Characteristics of (Na++K+)-ATPase inBoergesenia forbesii

(Na⁺+K⁺)-ATPase proved to be present in the vegetative thalli ofBoergesenia forbesii (Harvey) Feldmann. The ATPase was extracted with Triton X-100 and partially purified by Sephadex G-150 gel filtration. The enzyme was activated with Mg²⁺ and further stimulated by the addition of K⁺ and Na⁺. It was observed thatp-chloromercuribenzoate (PCMB),N-ethylmaleimide (NEM), iodoacetoamide, copper sulfate, zinc sulfate, lead nitrate and cadmium chloride inhibited the enzyme activity, but ouabain was ineffective, andN,N′-dicyclohexylcarbodiimide (DCCD) did not apparently inhibit the activity, but rather promoted it slightly. The ATPase activity was also shown in the isolated cell wall ofBoergesenia thalli, and the enzyme activity was detected in the wall itself by using electron microscopic methods.     

Plasma membrane H+-ATPase in sorghum roots as affected by potassium deficiency and nitrogen sources

We studied the influence of inorganic nitrogen sources (NO₃ ^? or NH₄ ⁺) and potassium deficiency on expression and activity of plasma membrane (PM) H⁺-ATPase in sorghum roots. After 15 d of cultivation at 0.2 mM K⁺, the plants were transferred to solutions lacking K⁺ for 2 d. Then, K⁺ depletion assays were performed in the presence or absence of vanadate. Further, PMs from K⁺-starved roots were extracted and used for the kinetic characterization of ATP hydrolytic activity and the immunodetection of PM H⁺-ATPase. Two major genes coding PM H⁺-ATPase (SBA1 and SBA2) were analyzed by real-time PCR. PM H⁺-ATPase exhibited a higher V_max and K_m in NH₄ ⁺-fed roots compared with NO₃ ^? -fed roots. The optimum pH of the enzyme was slightly lower in NO₃ ^? -fed roots than in NH₄ ⁺-fed roots. The vanadate sensitivity was similar. The expressions of SBA1 and SBA2 increased in roots grown under NH₄ ⁺. Concomitantly, an increased content of the enzyme in PM was observed. The initial rate of K⁺ uptake did not differ between plants grown with NO₃ ^? or NH₄ ⁺, but it was significantly reduced by vanadate in NH₄ ⁺-grown plants.     

Characterization of a class II 5-enopyruvylshikimate-3-phosphate synthase with high tolerance to glyphosate from Sinorhizobium fredii

5-Enopyruvylshikimate-3-phosphate synthase (EPSP synthase) is an important enzyme in the shikimate pathway mediating the biosynthesis of aromatic compounds in plants and microorganisms. A novel class II EPSP synthase AroA _{S. fredii} from Sinorhizobium fredii NGR234 was overexpressed in Escherichia coli BL21. It was purified to homogeneity and its catalytic properties were studied. The enzyme exhibited optimum catalytic activity at pH 8.0 and 50 °C. It was stable below 40 °C, and over a broad range of pH 5.0–9.0. The EPSP synthase was increasingly activated by 100 mM of the chlorides of NH₄ ⁺, K⁺, Na⁺ and Li⁺. Kinetic analysis of AroA _{S. fredii} suggested that the enzyme exhibited a high glyphosate tolerance and high level of affinity for phosphoenolpyruvate, which indicates the enzyme with a high potential for structural and functional studies and its potential usage for the generation of transgenic crops resistant to the herbicide.     

