Induction of Apoptosis in Cardiac Myocytes by an A3Adenosine Receptor Agonist

The effects of the selective adenosine (ADO) A₃receptor agonist IB-MECA (N⁶-(3-iodobenzyl)adenosine-5′-N-methylcarboxamide) on cultured newborn rat cardiomyocytes were examined in comparison with ADO, the ADO A₁receptor-selective agonistR-PIA (N⁶-R-phenylisopropyladenosine), or the ADO A₃selective antagonist MRS 1191 (3-ethyl-5-benzyl-2-methyl-6-phenyl-4-phenylethynyl-1,4-(±)-dihydropyridine-3,5 dicarboxylate), using digital image analysis of Feulgen-stained nuclei. At high concentration, IB-MECA (10 μM ) and ADO (200 μM) induced apoptosis; however,R-PIA or MRS 1191 did not have any detectable effects on cardiac cells. In addition, DNA breaks in cardiomyocytes undergoing apoptosis following treatment by IB-MECA were identifiedin situusing the nick end labeling of DNA (“TUNEL”-like) assay. In the presence of 10 μM IB-MECA, disorder in the contraction waves appeared, and a decrease in the frequency of beats was observed. Analysis with light microscopy revealed that the number of contracting cells decreased in a concentration-dependent manner. The A₃receptor agonist IB-MECA caused an increase in intracellular free calcium concentration ([Ca²⁺]_i). The drug produced a rapid rise followed by a sustained increase in [Ca²⁺]_i, which lasted for 40–60 s. Finally, cessation of beating and Ca²⁺transients were observed. Full recovery of contractile activity and rhythmical Ca²⁺transients were observed 15–20 min after IB-MECA treatment. The induction of apoptosis in the cardiocytes by IB-MECA led to the appearance of features of apoptotic nuclei: the onset of condensation, compacting, and margination of nuclear chromatin. These effects were accompanied by the disintegration of the structural framework of the nucleus and nuclear breakdown. The results suggest that activation of the A₃adenosine receptor may participate in the process of apoptosis in cardiomyocytes.     

Ligand Binding Characteristics of the Human Serotonin<Subscript>1<Emphasis Type="Italic">A</Emphasis></Subscript> Receptor Heterologously Expressed in CHO Cells

The serotonin_1A (5-HT_1A) receptors are important members of the superfamily of seven transmembrane domain G-protein coupled receptors. They appear to be involved in various behavioral, cognitive and developmental functions. Mammalian cells in culture heterologously expressing membrane receptors represent convenient systems to address problems in receptor biology. We report here the pharmacological characterization of one of the first isolated clones of CHO cells stably expressing the human 5-HT_1A receptor using the selective agonist 8-OH-DPAT and antagonist p-MPPF. In addition, we demonstrate that agonist and antagonist binding to the receptor exhibit differential sensitivity to the non-hydrolyzable GTP analogue, GTP--S, as was observed earlier with the native receptor from bovine hippocampus. These results show that the human 5-HT_1A receptor expressed in CHO cells displays characteristic features found in the native receptor isolated from bovine hippocampus and promises to be a potentially useful system for future studies of the receptor.These authors have contributed equally to the work     

Secretion of Mucor rennin, a fungal aspartic protease of Mucor pusillus, by recombinant yeast cells

Summary The aspartic protease gene of a zygomycete fungus Mucor pusillus was expressed in Saccharomyces cerevisiae under the control of the yeast GAL7 promoter. A putative preproenzyme with an NH₂-terminal extension of 66 amino acids directed by the gene was processed in yeast cells and the mature enzyme, whose NH₂-terminus was identical to that of the Mucor enzyme, was efficiently secreted into the medium at a concentration exceeding 150 mg/l. The enzyme secreted from the recombinant yeast was more glycosylated than the native Mucor enzyme but its enzymatic properties were almost identical with those of the native enzyme, which has been used as a milk coagulant in cheese manufacture.     

