Characterization of sialidase from bloodstream forms of Trypanosoma vivax

Sialidase (EC: 3.2.1.18) from Trypanosoma vivax (Agari Strain) was isolated from bloodstream forms of the parasite and purified to apparent electrophoretic homogeneity. The enzyme was purified 77-fold with a yield of 32% and co-eluted as a 66-kDa protein from a Sephadex G 110 column. The T. vivax sialidase was optimally active at 37 degrees C with an activation energy (E(a)) of 26.2 kJ mole(-1). The pH activity profile was broad with optimal activity at 6.5. The enzyme was activated by dithiothreitol and strongly inhibited by para-hydroxy mercuricbenzoate thus implicating a sulfhydryl group as a possible active site residue of the enzyme. Theenzyme hydrolysed Neu5Ac2,3lac and fetuin. It was inactive towards Neu5Ac2,6lac, colomic acid and the gangliosides GM1, and GDI. Initial velocity studies, for the determination of kinetic constants with fetuin as substrate gave a V(max) of 142.86 micromol h(-1) mg(-1) and a K(M) of 0.45 mM. The K(M) and V(max) with Neu5Ac-2,3lac were 0.17 mM and 840 micromole h(-1) mg(-1) respectively. The T. vivax sialidase was inhibited competitively by both 2,3 dideoxy neuraminic acid (Neu5Ac2,3en) and para-hydroxy oxamic acid. When ghost RBCs were used as substrates, the enzyme desialylated the RBCs from camel, goat, and zebu bull. The RBCs from dog, mouse and ndama bull were resistant to hydrolysis.     

Expression of novel cytosolic malate dehydrogenases (cMDH) in Lupinus angustifolius nodules during phosphorus starvation

During P deficiency, the increased activity of malate dehydrogenase (MDH, EC 1.1.1.37) can lead to malate accumulation. Cytosolic- and nodule-enhanced MDH (cMDH and neMDH, respectively) are known isoforms, which contribute to MDH activity in root nodules. The aim of this study was to investigate the role of the cMDH isoforms in nodule malate supply under P deficiency. Nodulated lupins (Lupinus angustifolius var. Tanjil) were hydroponically grown at adequate P (+P) or low P (−P). Total P concentration in nodules decreased under P deficiency, which coincided with an increase in total MDH activity. A consequence of higher MDH activity was the enhanced accumulation of malate derived from dark CO₂ fixation via PEPC and not from pyruvate. Although no measurable neMDH presence could be detected via PCR, gene-specific primers detected two 1 kb amplicons of cMDH, designated LangMDH1 (corresponding to +P, HQ690186) and LangMDH2 (corresponding to −P, HQ690187), respectively. Sequencing analyses of these cMDH amplicons showed them to be 96% identical on an amino acid level. There was a high degree of diversification between proteins detected in this study and other known MDH proteins, particularly those from other leguminous plants. Enhanced malate synthesis in P-deficient nodules was achieved via increased anaplerotic CO₂ fixation and subsequent higher MDH activities. Novel isoforms of cytosolic MDH may be involved, as shown by gene expression of specific genes under P deficiency.     

Hydrogen Peroxide Induces a Long-Lasting Inhibition of the Ca2+-Dependent Glutamate Release in Cerebrocortical Synaptosomes Without Interfering with Cytosolic Ca2+

Abstract: We studied the action of H₂O₂ on the exocytosis of glutamate by cerebrocortical synaptosomes. The treatment of synaptosomes with H₂O₂ (50–150 µ M ) for a few minutes results in a long-lasting depression of the Ca²⁺-dependent exocytosis of glutamate, induced by KCl or by the K⁺-channel inhibitor 4-aminopyridine. The energy state of synaptosomes, as judged by the level of phosphocreatine and the ATP/ADP ratio, was not affected by H₂O₂, although a transient decrease was observed after the treatment. H₂O₂ did not promote peroxidation, as judged by the formation of malondialdehyde. In indo-1-loaded synaptosomes, the treatment with H₂O₂ did not modify significantly the KCl-induced increase of [Ca²⁺]_i. H₂O₂ inhibited exocytosis also when the latter was induced by increasing [Ca²⁺]_i with the Ca²⁺ ionophore ionomycin. The effects of H₂O₂ were unchanged in the presence of superoxide dismutase and the presence of the Fe³⁺ chelator deferoxamine. These results appear to indicate that H₂O₂, apparently without damaging the synaptosomes, induces a long-lasting inhibition of the exocytosis of glutamate by acting directly on the exocytotic process.     

