Chloride channels of glycine and GABA receptors with blockers: Monte Carlo minimization and structure-activity relationships

GABA and glycine receptors (GlyRs) are pentameric ligand-gated ion channels that respond to the inhibitory neurotransmitters by opening a chloride-selective central pore lined with five M2 segments homologous to those of alpha(1) GlyR/ ARVG(2')LGIT(6')TVLTMTTQSSGSR. The activity of cyanotriphenylborate (CTB) and picrotoxinin (PTX), the best-studied blockers of the Cl(-) pores, depends essentially on the subunit composition of the receptors, in particular, on residues in positions 2' and 6' that form the pore-facing rings R(2') and R(6'). Thus, CTB blocks alpha(1) and alpha(1)/beta, but not alpha(2) GlyRs (Rundström, N., V. Schmieden, H. Betz, J. Bormann, and D. Langosch. 1994. Proc. Natl. Acad. Sci. U.S.A. 91:8950-8954). PTX blocks homomeric receptors (alpha(1) GlyR and rat rho(1) GABAR), but weakly antagonizes heteromeric receptors (alpha(1)/beta GlyR and rho(1)/rho(2) GABAR) (Pribilla, I., T. Takagi, D. Langosch, J. Bormann, and H. Betz. 1992. EMBO J. 11:4305-4311; Zhang D., Z. H. Pan, X. Zhang, A. D. Brideau, and S. A. Lipton. 1995. Proc. Natl. Acad. Sci. U.S.A. 92:11756-11760). Using as a template the kinked-helices model of the nicotinic acetylcholine receptor in the open state (Tikhonov, D. B., and B. S. Zhorov. 1998. Biophys. J. 74:242-255), we have built homology models of GlyRs and GABARs and calculated Monte Carlo-minimized energy profiles for the blockers pulled through the pore. The profiles have shallow minima at the wide extracellular half of the pore, a barrier at ring R(6'), and a deep minimum between rings R(6') and R(2') where the blockers interact with five M2s simultaneously. The star-like CTB swings necessarily on its way through ring R(6') and its activity inversely correlates with the barrier at R(6'): Thr(6')s and Ala(2')s in alpha(2) GlyR confine the swinging by increasing the barrier, while Gly(2')s in alpha(1) GlyR and Phe(6')s in beta GlyR shrink the barrier. PTX has an egg-like shape with an isopropenyl group at the elongated end and the rounded end trimmed by ether and carbonyl oxygens. In the optimal binding mode to alpha(1) GlyR and rho(1) GABAR, the rounded end of PTX accepts several H-bonds from Thr(6')s, while the elongated end enters ring R(2'). The lack of H-bond donors on the side chains of Phe(6')s (beta GlyR) and Met(6')s (rho(2) GABAR) deteriorates the binding. The hydrophilic elongated end of picrotin does not fit the hydrophobic ring of Pro(2')s/Ala(2')s in GABARs, but fit a more hydrophilic ring with Gly(2')s in GlyRs. This analysis provides explanations for structure-activity relationships of noncompetitive agonists and predicts a narrow pore of LGICs in agreement with experimental data on the permeation of organic cations.

Effect of vitamin E on the response to ischemia-reperfusion of Langendorff heart preparations from hyperthyroid rats

Hyperthyroidism has been reported to decrease heart antioxidant capacity and increase its susceptibility to in vitro oxidative stress. This may affect the heart response to ischemia-reperfusion, a condition that increases free radical production. We compared the functional recovery from in vitro ischemia-reperfusion (Langendorff) of hearts from euthyroid (E), hyperthyroid (H, ten daily intraperitoneal injections of T3, 10 microg/100g body weight), vitamin E-treated (VE, ten daily intramuscular injections, 20 mg/100g body weight) and hyperthyroid vitamin E-treated (HVE) rats. We also determined lipid peroxidation, tissue antioxidant capacity and the tissue capability to face an oxidative stress in vitro. A significant tachycardia was displayed during reperfusion following 20 min ischemia by the hyperthyroid hearts, together with a low recovery of left ventricular developed pressure (LVDP) and left ventricular dP/dt(max). When H hearts were paced at 300 beats/min, the functional recovery (LVDP and dP/dt(max)) was close to 100% and significantly higher than in E paced hearts. At the end of the ischemia-reperfusion protocol, myocardium antioxidant capacity was significantly lower, whereas lipid peroxidation and the susceptibility to in vitro oxidative stress were higher in the T3 treated (H) than in euthyroid rats. The in vitro tachycardic response, the reduction in the antioxidant capacity and the increase in lipid peroxidation were prevented by treatment of hyperthyroid rats with vitamin E (HVE). These results suggest that the tachycardic response to reperfusion following chronic T3 pretreatment was associated with the reduced capability of the heart to face oxidative stresses in hyperthyroidism.