Expression of frutalin, an alpha-D-galactose-binding jacalin-related lectin, in the yeast Pichia pastoris

Frutalin is an α-d-galactose-binding lectin expressed in breadfruit seeds. Its isolation from plant is time-consuming and results in a heterogeneous mixture of different lectin isoforms. In order to improve and facilitate the availability of the breadfruit lectin, we cloned an optimised codifying frutalin mature sequence into the pPICZαA expression vector. This expression vector, designed for protein expression in the methylotrophic yeast Pichia pastoris, contains the Saccharomyces α-factor preprosequence to direct recombinant proteins into the secretory pathway. Soluble recombinant frutalin was detected in the culture supernatants and recognised by native frutalin antibody. Approximately 18–20 mg of recombinant lectin per litre medium was obtained from a typical small scale methanol-induced culture purified by size-exclusion chromatography. SDS–PAGE and Edman degradation analysis revealed that frutalin was expressed as a single chain protein since the four amino-acid linker peptide “T-S-S-N”, which connects α and β chains, was not cleaved. In addition, incomplete processing of the signal sequence resulted in recombinant frutalin with one Glu-Ala N-terminal repeat derived from the α-factor prosequence. Endoglycosidase treatment and SDS–PAGE analysis revealed that the recombinant frutalin was partly N-glycosylated. Further characterisation of the recombinant lectin revealed that it specifically binds to the monosaccharide Me-α-galactose presenting, nevertheless, lesser affinity than the native frutalin. Recombinant frutalin eluted from a size-exclusion chromatography column with a molecular mass of about 62–64 kDa, suggesting a tetrameric structure, however it did not agglutinate rabbit erythrocytes as native frutalin does. This work shows that the galactose-binding jacalin-related lectins four amino-acid linker peptide “T-S-S-N” does not undergo any proteolytic cleavage in the yeast P. pastoris and also that linker cleavage might not be essential for lectin sugar specificity.     

Does diamide treatment of intact human erythrocytes cause a loss of phospholipid asymmetry?

Diamide-treated human erythrocytes have been compared with native red cells as to the accessibility of their amino phospholipids to both phospholipase A₂ hydrolysis and fluorescamine labeling. In agreement with observations by others (Haest, C.W.M., Plasa, G., Kamp, D. and Deuticke, B. (1978) Biochim. Biophys. Acta 509, 21–32), treatment of intact human erythrocytes with diamide resulted in considerably enhanced degradation of amino phospholipids upon subsequent incubation of the cells with bee venom phospholipase A₂. The hydrolysis of phosphatidylethanolamine (PE) in control cells reached a plateau value at 5% after 10 min. In diamide-treated cells, on the other hand, PE hydrolysis did not level off. Contrastingly, dose-response curves recorded for the labeling of PE with the very fast reacting NH₂-group-specific reagent, fluorescamine, showed identical results for both native and diamide-treated erythrocytes. In each of these two cases, a plateau was reached after approx. 15% of the PE had been labeled. These results strongly suggest that the enhanced phospholipase-A₂-induced hydrolysis of amino phospholipids in diamide-treated erythrocytes may reflect a destabilization of the lipid bilayer, rather than an in situ loss of phospholipid asymmetry.     

Product inhibition during the feeding phasein fed-batch ethanol fermentation of sugar-cane blackstrap molasses