Subcellular compartmentation of different lipophilic fluorescein derivatives in maize root epidermal cells

Summary Fluorescence microscopy offers some distinct advantages over other techniques for studying ion transport processes in situ with plant cells. However, the use of this technology in plant cells has been limited by our lack of understanding the mechanisms that influence the subcellular distribution of dyes after loading with the lipophilic precursors. In this study, the subcellular distribution of 5-(and 6-)carboxydichlorofluorescein (CDCF), carboxy-SNAFL-1, and carboxy-SNARF-1 was compared to that of 2,7-bis-(2-carboxyethyl)-5-(and 6-)carboxyfluorescein (BCECF) after incubation of maize roots with their respective lipophilic precursors. Previously, we reported that incubation of roots with BCECF-acetomethyl ester (BCECF-AM) led to vacuolar accumulation of this dye. Similar results were found when roots were incubated with CDCF-diacetate. In contrast, carboxy-SNAFL-1 appeared to be confined to the cytoplasm based on the distribution of fluorescence and the excitation spectra of the dye in situ. On the other hand, incubation of roots with carboxy-SNARF-1-acetoxymethyl acetate yielded fluorescence throughout the cell. When the cytoplasm of epidermal cells was loaded with the BCECF acid by incubation at pH 4 in the absence of external Ca, the dye was retained in the cytoplasm at least 3 h after the loading period. This result indicated that vacuolar accumulation of BCECF during loading of BCECF-AM was not due to transport of BCECF from cytoplasm to vacuole. The esterase activities responsible for the production of either carboxy-SNAFL-1 or BCECF from their respective lipophilic precursor by extracts of roots were compared. The characterization of esterase activities was consistent with the subcellular distribution of these dyes in root cells. The results of these experiments suggest that in maize root epidermal cells the subcellular distribution of these fluorescein dyes may be determined by the characteristics of the esterase activities responsible for hydrolysis of the lipophilic precursor.Abbreviations BCECF (BCECF-AM) 2,7-bis-(2-carboxyethyl)-5-(and 6-)carboxyfluorescein (its acetoxymethyl ester) - BTB bis-trispropane - CDCF (CDCF-DA) 5-(and 6-)carboxy-2,7-dichlorofluorescein (its diacetate derivative) - DAPI 4,6-diamidino-2 phenylindole dihydrochloride - DMSO dimethylsulfoxide - HEPES N-[2-hydroxyethyl] piperazine-N-[2-ethanesulfonic acid] - MES 2-[N-morpholino]ethane-sulfonic acid - SNAFL-1 (SNAFL-1-DA) carboxyl SNAFL-1 (its diacetate) - SNARF-1 (SNARF-1-AM) carboxyl SNARF-1 (its acetoxymethyl acetate)     

Copper elicits an increase in cytosolic free calcium in cultured tobacco cells

At concentrations greater than 0.1 mM, CuSO(4) provoked a rapid and sustained increase in the cytosolic free Ca(2+) concentration ([Ca(2+)](cyt)), in tobacco suspension culture cells expressing apoaequorin, a Ca(2+)-sensitive photoprotein. The increase was suppressed by treatment with LaCl(3), indicating that the increase is due to an influx of Ca(2+) from the apoplast through plasma membrane Ca(2+) channels. Although stimulation of H(2)O(2) production upon the CuSO(4) treatment (0.1 mM) was observed, treatment with catalase did not inhibit the increase in [Ca(2+)](cyt), and treatment with H(2)O(2) dose-dependently suppressed or delayed the increase. These results suggested that active oxygen species generated through copper-mediated reactions, or copper-mediated oxidative damages to plasma membrane, are not responsible for the increase. Treatment with sulfhydryl reagents, which alkylate or oxidize thiol groups, or acidification of the culture medium suppressed the increase in [Ca(2+)](cyt). These results demonstrated that copper causes an influx of Ca(2+) through plasma membrane Ca(2+) channels, and that plasma membrane thiol groups play an important role in activating the Ca(2+) channels.     

