The effect of AZT and chloroquine on the activities of ricin and a saporin-transferrin chimeric toxin.

This study deals with the combination of chloroquine (CQ, an anti-malaric drug) and 3'-azido-3'-deoxythymidine (AZT, anti-human immuno-deficiency virus (HIV) drug) with a chimeric toxin (TS) obtained by chemical linking of saporin (a ribosome inactivating protein from the plant Saponaria officinalis) and human transferrin, in the intoxication of the human chronic myeloid leukaemia cells (K562). Our data demonstrate that AZT, at concentrations comparable to those reached in the blood of HIV-infected patients under pharmacological treatment with this drug, can increase the toxicity of TS in cooperation with CQ inducing an increased effect on protein synthesis in K562 cells ( approximately 50% inhibition of protein synthesis for TS alone, and TS with AZT and approximately 70% with both AZT and CQ). Furthermore, pre-treatment of cells with AZT alone can induce an increase of apoptosis in K562 cells intoxicated with TS. By comparing data obtained with the model toxin ricin, we get indications that the two toxins partially differ in their intracellular routes, also suggesting that chimeric constructs containing ricin-like toxins (i.e. immunotoxins) could be coupled with the use of common and cheap drugs for the treatment of cancer in HIV-infected patients.

Effects of temporins on molecular dynamics and membrane permeabilization in lipid vesicles.

Temporins are a novel family of small (10-13 residues) cationic antimicrobial peptides recently isolated from the skin of the European red frog Rana temporaria. Although recently acquired evidence shows that temporins have the potential to kill bacteria by permeabilizing the cytoplasmic membrane, the molecular mechanisms of membrane selectivity and permeabilization are largely unknown. In this study, it was found that temporins cause the release of fluorescent markers entrapped in phosphatidylcholine liposomes in a manner that depends significantly on the size of the solute. Temporins were also shown to lack a detergent-like effect on lipid vesicles, indicating that marker leakage caused by these peptides is not due to total membrane disruption but to perturbation of bilayer organization on a local scale. Binding of temporins to liposomes did lead to a small increase in lipid hydrocarbon chain mobility, as revealed by EPR spectroscopy of nitroxide-labeled fatty acids incorporated in the bilayer. Reference experiments were conducted using the bee venom peptide melittin, whose properties and behavior in natural and model membrane systems are well known. Our findings for temporins are discussed in relation to the models proposed to date to account for the action of antimicrobial peptides on membranes.

Purification and partial characterization of an alpha-2,8-sialyltransferase from human erythroleukemia K562 cells.

An alpha-2,8-sialyltransferase (ST8), the enzyme involved in the biosynthesis of polysialic acid chains, has been purified and partly characterized from undifferentiated human erythroleukemia K562 cells. Purification, based on a key step of affinity chromatography utilizing immobilized colominic acid, was greater than 1000-fold. The enzyme molecular weight determined by SDS-PAGE was estimated to be about 40 kDa, in good agreement with literature data. For the determination of the main kinetic parameters (Vmax and K(M)), fetuin turned out to be the unique substrate acceptor. In fact, other compounds such as asialofetuin, transferrin, alpha1-acid glycoprotein, and G(M3), routinely used to explore the different ST8 isoforms' activities, did not serve as substrate acceptors. In all cases, contrary to the routinely adopted protocol where a radioactive substrate donor is employed, for our purpose a non-radioactive, fluorescent substrate donor such as cytidine-5'-monophospho-9-(3-fluoresceinylthioureido)-9-deoxy-N-acetyl-neuraminic acid (CMP-9-fluoresceinyl-NeuAc) was used. Thus, under our experimental conditions, by using fetuin, data reported in a typical Lineweaver-Burk plot gave a Vmax value of about 4 nkatal/mg of protein and a K(M) value around 0.61 mM. Just as with the estimated molecular weight, these kinetic data were also in good agreement with those already reported for the ST8 purified from human neuroblastoma CHP-134 cells. In particular, in both cases, Vmax values were almost similar (4 nkatal/mg of protein for our ST8 purified from K562 cells and 4.35 nkatal/mg of protein for ST8 purified from CHP-134 cells); conversely, the K(M) value we found was about 3.25-fold lower than that found by Stoykova and Glick (0.61 mM vs. 2 mM). Then, although our purification was lower than that obtained by Stoykova and Glick (1080-fold vs. 2910-fold), the enzyme we purified showed a greater apparent affinity.

Regional differences in signalling transduction pathways among smooth muscle cells from rabbit colon.

Smooth muscle cells (SMC) from the circular muscle layer of rabbit colon, taken from the proximal and distal regions that are known to have different physiological and motor activities, were used to highlight distinct regional intrinsic myogenic properties and to investigate the correlations between receptor and signalling transduction pathways. Contractile agonists were shown to be more potent on proximal than on distal SMC in inducing contraction and intracellular Ca(2+) increase. Concentration-response curves of agonists-induced Ca(2+) increase were constantly shifted to the right, though remaining parallel, with respect to contraction curves, independently of the region analysed. Using agents activating different steps of cAMP-or cGMP-mediated intracellular cascades, main regional differences were revealed as far as relaxation was concerned. Relaxation of proximal SMC was found to be essentially cGMP mediated, while that of distal SMC was cAMP mediated. In conclusion, the motor patterns of the two regions appear to be influenced by distinct regional biochemical characteristics that are intrinsic to colonic SMC.