Mechanisms of Na+ uptake,ammonia excretion,and their potential linkage in native Rio Negro tetras (Paracheirodon axelrodi,Hemigrammus rhodostomus,and Moenkhausia diktyota)

Mechanisms of Na⁺ uptake, ammonia excretion, and their potential linkage were investigated in three characids (cardinal, hemigrammus, moenkhausia tetras), using radiotracer flux techniques to study the unidirectional influx (J _in), efflux (J _out), and net flux rates (J _net) of Na⁺ and Cl^?, and the net excretion rate of ammonia (J _Amm). The fish were collected directly from the Rio Negro, and studied in their native “blackwater” which is acidic (pH 4.5), ion-poor (Na⁺, Cl^? ~20 µM), and rich in dissolved organic matter (DOM 11.5 mg C l^?1). J _in ^Na , J _in ^Cl , and J _Amm were higher than in previous reports on tetras obtained from the North America aquarium trade and/or studied in low DOM water. In all three species, J _in ^Na was unaffected by amiloride (10^?4 M, NHE and Na⁺ channel blocker), but both J _in ^Na and J _in ^Cl were virtually eliminated (85–99 % blockade) by AgNO₃ (10^?7 M). A time course study on cardinal tetras demonstrated that J _in ^Na blockade by AgNO₃ was very rapid (<5 min), suggesting inhibition of branchial carbonic anhydrase (CA), and exposure to the CA-blocker acetazolamide (10^?4 M) caused a 50 % reduction in J _in ^Na _.. Additionally, J _in ^Na was unaffected by phenamil (10^?5 M, Na⁺ channel blocker), bumetanide (10^?4 M, NKCC blocker), hydrochlorothiazide (5 × 10^?3 M, NCC blocker), and exposure to an acute 3 unit increase in water pH. None of these treatments, including partial or complete elimination of J _in ^Na (by acetazolamide and AgNO₃ respectively), had any inhibitory effect on J _Amm. Therefore, Na⁺ uptake in Rio Negro tetras depends on an internal supply of H⁺ from CA, but does not fit any of the currently accepted H⁺-dependent models (NHE, Na⁺ channel/V-type H⁺-ATPase), or co-transport schemes (NCC, NKCC), and ammonia excretion does not fit the current “Na⁺/NH₄ ⁺ exchange metabolon” paradigm. Na⁺, K⁺-ATPase and V-type H⁺-ATPase activities were present at similar levels in gill homogenates, Acute exposure to high environmental ammonia (NH₄Cl, 10^?3 M) significantly increased J _in ^Na , and NH₄ ⁺ was equally or more effective than K⁺ in activating branchial Na⁺,(K⁺) ATPase activity in vitro. We propose that ammonia excretion does not depend on Na⁺ uptake, but that Na⁺ uptake (by an as yet unknown H⁺-dependent apical mechanism) depends on ammonia excretion, driven by active NH₄ ⁺ entry via basolateral Na⁺,(K⁺)-ATPase.     

De novo expression of fetal ED-A+ fibronectin and B+ tenascin-C splicing variants in human cardiac allografts: potential impact for targeted therapy of rejection

Management of acute and especially chronic rejection after human cardiac transplantation is still challenging. Chronic rejection, represented by allograft vasculopathy (CAV) and cardiac interstitial fibrosis (CIF) is known to cause severe long-term complications. Rejection associated tissue-remodelling entails the reoccurrence of fetal variants of Fibronectin (Fn) and Tenascin-C (Tn-C), which are virtually absent in adult human organs. In a rat model, an extensive re-expression could be demonstrated for ED-A⁺ Fn with spatial association to CAV and CIF. Thus, it is of great interest to investigate the cardiac tissue expression and distribution in human samples. From 48 heart transplanted patients, 64 tissue specimens derived from right ventricular biopsies were available. Histopathological analysis was performed according to the International Society for Heart and Lung Transplantation (ISHLT) guidelines for the detection of acute rejection. By immunohistochemistry, protein expression of ED-A⁺ Fn, B⁺ Tn-C, alpha-smooth muscle actin, CD31 and CD45 was assessed and analysed semiquantitatively. Co-localisation studies were performed by means of immunofluorescence double labelling. Histopathological analysis of the 64 samples revealed different ISHLT grades (0R in 36 cases, 1R in 20 cases and 2R in 8 cases). There was a distinct and quantitatively relevant re-occurrence of ED-A⁺ Fn and B⁺ Tn-C in most samples. Semi-quantitative evaluation did not show any correlation to the acute rejection grade for all markers. Interestingly, significant correlations to the extent of inflammation could be shown for ED-A⁺ Fn (r = 0.442, p = 0.000) and B⁺ Tn-C (r = 0.408, p = 0.001) as well as between both proteins (r = 0.663, p = 0.000). A spatial association of ED-A⁺ Fn and B⁺ Tn-C to CAV and CIF could be demonstrated. A relevant re-occurrence of ED-A⁺ Fn and B⁺ Tn-C following human heart transplantation could be demonstrated with spatial association to signs of rejection and a significant correlation to tissue inflammation. These data might contribute to the identification of novel biomarkers reflecting the rejection process and to the development of promising strategies to image, prevent or treat cardiac rejection.     