Descriptive study of human and bovine tuberculosis in Querétaro, México

A 5-year retrospective study (1992-1996) to look at the situation of human tuberculosis was conducted in Querétaro, México. Also, a 6-month study to determine the frequency of gross lesions in dairy cattle at slaughter, and a short experiment to evaluate the effect of sodium borate in the survival of M. bovis in lesions were carried out. The number of cases were 114 in 1992, 211 in 1995, and 174 in 1996. Possible risk factors were: overcrowding, under-nutrition, previous cases of TB in the family, concurrent Diabetes mellitus, poor personal hygiene, smoking, and alcohol abuse. Eighty percent of the cases were pulmonary. The number of cases increase with age, from 5% in patients 10-year old or younger to 42% in patients 50-year old or older. Seventy-two percent were cured, and only 6% die. Persistent coughing was by far the most observed clinical symptom. From 112 acid-fast negative samples, 8.9% were positive by culture. From 1,201 carcasses revised at slaughter, 17% presented TB-gross lesions. Ninety-six percent were localized lesions involving frequently a single organ, mostly retropharyngeal, mediastinal, mesenteric and mandibular lymph. From 102 lesions, 95% were TB-compatible, and 79% were positive to isolation of M. bovis. Most affected animals were female > 2 years old. It was observed that keeping lesions in a 6% sodium borate solution does not affect the diagnosis of M. bovis by culture after 150 days.

Manganese-dependent inhibition of human liver arginase by borate

Full activation of human liver arginase (EC 3.5.3.1), by incubation with 5 mM Mn2+ for 10 min at 60 degrees C, resulted in increased Vmax and a higher sensitivity of the enzyme to borate inhibition, with no change in the K(m) for arginine. Borate behaved as an S-hyperbolic I-hyperbolic non-competitive inhibitor and had no effect on the interaction of the enzyme with the competitive inhibitors L-ornithine (Ki = 2 +/- 0.5 mM), L-lysine (Ki = 2.5 +/- 0.4 mM), and guanidinium chloride (Ki = 100 +/- 10 mM). The pH dependence of the inhibition was consistent with tetrahedral B(OH)4- being the inhibitor, rather than trigonal B(OH)3. We suggest that arginase activity is associated with a tightly bound Mn2+ whose catalytic action may be stimulated by addition of a more loosely bound Mn2+, to generate a fully activated enzyme form. The Mn2+ dependence and partial character of borate inhibition are explained by assuming that borate binds in close proximity to the loosely bound Mn2+ and interferes with its stimulatory action. Although borate protects against inactivation of the enzyme by diethyl pyrocarbonate (DEPC), the DEPC-sensitive residue is not considered as a ligand for borate binding, since chemically modified species, which retain about 10% of enzymatic activity, were also sensitive to the inhibitor.

Nitric oxide-induced S-glutathionylation and inactivation of glyceraldehyde-3-phosphate dehydrogenase

S-Nitrosylation of protein thiol groups by nitric oxide (NO) is a widely recognized protein modification. In this study we show that nitrosonium tetrafluoroborate (BF4NO), a NO+ donor, modified the thiol groups of glyceraldehyde-3-phosphate dehydrogenase (GAPDH) by S-nitrosylation and caused enzyme inhibition. The resultant protein-S-nitrosothiol was found to be unstable and to decompose spontaneously, thereby restoring enzyme activity. In contrast, the NO-releasing compound S-nitrosoglutathione (GSNO) promoted S-glutathionylation of a thiol group of GAPDH both in vitro and under cellular conditions. The GSH-mixed protein disulfide formed led to a permanent enzyme inhibition, but upon dithiothreitol addition a functional active GAPDH was recovered. This S-glutathionylation is specific for GSNO because GSH itself was unable to produce protein-mixed disulfides. During cellular nitrosative stress, the production of intracellular GSNO might channel signaling responses to form protein-mixed disulfide that can regulate intracellular function.