Summary The following equations represent the influence of the ethanol concentration (E) on the specific growth rate of the yeast cells () and on the specific production rate of ethanol () during the reactor filling phase in fed-batch fermentation of sugar-cane blackstrap molasses: = ₀ - k · E and v = v ₀ · K/(K +E) Nomenclature E ethanol concentration in the aqueous phase of the fermenting medium (g.L^–1) - E_m value of E when = 0 or = 0 (g.L^–1) - F medium feeding rate (L.h^–1) - k empirical constant (L.g^–1.h^–1) - K empirical constant (g.L^–1) - M_as mass of TRS added to the, reactor (g) - M_cs mass of consumed TRS (g) - M_e mass of ethanol in the aqueous phase of the fermenting medium (g) - M_s mass of TRS in the aqueous phase of the fermenting medium (g) - M_x mass of yeast cells (dry matter) in the fermenting medium (g) - r correlation coefficient - S TRS concentration in the aqueous phase of the fermenting medium (g.L^–1) - S_m TRS concentration of the feeding medium (g.L^–1) - t time (h) - T temperature (° C) - TRS total reducing sugars calculated as glucose - V volume of the fermenting medium (L) - V₀ volume of the inoculum (L) - X yeast cells concentration (dry matter) in the fermenting medium (g.L^–1) - filling-up time (h) - specific growth rate of the yeast cells (h^–1) - ₀ value of when E=0 - specific production rate of ethanol (h^–1) - ₀ value of when E=0 - density of the yeast cells (g.L^–1) - dry matter content of the yeast cells     

Immobilization studies of whole microbial cells on transition metal activated inorganic supports

Summary Whole cells of Saccharomyces bayanus, Saccharomyces cerevisiae and Zymomonas mobilis were immobilized by chelation/metal-link processes onto porous inorganic carriers. The immobilized yeast cells displayed much higher sucrose hydrolyzing activities (90–517 U/g) than the bacterial, Z. mobilis, cells (0.76–1.65 U/g). The yeast cells chelated on hydrous metal oxide derivative of pumice stone presented higher initial -d-fructofuranosidase (invertase, EC 3.2.1.26) activity (161–517 U/g) than on other derivatives (90–201 U/g). The introduction of an organic bridge between the cells and the metal activator led to a decrease of the initial activity of the immobilized cells, however S. cerevisiae cells immobilized on the carbonyl derivative of titanium (IV) activated pumice stone, by covalent linkage, displayed a very stable behaviour, which in continuous operation at 30° C show only a slightly decrease on invertase activity for a two month period (half-life=470 days). The continuous hydrolysis of a 2% w/v sucrose solution at 30° C in an immobilized S. cerevisiae packed bed reactor was described by a simple kinetic model developed by the authors (Cabral et al., 1984a), which can also be used to predict the enzyme activity of the immobilized cells from conversion degree data.     

Expression and Purification of the BmK M1 Neurotoxin from the Scorpion Buthus martensii Karsch

The gene encoding a neurotoxin (BmK M1) from the scorpion Buthus martensii Karsch was expressed in Saccharomyces cerevisiae at a high level with the alcohol dehydrogenase promoter. SDS–PAGE of the culture confirmed expression and showed secretion into medium from yeast. Recombinant BmK M1 was purified rapidly and efficiently by ion exchange and gel filtration chromatography to homogeneity, produced a single band on tricine–SDS–PAGE, and processed the homologous N-terminus. Amino acid analysis and N-terminal sequencing demonstrated that the recombinant toxin was processed correctly from the α-mating factor leader sequence and was chemically identical to the native form. The expressed recombinant BmK M1 was toxic for mice, which indicated that it was biologically active. Quantitative estimation showed that recombinant BmK M1 had an LD₅₀ similar to that of the native toxin.     

Analysis of single erythrocytes by injection-based capillary isoelectric focusing with laser-induced native fluorescence detection

A modified version of capillary isoelectric focusing (cIEF) was developed to separate hemoglobin variants contained within single human erythrocytes. Laser-induced native fluorescence with 275 nm excitation was used to detect the separated hemoglobins. In this method, baseline fluctuations were minimized and detection sensitivity was improved by using dilute solutions of anolyte, catholyte, and carrier ampholytes (with methylcellulose). Since electrosmotic flow was used for mobilization of the focused bands, separation and detection were integrated into a single step. The capillary was first filled with only ampholyte solution, and the cell (or standard) was injected as in capillary zone electrophoresis. The ∼90 fl injection volume for individual cells is 7×10⁴ times lower than those previously reported. Adult (normal and elevated A₁), sickle (heterozygous), and fetal erythrocytes were analyzed, with the amounts of hemoglobins A₀, A_1c, S and F determined. The pH gradient for cIEF was linear (r² = 0.9984), which allowed tentative identification of Hb F_ac. Variants differing by as little as 0.025 pI units were resolved.     