Ion transport in broad bean leaf mesophyll under saline conditions

Main conclusion

Salt stress reduces the ability of mesophyll tissue to respond to light. Potassium outward rectifying channels are responsible for 84 % of Na ⁺ induced potassium efflux from mesophyll cells. Modulation in ion transport of broad bean (Vicia faba L.) mesophyll to light under increased apoplastic salinity stress was investigated using vibrating ion-selective microelectrodes (the MIFE technique). Increased apoplastic Na⁺ significantly affected mesophyll cells ability to respond to light by modulating ion transport across their membranes. Elevated apoplastic Na⁺ also induced a significant K⁺ efflux from mesophyll tissue. This efflux was mediated predominately by potassium outward rectifying channels (84 %) and the remainder of the efflux was through non-selective cation channels. NaCl treatment resulted in a reduction in photosystem II efficiency in a dose- and time-dependent manner. In particular, reductions in Fv′/Fm′ were linked to K⁺ homeostasis in the mesophyll tissue. Increased apoplastic Na⁺ concentrations induced vanadate-sensitive net H⁺ efflux, presumably mediated by the plasma membrane H⁺-ATPase. It is concluded that the observed pump’s activation is essential for the maintenance of membrane potential and ion homeostasis in the cytoplasm of mesophyll under salt stress.     

The effects of galectin-1 on the gene expression of the transcription factors TBX21, GATA-3, FOXP3 and RORC

CD4⁺ T cells orchestrate the immune response by differentiating into T helper (Th) or regulatory (Treg) cell subsets that secrete distinct sets of cytokines. They also play a critical role in the pathogenesis of autoimmunity, asthma, allergy and, likely, cancer. The mechanisms involved in the regulation of CD4⁺ T cell homeostasis by galectin-1 remain poorly characterized. To investigate whether galectin-1 modulates the differentiation of CD4⁺ T cells, the effects of galectin-1 on the mRNA expression levels of TBX21, GATA-3, FOXP3 and RORC in activated peripheral blood mononuclear cells were examined. The expression levels of GATA-3 and FOXP3 mRNA were up-regulated after treatment with 1.0 μg/ml galectin-1 and were unchanged (for GATA-3) or slightly elevated (for FOXP3) compared with untreated cells when 2.0 μg/ml galectin-1 was added. At the same time, at both concentrations of galectin-1, we observed reduced TBX21 and RORC mRNA expression levels. These findings support the concept that galectin-1 skews the differentiation of CD4⁺ T cells towards Th2 and Treg cells.     

The sodium pumping NADH:quinone oxidoreductase (Na+-NQR), a unique redox-driven ion pump

The Na⁺-translocating NADH:quinone oxidoreductase (Na⁺-NQR) is a unique Na⁺ pumping respiratory complex found only in prokaryotes, that plays a key role in the metabolism of marine and pathogenic bacteria, including Vibrio cholerae and other human pathogens. Na⁺-NQR is the main entrance for reducing equivalents into the respiratory chain of these bacteria, catalyzing the oxidation of NADH and the reduction of quinone, the free energy of this redox reaction drives the selective translocation of Na⁺ across the cell membrane, which energizes key cellular processes. In this review we summarize the unique properties of Na⁺-NQR in terms of its redox cofactor composition, electron transfer reactions and a possible mechanism of coupling and pumping.     