Tissue response to an epoxy resin-based root canal sealer

The objective of the present study was to evaluate two different types of root canal sealers: AH Plus (an epoxy resin-based sealer) and Fill Canal (a zinc oxide-eugenol based sealer). A total of 34 root canals with vital pulp from dogs' premolars were used. After instrumentation, the root canals were filled with gutta-percha and AH Plus or gutta-percha and Fill Canal sealers using a classical technique of lateral condensation. After histological processing, the sections were stained with hematoxylineosin or Mallory's trichrome stain. Inflammatory cells or areas of necrosis were not associated with AH Plus. Hard tissue formation apically to the material was observed in 14 specimens. The Fill Canal sealer presented an inflammatory response of moderate intensity in the periapical region, mainly adjacent to the material.

Multicomponent evaluations of the oxidising actions and status of a peroxoborate-containing tooth-whitening system in whole human saliva using high resolution proton NMR spectroscopy

High resolution 1H nuclear magnetic resonance (NMR) spectroscopy was employed to conduct a multicomponent investigation of the oxidation of salivary biomolecules by peroxoborate present in a tooth-whitening dentifrice formulation. The results acquired demonstrated that peroxoborate gave rise to the oxidative decarboxylation of the hydrogen peroxide scavenger pyruvate, a reaction generating acetate and CO2 as products. Experiments performed on chemical model systems confirmed the oxidative consumption of pyruvate by dentifrice-derived peroxoborate, and also revealed that the salivary electron donors cysteine and methionine (precursors to volatile sulphur compounds), were oxidised to cystine and methionine sulphoxide respectively. The biochemical and periodontal significance of these results is discussed.

Histological evaluation of the response of apical tissues to glass ionomer and zinc oxide-eugenol based sealers in dog teeth after root canal treatment

The object of the study was to compare two commercial root canal sealers: Ketac-Endo (a glass ionomer cement) and Fill Canal (a zinc oxide-eugenol cement). A total of 34 root canals from dog premolars with vital pulps were used. After instrumentation, the root canals were sealed with Ketac-Endo and Fill Canal cements using gutta-percha and a lateral condensation technique. After 270 days the animals were sacrificed with an anesthetic overdose and the maxillae and mandibles were removed and fixed in formalin for 48 h. After routine histological processing the sections were stained with hematoxylin-eosin and Mallory trichrome stains. Microscopic analysis revealed that Ketac-Endo cement presented better results than Fill Canal cement.

Potentiating effects of pertussis toxin on leukotriene C4 induced formation of inositol phosphate and prostacyclin in human umbilical vein endothelial cells

Leukotriene C4 is an arachidonic acid metabolite and an important mediator of inflammation and anaphylaxis that is known to induce production of prostacyclin in endothelial cells. The goal of this study was to examine the signal transduction mechanisms activated by leukotriene C4 stimulation. Formation of inositol phosphates was measured to determine the activation of phospholipase C and pertussis toxin was used to explore the role of G-proteins. Additionally, we evaluated the role of protein kinase C in these events, especially whether there was an interaction between pertussis toxin mediated effects and the activity of protein kinase C. Leukotriene C4 induced a dose- and time-dependent formation of inositol phosphates and prostacyclin. The response to leukotriene C4 was greater than the response to leukotriene D4 even after treatment with L-serine borate complex, suggesting the presence of a specific leukotriene C4 receptor. Exposure to pertussis toxin potentiated, time-dependently, the leukotriene C4 induced formation of inositol phosphates and prostacyclin through a mechanism which was altered by manipulation of protein kinase C activity. The exact mechanism is not clear but our results are consistent with a postulated dual mechanism of phospholipase C control, in which leukotriene C4 induced stimulation is attenuated by a pertussis toxin sensitive G-protein.

L-arginine binding to liver arginase requires proton transfer to gateway residue His141 and coordination of the guanidinium group to the dimanganese(II,II) center

