA) (4.0 mM) for 20 min at 37 degrees C blocked the cytochemical reaction on the cell surface using beta-glycerophosphate as the substrate, but did not affect the staining of the granules on subsequent permeabilization. In biochemical studies, this treatment with DBSA inhibited the membrane-bound activity by c. 50% but did not affect the soluble phosphatase. Therefore, the membrane-bound phosphatase is, in fact, an alkaline phosphatase that resides in locales not accessible to Ins(1,4,5)P3 generated during cell stimulation. Breakdown of Ins(1,4,5)P3 generated during cell stimulation, therefore, would be catalyzed by the soluble enzyme.

Ultrastructural Cytochemical Study of Human Gastric Cancer: Observation of AKP ase,ACP ase,G6P ase,TPP ase and CO ase

The activities and distributions of AKPase ,ACPase,G6Pase,TPPase and COase in human normal gastric mucosa and gastric cancer tissues were studied histochemically at light microscopic level. These enzymes are the marker enzymes of cell membrane lysosome endoplasmic reticulum, Golgi apparatus and mitochondrion objectively. On the basis of the research we set up a special ultrastructural cytochemical technique and first researched into gastric cancer domesticly. Ultrastructural cytochemistry is also called electron microscopic cytochemistry. This new technique possesses both the sensitivity of cytochemical reaction andi the high resolution of electron microscope. It is characterized by direct observation,exact localization and the combination morphology with function.The distributions of AKPase,ACPase,G6Pase,TPPase and COase in 14 cases of gastric cancer and 1 case of gastric Denign lesion were studied ultrastructurally. The results showed: 1. normal gastric epithelium had no AKPase reaction. The reaction of ACPase,G6Pase,TPPase and Coase were found in the corresponding organella, which were consistent with their function.

X-Ray Microanalysis of Nickel and Cobalt Intensified Peroxidase- Antiperoxidase For Verification of Reaction Sites

Localization of specific substances at the ultrastructural level is dependent on the introduction of chemicals which will complex and impart an electron density at specific reaction sites. Peroxidase-antiperoxidase(PAP) methods have been successfully applied at the electron microscopic level. The PAP complex is localized by addition of its substrate, hydrogen peroxide and an electron donor, usually diaminobenzidine(DAB). On oxidation, DAB forms an insoluble polymer which is able to chelate with osmium tetroxide becoming electron dense. Since verification of reactivity is visual, discrimination of reaction product from osmiophillic structures may be difficult. Recently, x-ray microanalysis has been applied to examine cytochemical reaction precipitates, their distribution in tissues, and to study cytochemical reaction mechanisms. For example, immunoreactive sites labelled with gold have been ascertained by means of x-ray microanalysis.