Immunohistochemical localization of two monoclonal antibody-defined carbohydrate antigens during early murine embryogenesis

Monoclonal antibodies designated “C6” and “A5” identify cell surface carbohydrates shared by embryonal carcinoma cells and early mouse embryos. The binding of both antibodies to F9 embryonal carcinoma cells was inhibited by N-acetyllactosamine. While antibody C6 did not agglutinate human erythrocytes, antibody A5 agglutinated adult, but not fetal, erythrocytes of both type A and O, suggesting partial specificity for branched polylactosamine structures. Antibodies C6 and A5 did not label preimplantation stage embryos; however, labeling with both antibodies was observed following treatment of embryos with neuraminidase. In paraffin sections of postimplantation stage embryos, C6 and A5 exhibited similar yet distinct patterns of labeling, restricted primarily to the luminal surfaces of ectodermal and visceral endodermal epithelia. Neuraminidase treatment was found to expose additional patterns of C6 and A5 labeling within the ectoderm and mesoderm of the postimplantation embryo, not restricted to periluminal surfaces. These results suggest that cell surface carbohydrates are modified during early embryogenesis, in part, by selective patterns of sialylation.     

New 2,6,9-trisubstituted adenines as adenosine receptor antagonists: a preliminary SAR profile

A new series of 2,6,9-trisubstituted adenines (5–14) have been prepared and evaluated in radioligand binding studies for their affinity at the human A₁, A_2A and A₃ adenosine receptors and in adenylyl cyclase experiments for their potency at the human A_2B subtype. From this preliminary study the conclusion can be drawn that introduction of bulky chains at the N ⁶ position of 9-propyladenine significantly increased binding affinity at the human A₁ and A₃ adenosine receptors, while the presence of a chlorine atom at the 2 position resulted in a not univocal effect, depending on the receptor subtype and/or on the substituent present in the N ⁶ position. However, in all cases, the presence in the 2 position of a chlorine atom favoured the interaction with the A_2A subtype. These results demonstrated that, although the synthesized compounds were found to be quite inactive at the human A_2B subtype, adenine is a useful template for further development of simplified adenosine receptor antagonists with distinct receptor selectivity profiles.     

Synthesis and Receptor Affinity of Polysubstituted Adenosines

Abstract

In a search for potent and selective adenosine agonists it has been found that 2-hexynyladenosine-5′-N-ethyluronamide (HENECA) displays high affinity at rat A_2A receptor combined with a good A_2A vs A₁ selectivity. The finding that HENECA shows good affinity also for A₃ receptors prompted us to investigate the effect of various substituents in different positions of this molecule.     

Resonance Raman characterization of <Emphasis Type="Italic">Rhodobacter capsulatus</Emphasis> reaction centers with lysine mutations near the accessory bacteriochlorophylls

Lysine residues have been introduced into Rhodobacter capsulatus reaction centers at M-polypeptide position 201 and at L-polypeptide position 178. These positions are in the proximity of ring V of the accessory bacterochlorophylls B_A and B_B, respectively. Resonance Raman studies indicate that the introduction of a Lys residue at either position M201 or L178 results in structural perturbations to the BChl cofactors. Lys at L178 directly interacts with B_B, most likely via a hydrogen bond. The hydrogen bonding interaction is consistent with enhanced B branch electron transfer that is observed in RCs from the S(L178)K/G(M201)D/L(M212)H triple mutant versus the G(M201)D/L(M212)H double mutant (C. Kirmaier et al. (1999) Biochemistry 38 11516–11530). In contrast, the introduction of a Lys at M201 does not result in hydrogen bonding to the B_A cofactor, in contrast to the introduction of a His at M201 (L. Chen et al. (2004) J Phys Chem 3 108: 0457–10464). Accordingly, the alkyl ammonium head group of the side chain of the Lys at M201 residue appears to be distant from B_A.     