Rat liver arginase contains a dimanganese(II,II) center per subunit that is required for catalytic hydrolysis of l-arginine to form urea and l-ornithine. A recent crystallographic study has shown that the Mn2 center consists of two coordinatively inequivalent manganese(II) ions, MnA and MnB, bridged by a water (hydroxide) molecule and two aspartate residues [Kanyo et al. (1996) Nature 383, 554-557]. A conserved residue, His141, is located near the proposed substrate binding region at 4.2 A from the bridging solvent molecule. The present EPR studies reveal that there is no essential alteration of the Mn2 site upon mutation of His141 to an Asn residue, which lacks a potential acid/base residue, while the catalytic activity of the mutant enzyme is 10 times lower vs wild-type enzyme. The binding affinity of l-lysine, l-arginine (substrate), and Nomega-OH-l-arginine (type 2 binders) increases inversely with the pKa of the side chain. Binding of l-lysine is more than 10 times weaker, and the substrate Michaelis constant (Km) is >6-fold greater (weaker binding) in the His141Asn mutant than in wild-type arginase. L-Lysine and Nomega-OH-L-arginine, type 2 binders, induce extensive loss of the EPR intensity, suggesting direct coordination to the Mn2 center. From these data and the pH dependence of type 2 binders, we conclude that His141 functions as the base for deprotonation of the side-chain amino group of L-lysine and the substrate guanidinium group, -NH-C(NH2)2+ and that the unprotonated side chain of these amino acids is responsible for binding to the active site. A different class of inhibitors (type 1), including L-isoleucine, L-ornithine, and L-citrulline, suppresses enzymatic activity, producing only minor change in the zero-field splitting of the Mn2 EPR signal and no change in the EPR intensity, suggestive of minimal conformational transformation. We propose that type 1 alpha-amino acid inhibitors do not bind directly to either Mn ion, but interact with the recognition site on arginase for the alpha-aminocarboxylate groups of the substrate. A new mechanism for the arginase-catalyzed hydrolysis of L-arginine is proposed which has general relevance to all binuclear hydrolases: (1) Deprotonation of substrate l-arginine(H+) by His141 permits entry of the neutral guanidinium group into the buried Mn2 region. Binding of the substrate imino group (>C=NH), most likely to MnB, is coupled to breaking of the MnB-(mu-H2O) bond, forming a terminal aquo ligand on MnA. (2) Proton transfer from the terminal MnA-aqua ligand to the substrate Ndelta-guanidino atom forms the nucleophilic hydroxide on MnA and the cationic NdeltaH2+-guanidino leaving group. Protonation of the substrate -NdeltaH2+-group is likely assisted by hydrogen bonding to the juxtaposed anionic carboxylate group of Glu277. (3) Attack of the MnA-bound hydroxide at the electrophilic guanidino C-atom forms a tetrahedral intermediate. (4) Formation of products is initiated by cleavage of the Cepsilon-NdeltaH2+ bond, yielding urea and L-ornithine(H+).

A quantitative comparison of traditional and non-peroxide bleaching agents

Single-rooted premolar teeth, stained with blood utilizing the technique devised by Freccia & Peters (1981), were subjected to traditional and non-peroxide bleaching agents. Colour changes were recorded over a period of 7 days using a Speedmaster R75-CP Reflection Densitometer. The most efficient removal of staining occurred after the application of 30% hydrogen peroxide, with sodium perborate being 75% as effective. All bleaching agents realized their optimum efficacy within the first 3 days. A combination of three enzymes (amylase, lipase and trypsin) with disodium edetate was not as effective as the routine bleaching agents; however, the combination did have a modifying effect on the blood stains. It is suggested that other non-peroxide agents should be investigated to determine their efficacy in removing staining from experimentally induced blood-stained teeth.

The effect of the bleaching agent sodium perborate on macrophage adhesion in vitro: implications in external cervical root resorption

The purpose of this study was to investigate the in vitro effect of sodium perborate, which is used as a bleaching agent in the treatment of discolored pulpless teeth, on substrate adherence capacity of macrophages. Inflammatory macrophages were obtained from Wistar rats and resuspended in RPMI-1640 medium. As a test of macrophage adhesion, the adherence capacity of macrophages to a plastic surface was determined. Assays were conducted in Eppendorf tubes for 15 min of incubation at 37 degrees C in a humidified atmosphere of 5% CO2. The adherence index was calculated. Results showed that sodium perborate decreased in a dose-dependent manner and decreased significantly (p < 0.05) the adherence index of rat peritoneal macrophages. Sodium perborate was less potent than sodium hypochlorite and eugenol in inhibiting macrophage adhesion. The inhibitory effect of sodium perborate on macrophage adhesion further supports the concept that this agent is not implicated in external cervical root resorption associated with intracoronal bleaching.