Cloning,expression and characterization of a novel aldehyde dehydrogenase gene from Flammeovirga pacifica

A novel putative aldehyde dehydrogenase (ALDH) gene aldh1413 from Flammeovirga pacifica isolated from deep sea sediment was cloned, expressed, and characterized. The molecular weight of the ALDH1413 (479 amino acids) was estimated by SDS-PAGE to be 53 kDa. The optimum temperature and pH for ALDH1413 were 35°C and 9.0, respectively. In the presence of either NAD⁺ or NADP⁺, the enzyme could oxidize a number of aliphatic aldehydes, particularly C3-and C5-aliphatic aldehydes and aromatic aldehydes such as benzaldehyde, which indicates that the enzyme belongs to broad-specific (ALDH) superfamily. Steady-state kinetic study revealed that ALDH1413 had a K _M value of 0.545 mM and a k _cat value of 7.48 s^?1 when propionaldehyde was used as the substrate. The Na⁺ could enhance ALDH1413 activity, which indicated it might be adapt to its habitat, marine environment.     

Localization and phenotypic expression of a Tol marker in Citrobacter freundii

Among colicin-A-tolerant mutants of Citrobacter freundii we characterized some as Tol-2 mutants. The Tol-2 mutation results in insensitivity to bacteriocin S6 and an enhanced sensitivity to deoxycholate (DOC), ethylenediaminetetraacetic acid (EDTA) and to ampicillin. The Tol-2 mutation was mapped close near gal and the gene order pro-tol-gal was established in crosses between C. freundii Hfr tol ⁺ donor strains and C. freundii tol ^- acceptor strains. In these crosses a difference was observed in phenotypic expression of the pleiotropic properties of this tol ⁺ gene. Expression of resistance to DOC is substantially slower than the expression of EDTA-resistance. This phenomenon may play a disturbing role in those studies on cell envelope mutants, in which resistance to DOC is used as a selected marker. The differences in expression of DOC-and EDTA-resistance are discussed.     

Effects of Ezetimibe on Endothelial Progenitor Cells and Microparticles in High-Risk Patients

Imbalance on endothelial turnover can predict cardiovascular outcomes. We aimed at evaluating the effects of lipid-modifying therapies on circulating endothelial progenitor cells (EPCs), endothelial microparticles (EMPs), and platelet microparticles (PMPs) in high cardiovascular risk subjects with elevated C-reactive protein (CRP). Sixty-three individuals with coronary heart disease (CHD) or CHD risk equivalent on stable statin therapy, with LDL-cholesterol <100 mg/dL and CRP ≥2.0 mg/L were selected. After a 4-week run-in period with atorvastatin 10 mg, those with persistent CRP ≥2.0 mg/L were randomized to another 4-week treatment period with atorvastatin 40 mg, ezetimibe 10 mg or atorvastatin 40 mg/ezetimibe 10 mg. EPC (CD34⁺/CD133⁺/KDR⁺), EMP (CD51⁺), and PMP (CD42⁺/CD31⁺) were quantified by flow cytometry. Atorvastatin 40 mg and atorvastatin 40 mg/ezetimibe 10 mg reduced LDL-cholesterol (P < 0.001, paired T test, vs. baseline). Combined therapy, but not ezetimibe reduced CRP. CD34⁺/KDR⁺ EPC were reduced after ezetimibe alone (P = 0.011 vs. baseline, Wilcoxon test) or combined with atorvastatin (P = 0.016 vs. baseline, Wilcoxon test). In addition, ezetimibe increased CD51⁺ EMP (P = 0.017 vs. baseline, Wilcoxon test). No correlations between these markers and LDL-cholesterol or CRP were observed. These results contribute to understand the link between inflammation and vascular homeostasis and highlight the broader benefit of statins decreasing inflammation and preventing microparticles release, an effect not observed with ezetimibe alone.     