Cyanide-stimulated inositol 1,4,5-trisphosphate formation: An intracellular neurotoxic signaling cascade

Cyanide-induced neurotoxicity is associated with altered cellular Ca²⁺ homeostasis resulting in sustained elevation of cytosolic Ca²⁺. In order to characterize the effect of cyanide on intracellular signaling mechanisms, the interaction of KCN with the inositol 1,4,5-triphosphate Ca²⁺ signaling system was determined in the PC12 cell line. KCN in the concentration range of 1.0–100 μM produced a rapid rise in intracellular IP₃ levels (peak level occurred within 60 sec); 10 μM KCN elevated intracellular levels of IP₃ to 148% of control levels. This response was mediated by phospholipase C (PLC) since U73122, a specific PLC inhibitor, blocked the response. Removal of Ca²⁺ from the incubation medium and chelation of intracellular Ca²⁺ with BAPTA partially attenuate the cyanide-stimulated IP₃ generation, showing that the response is partially Ca²⁺ dependent. Also, treatment of cells with nifedipine or LaCl₃, Ca²⁺ channel blockers, partially blocked the generation of IP₃. This study shows that cyanide in concentrations as low as 1 μM stimulates IP₃ generation that may be mediated by receptor and nonreceptor IP₃ production since they have differential dependence on Ca²⁺. It is proposed that this response is an early intracellular signaling action that can contribute to altered Ca²⁺ homeostasis characteristic of cyanide neurotoxicity. © 1997 John Wiley & Sons, Inc.     

Substance P analogues function as bombesin receptor antagonists and inhibit small cell lung cancer clonal growth

Human small cell lung cancer (SCLC) produces and secretes BN/GRP (bombesin/gastrin releasing peptide). Because BN stimulates the growth of SCLC cells and these cells have receptors for BN-like peptides, it is important to define agents which disrupt this self-promoting autocrine growth cycle. Here, substance P analogues were evaluated as BN receptor antagonists using SCLC cell lines. (D-Arg¹, D-Pro², D-Trp^7,9, Leu¹¹) substance P [(APTTL)SP] was one of the more potent analogues tested in inhibiting BN-like peptide receptor binding with an IC₅₀ value of 1 μM. Micromolar concentrations of (APTTL)SP antagonized BN receptor mediated elevation of cytosolic Ca²⁺ levels and decreased the colony formation in soft agarose. These data suggest that SP analogues function as SCLC BN receptor antagonists and may be useful in disrupting the autocrine growth function of BN-like peptides.     

Analysis of glycosphingolipid-derived oligosaccharides by high pH anion exchange chromatography

As an adjunct to existing thin layer and column chromatographic methods for the identification of glycolipids a method that utilizes the high pH anion chromatographic (HPAEC) analysis of the oligosaccharides released from the glycolipids by endoglycoceramidase has been developed. Using a Dionex Carbo Pak PA1 column and elution with a linear gradient of sodium acetate in 0.2M NaOH, the elution times of eight neutral and fourteen acidic oligosaccharides derived from glycolipids were determined. Under these conditions the neutral oligosaccharides were well separated from each other but some of the acidic oligosaccharides had overlapping elution times. The ganglioside-derived oligosaccharides could be further identified by treating them with sialidase or by mild acid hydrolysis and reanalysing the products by HPAEC. The method was applied to the analysis of mixed bovine brain gangliosides. The procedure provides an additional approach for the initial identification of glycolipids by analysing the component oligosaccharides rather than the intact glycolipids.     

Effect of hibernation, thyroid hormones and dexamethasone on cytosolic and mitochondrial glycerol-3-phosphate dehydrogenase from jerboa (Jaculus orientalis)

Tissue distribution of the cytosolic and mitochondrial glycerol-3-phosphate dehydrogenase (cGPDH and mGPDH) activities in jerboa (Jaculus orientalis), a hibernator, shows the highest level of enzyme activity in skeletal muscle and brown adipose tissue, respectively. The effect of hibernation on cGPDH indicates an increase of activity in all tissues examined. In contrast, hibernation decreases mGPDH activity in all tissues, except skeletal muscle. The effect of thyroid hormones on GPDH activity was tissue specific: in kidneys, cGPDH activity doubled in euthermic jerboas treated with T4. In contrast, 6-n-propyl-2-thiouracil treatment provokes an increase of enzyme activity in brown adipose tissue, liver and brain. T4 treatment leads to a 2.7-fold increase in liver mGPDH activity. 6-n-propyl-2-thiouracil treatment decreases mGPDH activity in the skeletal muscle whereas the opposite effect was observed in brain. Dexamethasone stimulates cGPDH in all tissues examined, except skeletal muscle and kidneys. In the case of mGPDH activity, this increase was observed only for brown adipose tissue and brain. Our results suggest that hibernation, thyroid hormones and dexamethasone probably play a role in the regulation of cGPDH and mGPDH activities in jerboa. Our findings confirm that these enzymes are involved in metabolic adaptation to thermal stress in Jaculus orientalis.