Nitric oxide reversibly inhibits seven members of the caspase family via S-nitrosylation

The caspases are a family of at least 10 human cysteine proteases that participate in cytokine maturation and in apoptotic signal transduction and execution mechanisms. Peptidic inhibitors of these enzymes are capable of blocking cytokine maturation and apoptosis, demonstrating their crucial roles in these processes. We have recently discovered that nitric oxide (NO), produced either extracellularly by NO donors or intracellularly by the inducible nitric oxide synthase, prevented apoptosis in hepatocytes. Caspase-3-like activity was found to be inhibited under these conditions. To investigate further the interaction between NO and caspases, we utilized purified human recombinant caspases and examined the effect of NO on enzymatic activities of different caspases. We report here that of the seven caspases studied, all were reversibly inhibited by NO. Dithiothreitol was able to reverse the NO inhibition, indicating direct S-nitrosylation of caspase catalytic cysteine residue by NO. Our results support the concept that NO is an endogenous regulator of caspase activity.

The diuretic effect of borocaptate sodium in rats and in patients with brain tumors

Kidney function changes after single-dose administration of borocaptate sodium were studied in rats and in patients with brain tumors. Changes of glomerular filtration rate (GFR) measured as 14C-inulin clearance and urine flow rate (UFR) after a slow intravenous injection of BSH (25 and 50 mg/kg b.w., respectively) were investigated in rats under pentobarbital anesthesia. The effect of BSH has been compared with that of its disulfide (BSSB) which is spontaneously generated by oxidation of BSH during storage. It was found that BSH decreases GFR in relation to dose and, in the same way, causes a temporary increase of UFR. On the other hand, BSSB (50 mg/kg) induced a large reversible decrease of GFR as well as a decrease of urine excretion. Measurements of GFR (inulin clearance), renal plasma flow (PAH clearance) and urine excretion were taken in a group of patients with brain tumors in which boron disposition after an infusion of BSH (25 mg/kg b.w. over 1 h) had been studied. An increase in urine production was the dominant effect (up to 200% of the initial value), with the alterations of GFR and RPF being of minor significance except in one patient with a GFR reduction up to almost 50% the original value. Kidney function changes after BSH or BSSB administration are supposedly related to the high retention of BSH in kidney.

Physiology and pharmacology of native glycine receptors in developing rat auditory brainstem neurons

Glycinergic neurotransmission is mediated via inhibitory glycine receptors (GlyRs) which are heterogeneous during development. Electrophysiological studies performed on recombinant GlyRs have identified different pharmacological properties and attributed them to differences in their subunit composition. Here, we report on age-related changes in the response properties of native GlyRs in the mammalian brain. Whole-cell patch-clamp recordings were obtained from neurons of the medial nucleus of the trapezoid body (MNTB), a major relay station in the mammalian auditory brainstem. Experiments were performed in acute medullary slices of rats between postnatal day (P) 1 and P15, a period during which synapse maturation occurs. Glycine-induced currents were present throughout the period under investigation and displayed age-related modifications in their amplitude, kinetic characteristics, and sensitivity to drugs. Current amplitudes and GlyR desensitization behavior increased with age. The alpha 1 subunit-specific GlyR antagonist cyanotriphenylborate (CTB) was barely effective in reducing glycine-induced currents during the first few postnatal days, yet a significant increase of the inhibitory effect occurred after the first postnatal week. This finding indicates that alpha 1 subunit-containing GlyRs become expressed only postnatally in the MNTB. Picrotoxin, which most effectively blocks recombinant alpha 2-homooligomers, reduced glycine-induced currents in neonatal MNTB neurons, suggesting that alpha 2-homooligomers may form native GlyR isoforms. Our results show that the physiology and pharmacology of GlyRs in the auditory brainstem underlie age-related changes which are most probably produced through a replacement of "neonatal" alpha 2 subunits with "adult" alpha 1 subunits.