Mutants of Serratia marcescens lacking cyclic nucleotide phosphodiesterase activity and requiring cyclic 3′,5′-AMP for the utilization of various carbohydrates

Adenine requiring mutants of Serratia marcescens SM-6-F'lac ⁺ have been found to grow well in minimal-glucose medium solely supplemented with cAMP. From one of these ade strains double mutants (called ade cpd) were isolated which could no longer utilize cAMP but which still grew on 5′AMP. Dialyzed cell extracts (soluble fraction) of the double mutants, assayed for cAMP phosphodiesterase, were unable to hydrolyze cAMP whereas cell extracts of the parental strains yielded 5′AMP at a rate of 1.6–2.0 μmoles min⁻¹ mg⁻¹ protein. The loss of the phosphodiesterase activity in S. marcescens cpd W1181 did not cause an accumulation of large amounts of cAMP as was found for the diesterase-negative mutant AB257^pc-1 of Escherichia coli. The induced synthesis of β-galactosidase in mutant cpd W 1181 showed about the same sensitivity to transient and permanent catabolite (glucose) repression as the corresponding cpd ⁺ strain. Starting from S. marcescens cpd W1181 three independent double mutants (called cpd cya) were isolated which required exogenous cAMP for utilizing various carbohydrates as carbon source, for motility and for the formation of extracellular lipase and the red pigment prodigiosine. The intracellular concentration of cAMP in these mutants, grown in nutrient broth, was 40–60% of that of the parental strain which is about 4×10⁻⁴ M. However, the adenylate cyclase in cell extracts of the mutants W1237 and W1270 was like that of the corresponding cya ⁺ strain (about 2×10⁻² μmoles min⁻¹ mg⁻¹ protein).     

Effect of sugars,Na+-, and K+-ions on biopterin transport in Crithidia fasciculata

Biopterin uptake by Crithidia fasciculata is pH dependent with optimum at pH 6 and is strongly inhibited by 0.5 mM NAA and DNP,respectively. Both inhibitors also reduce respiration by 40% (NAA) and 97% (DNP). K⁺-ions (1.1%) and K⁺/Na⁺ (0.5% each) stimulate biopterin uptake to the same high extent, but ouabain has no effect, thereby ruling out involvement of Na⁺/K⁺ pump. In absence of these ions, even in 5% glucose solution biopterin uptake is reduced to minimum. Proton excretion seems to be linked to sugar uptake. Both these sugars seem to have the same site of entry, demonstrated by competitive uptake, though D-glucose is taken up much faster by Crithidia than D-galactose. DNP (0.5 mM) causes greater proton excretion in glucose than in galactose medium. With NAA (0.5 mM) proton excretion is inhibited in both glucose and galactose media. D-glucose promotes greater biopterin uptake than D-galactose.     

Ectopic overexpression of a mungbean vacuolar Na+/H+ antiporter gene (VrNHX1) leads to increased salinity stress tolerance in transgenic Vigna unguiculata L. Walp

Salinity is a major threat to sustainable agriculture worldwide. Plant NHX exchangers play an important role in conferring salt tolerance under salinity stress. In this study, a vacuolar Na⁺/H⁺ antiporter gene VrNHX1 (Genbank Accession No. JN656211.1) from mungbean (Vigna radiata) was introduced into cowpea (Vigna unguiculata) by the Agrobacterium tumefaciens-mediated transformation method. Polymerase chain reaction and Southern blot hybridization confirmed the stable integration of VrNHX1 into the cowpea genome. Comparative expression analysis by semi-quantitative RT-PCR revealed higher expression of VrNHX1 in transgenic cowpea plants than wild-type. Under salt stress conditions, T2 transgenic 35S:VrNHX1 cowpea lines exhibited higher tolerance to 200 mM NaCl treatment than wild-type. Furthermore, T2 transgenic 35S:VrNHX1 lines maintained a higher K⁺/Na⁺ ratio in the aerial parts under salt stress and accumulated higher [Na⁺] in roots than wild-type. Physiological analysis revealed lower levels of lipid peroxidation, hydrogen peroxide and oxygen radical production but higher levels of relative water content and proline, ascorbate and chlorophyll contents in T2 transgenic 35S:VrNHX1 lines.     