Molecular modelling study of 2-phenylethynyladenosine (PEAdo) derivatives as highly selective A3 adenosine receptor ligands

A series of 2-phenylethynyladenosine (PEAdo) derivatives substituted in the N⁶- and 4′-position was synthesised and the new derivatives were tested at the four human adenosine receptors stably transfected into Chinese hamster ovary (CHO) cells, using radioligand binding studies (A₁, A_2A, A₃) or adenylyl cyclase activity assay (A_2B). Binding studies showed that the presence of a phenyl ethynyl group in the 2 position of adenosine favoured the interaction with A₃ receptors, resulting in compounds endowed with high affinity and selectivity for the A₃ subtype. Additional substitution of the N⁶- and 4′-position increases both A₃ affinity and selectivity. The results showed that the new compounds have a good affinity for the A₃ receptor and in particular, the N⁶-methoxy-2-phenylethynyl-5′-N-methylcarboxamidoadenosine, with a K_i at A₃ of 1.9 nM and a selectivity A₁/A₃ and A_2A/A₃ of 4,800- and 8,600-fold, respectively. Therefore, it is one of the most potent and selective agonists at the human A₃ adenosine receptor subtype reported so far. Furthermore, functional assays of inhibition of 10 μM forskolin-stimulated cAMP production via the adenosine A₃ receptor revealed that the new trisubstituted adenosine derivatives behave as full agonist of this receptor subtype. Docking analysis of these compounds was performed at a homology model of the human A₃ receptor based on the bovine rhodopsin crystal structure as template, and the results are in accordance with the biological data.An erratum to this article can be found at     

The “erythromycin-resistance” methylated sequence of Staphylococcus aureus ribosomal RNA

We have determined the sequence of an oligonucleotide from the large ribosomal subunit RNA of Staphylococcus aureus whose methylation renders the organism resistant to erythromycin and other antibiotics (the “MLS” phenotype). Analysis of RNase A digests of [³H]methyl-, ³²P-labeled RNA yielded the sequence GG · m₂⁶A · AAGACp, where m₂⁶A is an N⁶-dimethylated adenosine residue that in sensitive cells is unmethylated. Comparison with homologous sequences recently reported for Saccharomyces cerevesiae mitochondria indicates that an A to G mutation in this latter system mimics dimethylation in St. aureus with regard to functional consequences.     

Chloride Channel Function in the Yeast TRK-Potassium Transporters

The TRK proteins—Trk1p and Trk2p— are the main agents responsible for “active” accumulation of potassium by the yeast Saccharomyces cerevisiae. In previous studies, inward currents measured through those proteins by whole-cell patch-clamping proved very unresponsive to changes of extracellular potassium concentration, although they did increase with extracellular proton concentration—qualitatively as expected for H⁺ coupling to K⁺ uptake. These puzzling observations have now been explored in greater detail, with the following major findings: a) the large inward TRK currents are not carried by influx of either K⁺ or H⁺, but rather by an efflux of chloride ions; b) with normal expression levels for Trk1p and Trk2p in potassium-replete cells, the inward TRK currents are contributed approximately half by Trk1p and half by Trk2p; but c) strain background strongly influences the absolute magnitude of these currents, which are nearly twice as large in W303-derived spheroplasts as in S288c-derived cells (same cell-size and identical recording conditions); d) incorporation of mutations that increase cell size (deletion of the Golgi calcium pump, Pmr1p) or that upregulate the TRK2 promoter, can further substantially increase the TRK currents; e) removal of intracellular chloride (e.g., replacement by sulfate or gluconate) reveals small inward currents that are K⁺-dependent and can be enhanced by K⁺ starvation; and f) finally, the latter currents display two saturating kinetic components, with preliminary estimates of K_0.5 at 46 μM [K⁺]_out and 6.8 mM [K⁺]_out, and saturating fluxes of ∼5 mM/min and ∼10 mM/min (referred to intracellular water). These numbers are compatible with the normal K⁺-transport properties of Trk1p and Trk2p, respectively.This revised version was published online in August 2005 with a corrected cover date.     