Alteration in gamma-glutamyl transpeptidase activity and messenger RNA of human prostate carcinoma cells by androgen

Concentrations of the synthetic androgen R1881 that correspond to physiologically relevant concentrations of 5alpha-dihydrotestosterone are capable of altering the activity of gamma-glutamyl transpeptidase (GGT) in human prostate carcinoma cells. GGT activity of the androgen-responsive prostate cancer cell line LNCaP increases >50% above that of the control after a 72-h exposure to 1 nM R1881. This elevation in GGT activity occurs as early as 48 h after treatment and is maintained for at least 96 h. Loss of glutathione (GSH) from media and accumulation of intracellular GSH of cells pretreated with 1 nM R1881 occur at a higher rate than in control cells, suggesting that a greater rate of GSH salvage is associated with the increased GGT activity. Immunohistochemical staining detects an increase in GGT-positive staining in cells treated with 1 nM R1881 for 72 h. Steady-state mRNA levels for GGT are elevated above those of the control 24-72 h after treatment. R1881 has no effect on the GGT activity of the androgen-independent prostate cell line DU145. Growth of LNCaP but not DU145 cells is inhibited by 1 nM R1881 compared to that of the control. Inhibitors of GGT activity, acivicin and serine-borate, are capable of dampening or blocking the effect of R1881 on growth. Growth of LNCaP cells treated with 1 nM R1881 plus 100 mM glycylglycine, a stimulator of GGT activity, is inhibited to a greater extent than the growth of LNCaP cells treated with R1881 alone. These data demonstrate that androgens can elevate GGT activity and increase GGT mRNA and protein levels in human prostate carcinoma cells. In addition, compounds able to alter GGT activity are capable of altering androgen-related growth effects.

Dicarbanonaborates in yeast respiration and membrane transport

Two derivatives of carborates, sodium 5,6-dichloro-7,8-dicarbanonaborate (CB-Cl) and sodium 5-mercapto-7,8-dicarbanonaborate (CB-SH) were found to inhibit endogenous as well as glucose-induced respiration of the yeast Saccharomyces cerevisiae. Both substances slightly increased endogenous acid production, were neutral toward H(+)-ATPase-associated acidification but pronouncedly inhibited the K(+)-stimulated acidification. The same effects were observed also with an ATPase-deficient mutant of the yeast. The ATP-hydrolyzing activity of yeast plasma membranes in vitro was severely reduced. The membrane potential was substantially increased toward more negative values. The H(+)-symporting uptake of glutamic acid was considerably decreased, that of adenine was diminished much less. The effects of the dicarbanonaborates are obviously pleiotropic but their inhibition of ATP hydrolysis and of uptake of H(+)-symported substances, on the one hand, and absolute lack of effect on ATPase-catalyzed acidification, on the other, pose an unresolved problem.

Side reactions catalyzed by ribulose-bisphosphate carboxylase in the presence and absence of small subunits

The large subunit core of ribulose-bisphosphate carboxylase from Synechococcus PCC 6301 expressed in Escherichia coli in the absence of its small subunits retains a trace of carboxylase activity (about 1% of the kcat of the holoenzyme) (Andrews, T. J (1988) J. Biol. Chem. 263, 12213-12219). During steady-state catalysis at substrate saturation, this residual activity diverted approximately 10% of the reaction flux to 1-deoxy-D-glycero-2,3-pentodiulose-5-phosphate as a result of beta elimination of inorganic phosphate from the first reaction intermediate, the 2,3-enediol form of ribulose bisphosphate. This indicates that the active site's ability to stabilize and/or retain this intermediate is compromised by the absence of small subunits. Epimerization and isomerization of the substrate resulting from misprotonation of the enediol intermediate were not significantly exacerbated by lack of small subunits. The residual carboxylating activity partitioned product between pyruvate and 3-phosphoglycerate in a ratio similar to that of the holoenzyme, indicating that stablization of the penultimate three-carbon aci-acid intermediate is not perturbed by lack of small subunits. The underlying instability of the five-carbon enediol intermediate was revealed, even with the holoenzyme, under conditions designed to lead to exhaustion of substrate CO2 (and O2). When carboxylation (and oxygenation) stalled upon exhaustion of gaseous substrate, both spinach and Synechococcus holoenzymes continued slowly to beta eliminate inorganic phosphate from and to misprotonate the enediol intermediate. With carboxylation and oxygenation blocked, the products of these side reactions of the enediol intermediate accumulated to readily detectable levels, illustrating the difficulties attendant upon ribulose-P2 carboxylase's use of this reactive species as a catalytic intermediate.