Studies of the morphology of chromosomes of some selected species

Karyotypes of twelve species from twenty-four localities in southern Moravia and one locality in Slovakia were investigated. Their counts or karyotypic formulae are as follows:Chenopodium foliosum (Moench) Ascherson: K (2n)=18=16 A^m+2 B^sm;Astragalus austriacus Jacq.: K (2n)=16=8 A^m+8 B^sm;Astragalus exscapus L.: K (2n)=16=10 A^m+4 B^sm+2 C^st;Astragalus cicer L.: K (2n)=64;Astragalus onobrychis L.: K (2n=64 and K (2n)=64+1;Vicia dumetorum L.: K (2n=14=10 A^m+4 B^sm;Vicia sylvatica L.: K (2n)=14=2 A^m+10 B^sm+2 C^st;Vicia pisiformis L.: K (2n)=12=8 A^m+4 B^sm;Vicia cassubica L.: K (2n)=12=4 A^m+6 B^sm+2 C^st;Vicia cracca L. (from five localities in southern Moravia): K (2n)=28=4 A^m+12 B^sm+12 C^st and K (2n)=28+1=5 A^m+12 B^sm+12 C^st;Vicia cracca L. (from one locality in Slovakia): K (2n)=14=2 A^m+6 B^sm+6 C^st;Vicia tenuifolia Roth: K (2n)=24=4 A^m+16 B^sm+4 C^st;Serratula lycopifolia (Vill.) Kern.: K (2n)=60.     

Immunophenotypic Characterization of CD45RO+ and CD45RA+ T Cell Subsets in Peripheral Blood of Peripheral T Cell Lymphoma Patients

To study the distribution profile of CD45RO⁺ and CD45RA⁺ T cells in the peripheral blood of peripheral T cell lymphoma (PTCL) patients and its clinical significance. 27 patients with PTCL were enrolled in this study, together with 30 healthy individuals as the control group. Flow cytometry analysis was employed to examinate the differences in the distribution of CD45RO⁺ and CD45RA⁺ T cells in peripheral blood between two groups. In PTCL patient’s lymphnode tissues, the T cell population displayed diverse antigenic expression, with CD4⁺ T cells as the major subset. No B cell-related antigen was expressed. The percentage of CD4⁺/CD8⁺ and CD4⁺CD45RO⁺ T cells in patients’ peripheral blood were significantly lower than that in the control samples, while the percentage of CD4⁺CD45RA⁺, CD8⁺CD45RA⁺, and CD8⁺CD45RO⁺ T cells in patients’ peripheral blood were significantly higher than that in the control samples. The percentage of CD4⁺/CD8⁺, CD4⁺CD45RO⁺ cells in stage I/II PTCL patients’ peripheral blood were significantly higher than that in the samples from patients with stage III/IV PTCL. The percentage of CD4⁺CD45RA⁺, CD8⁺CD45RA⁺, and CD8⁺CD45RO⁺ T cells were notably lower than that in the samples from III/IV period PTCL patients. Both CD45RO⁺ and CD45RA⁺ T cells play important roles in the process of PTCL. The immunophenotypic profile from this study will help to develop the differential diagnosis and treatment of PTCL patients in the future, and improve the accuracy rate of diagnosis and to ameliorate the prognosis.     

Mechanism of proanthocyanidins-induced alcoholic fermentation enhancement in Saccharomyces cerevisiae

Our previous work revealed proanthocyanidins (PAs) could pose significant enhancement on the activity of H⁺-ATPase and fermentation efficiency after a transient initial inhibition (Li et al in Am J Enol Vitic 62(4):512–518, 2011). The aim of the present work was to understand the possible mechanism for this regulation. At Day 0.5 the gene expression level of PMA1 in AWRI R₂ strain supplemented with 1.0 mg/mL PAs was decreased by around 54 % with a 50 % and a 56.5 % increase in the concentration of intracellular ATP and NADH/NAD⁺ ratio, respectively, compared to that of control. After the transient adaptation, the gene expression levels of PMA1 and HXT7 in PAs-treated cells were enhanced significantly accompanied by the decrease of ATP contents and NADH/NAD⁺ ratio, which resulted in the high level of the activities of rate-limiting enzymes. PAs could pose significant effects on the fermentation via glucose transport, the energy and redox homeostasis as well as the activities of rate-limiting enzymes in glycolysis.