Enhanced ribosome and tRNA contents in Escherichia coli expressing a truncated Vitreoscilla hemoglobin mutant analyzed by flow field-flow fractionation

The ribosome and tRNA levels of Escherichia coli cells, transformed with a native or mutated Vitreoscilla hemoglobin genes (vhb), were investigated using asymmetrical flow field-flow fractionation (AFFFF). Mutagenesis of vhb by error-prone PCR was carried out to alter the growth behavior of microaerobically cultivated native VHb-expressing E. coli. A VHb mutant, pVMT1, was identified, which was able to reach a remarkably high final A₆₀₀ of 15, the value of which being 160% higher than that of a VHb control carrying pVHb8 (A₆₀₀ 5.8). AFFFF revealed that cells expressing mutant vhbs showed up to a doubling in the number of active 70S ribosomes cell^–1, an almost 3-fold increase in the number of tRNAs cell^–1, and up to a 26% increase in the mass fraction of active 70S ribosomes.     

Adenosine receptors regulate exosome production

Exosomes, small-sized extracellular vesicles, carry components of the purinergic pathway. The production by cells of exosomes carrying this pathway remains poorly understood. Here, we asked whether type 1, 2A, or 2B adenosine receptors (A₁Rs, A_2ARs, and A_2BRs, respectively) expressed by producer cells are involved in regulating exosome production. Preglomerular vascular smooth muscle cells (PGVSMCs) were isolated from wildtype, A₁R^?/?, A_2AR^?/?, and A_2BR^?/? rats, and exosome production was quantified under normal or metabolic stress conditions. Exosome production was also measured in various cancer cells treated with pharmacologic agonists/antagonists of A₁Rs, A_2ARs, and A_2BRs in the presence or absence of metabolic stress or cisplatin. Functional activity of exosomes was determined in Jurkat cell apoptosis assays. In PGVSMCs, A₁R and A_2AR constrained exosome production under normal conditions (p?=?0.0297; p?=?0.0409, respectively), and A₁R, A_2AR, and A_2BR constrained exosome production under metabolic stress conditions. Exosome production from cancer cells was reduced (p?=?0.0028) by the selective A_2AR agonist CGS 21680. These exosomes induced higher levels of Jurkat apoptosis than exosomes from untreated cells or cells treated with A₁R and A_2BR agonists (p?=?0.0474). The selective A_2AR antagonist SCH 442416 stimulated exosome production under metabolic stress or cisplatin treatment, whereas the selective A_2BR antagonist MRS 1754 reduced exosome production. Our findings indicate that A_2ARs suppress exosome release in all cell types examined, whereas effects of A₁Rs and A_2BRs are dependent on cell type and conditions. Pharmacologic targeting of cancer with A_2AR antagonists may inadvertently increase exosome production from tumor cells.

     

Electron microscopy of the K2 killer effect of Saccharomyces cerevisiae T206 on a mesophilic wine yeast

A mesophilic wine yeast, Saccharomyces cerevisiae CSIR Y217 K ^– R ^– was subjected to the K₂ killer effect of Saccharomyces cerevisiae T206 K ⁺ R ⁺ in a liquid grape medium. The lethal effect of the K₂ mycoviral toxin was confirmed by methylene blue staining. Scanning electron microscopy of cells from challenge experiments revealed rippled cell surfaces, accompanied by cracks and pores, while those unaffected by the toxin, as in the control experiments, showed a smooth surface. Transmission electron microscopy revealed that the toxin damaged the cell wall structure and perturbed cytoplasmic membranes to a limited extent.