Tissue protection against oxidative stress

We used an enhanced luminescence technique to study the response of rat tissues, such as liver, heart, muscle and blood, to oxidative stress and to determine their antioxidant capacity. As previously found for liver homogenate, the intensity of light emission (E) of tissue homogenates and blood samples, stressed with sodium perborate, is dependent on concentration, and the dose-response curves can be described by the equation E = a.C/exp(b.C). The b value depends on the antioxidant defence capability of the tissues. In fact, it increases when homogenates are supplemented with an antioxidant, and is correlated with tissue antioxidant capacity, evaluated by two previously set up methods both using the same luminescence technique. Our results indicate that the order of antioxidant capacity of the tissues is liver > blood > heart > muscle. The a value depends on the systems catalysing the production of radical species. In fact, it is related to the tissue level of hemoproteins, which are known to act as catalysts in radical production from hydroperoxides. The equation proposed to describe the dose-response relation is simple to handle and permits an immediate connection with the two characteristics of the systems analysed which determine their response to the pro-oxidant treatment. However, the equation which best describes the above relation for all the tissues is the following: E = alpha. C/exp(beta.C delta). The parameter delta assumes values smaller than 1, which seem to depend on relative amounts of tissue hemoproteins and antioxidants. The extension of the analysis to mitochondria shows that they respond to oxidative stress in a way analogous to the tissues, and that the adherence of the dose-response curve to the course predicted from the equation E = a.C/exp(b.C) is again dependent on hemoprotein content.

Inhibition of mitochondrial cytochrome C oxidase by dicarbanonaborates

Dicarbanonaborates inhibit the mitochondrial cytochrome c oxidase activity. In contrast to mitochondrial ATPase or glycerol phosphate dehydrogenase, inhibition of cytochrome c oxidase was not competitive and the residual, drug-insensitive activity was higher. These results indicate that dicarbanonaborates inhibit various mitochondrial membrane-bound enzymes through different mechanisms.

Leukotriene C4 inhibits ciliary activity in the presence of gamma-glutamyl transpeptidase

We incubated human paranasal sinus mucosa in tissue culture with each of leukotrienes C4, D4, and E4 (LTC4, LTD4, and LTE4). Ciliary beat frequency (CBF) was measured photoelectrically, and the concentrations of leukotrienes in the incubation medium were determined over time. LTC4 significantly decreased CBF with 2-h, 4-h, and 8-h exposures to 10(-6) M, 10(-8) M, and 10(-10) M, respectively. Moreover, LTC4 dose dependently reduced CBF to 81.4% of the initial value after 6-h exposure to 10(-6) M, to 82.5% after 8-h exposure to 10(-8) M, and to 89.7% after 12-h exposure to 10(-10) M. LTD4 also exhibited progressive ciliary inhibition, while LTE4 had a minimal effect on CBF. In the medium, LTC4 was changed to LTD4 and further to LTE4. gamma-Glutamyl transpeptidase (gamma-GTP), an enzyme that converts LTC4 to LTD4, was detected in the mucosa. Serine-borate complex, an inhibitor of gamma-GTP, blocked the inhibitory effect of LTC4 on CBF. These findings suggest that LTC4 may induce ciliary inhibition indirectly by conversion to LTD4.

Boromycin, an anti-HIV antibiotic

The polyether-macrolide antibiotic, boromycin, was isolated as a potent anti-human immunodeficiency virus (HIV) antibiotic from a fermentation broth of Streptomyces sp. A-3376. Boromycin was found to strongly inhibit the replication of the clinically isolated HIV-1 strain as well as the cultured strain in in vitro laboratory experiments. The mechanism for the anti-HIV activity of boromycin is suggested to involve blocking the later stage of HIV infection, and probably the maturity step for replication of the HIV molecule.

Capillary zone electrophoresis of minocycline

A method is described for analysis of the tetracycline antibiotic minocycline using capillary zone electrophoresis. Potential impurities are 4-epiminocycline, 6-deoxy-6-demethyltetracycline, 7-didemethylminocycline, 7-monodemethylminocycline and 9-minocycline. Method development was undertaken with a mixture consisting of minocycline and its related substances mentioned above. Using a fused silica capillary, the type of buffer and its pH and concentration were investigated. In all cases 1 mM EDTA was added to prevent metal ion complexation. Instrumental parameters such as capillary temperature and applied voltage were optimised. The effects of the sample solvent and of organic modifiers in the buffer were also investigated. The following method is proposed: capillary: fused silica, l = 38 cm, L = 44 cm, 50 microns i.d.; buffer: 25 mM sodium tetraborate, 1 mM EDTA at pH 11.75; voltage, 13 kV; temperature, 15 degrees C; UV detection performed at 254 nm. Relative standard deviations, linearity, LOD and LOQ are reported and compared with those of liquid chromatography.