Evidences that zidovudine (AZT) could not be directly responsible for iron overload in AZT-treated patients: an in vitro study.

Zidovudine (3'-azido-3'-deoxythymidine or azidothymidine, AZT) has been the first antiretroviral agent approved for clinical use, and it is still currently used in combination therapy of human immunodeficency virus (HIV) infection. On the basis of increasing clinical reports and in vitro studies, a strict correlation between AZT treatment of HIV positive patients and both the development of anemia and iron overload have been in evidence over the last few years. In this report, we have examined some features of zidovudine to better assess a likely implication of this drug in iron overload. For this purpose, we first determinated the iron chelating ability of both AZT and some of its phosphorylated derivatives in solution. The iron chelating ability of AZT toward the intracellular 'chelatable' iron pool was also evaluated. Finally, we investigated the effect of AZT on both iron and transferrin uptake. Our findings indicate that AZT per se cannot be directly responsible for the development of the iron overload found in human or animal models, for which other possible mechanisms are claimed to be involved.

[Metalloproteinase inhibition: therapeutic application in rheumatic diseases]. / L'inibizione delle metalloproteasi: applicazioni terapeutiche nelle patologie reumatiche.

PURPOSE: Matrix metalloproteinases (MMPs) play an important role in the degradation of articular cartilage in several diseases, including osteorthritis and rheumatoid arthritis. Aiming at developing new drugs with selective inhibiting action against enzyme damaging the extracellular matrix, research is mainly directed towards the: 1) development of new drugs with specific inhibitory effect on MMPs; 2) better understanding of the pharmacologic profile of drugs already used in the treatment of rheumatic diseases, in order to identify those having an inhibiting action on degradative enzymes. MATERIALS AND METHODS: The interaction between rifamycins and collagenase type XI were studied using a fluorogenic substrate MOCAc-Pro-Leu-Gly-Leu-A2pr(Dnp)-Ala-Arg-NH2. RESULTS: In our experimental conditions rifamycins showed a marked inhibition capacity with a IC50 ranging from 13 to 20.7 microM. This inhibition was reversible after extensive dialysis. CONCLUSIONS: Our results indicate that the effects of rifamycins in rheumatoid arthritis may correlate to the inhibitory activity of these molecules on collagenase activity.

3'-Azido-3'-deoxythymidine reduces the rate of transferrin receptor endocytosis in K562 cells.

K562 cells, exposed for at least 24 h to 5 microM 3'-azido-3'-deoxythymidine (AZT), gave rise to an overall increase in the number of cell surface transferrin binding receptors (18-20%). This effect was ascertained either with binding experiments by using 125I-transferrin and with immunoprecipitation by using a specific monoclonal antibody against the transferrin receptor. At higher AZT concentrations (20 and 40 microM), a further increase was found, that is, up to 23% by binding experiments and up to 110% by immunoprecipitation. However, Scatchard analysis of the binding data indicated that although the number of cell surface transferrin receptors increased, the affinity of transferrin for its receptor did not change (Ka=4.0x108 M). Surprisingly, immunoprecipitation of total receptor molecules showed that the synthesis of receptor was not enhanced by the drug treatment. The effect of AZT on transferrin internalization and receptor recycling was also investigated. In this case, data indicated that the increase in the number of receptors at the cell surface was probably due to a slowing down of endocytosis rate rather than to an increased recycling rate of the receptor to cell surface. In fact, the time during which half the saturated amount of transferrin had been endocytosed (t1/2) was 2.15 min for control cells and 3.41, 3.04, and 3.74 min for 5, 20, and 40 microM AZT-treated cells, respectively. Conversely, recycling experiments did not show any significant differences between control and treated cells. A likely mechanism through which AZT could interfere with the transferrin receptor trafficking, together with the relevance of our findings, is extensively discussed.

Purification of a 76-kDa iron-binding protein from human seminal plasma by affinity chromatography specific for ribonuclease: structural and functional identity with milk lactoferrin.

A pink-colored iron-binding protein has been found in large amount in human seminal plasma and identified as a lactoferrin isoform. Its purification, by a modification of a three-step chromatography procedure developed in an attempt to purify a ribonuclease from the same fluid, provided about 15-18 mg of pure protein from 100 ml of seminal plasma. Despite its ability to bind a ribonuclease ligand during the affinity step, the iron-binding protein did not display any detectable RNase activity in a standard assay with yeast RNA as substrate. It showed an apparent molecular weight of 76 kDa and resulted to be quite similar, if not identical, to human milk lactoferrin in many respects. Its N-terminal sequence (31 amino acid residues) starting with Arg-3 was identical to that of one of the N-terminally truncated lactoferrin variants isolated from human milk. Moreover, the amino acid sequence of a number of peptides, which represented about 23% of the entire sequence, has been also shown to be identical to that of the corresponding peptides of human milk lactoferrin. Double diffusion analysis revealed full recognition by antibodies anti-human milk lactoferrin of the human seminal plasma protein. Using immunoblotting analysis, both human milk lactoferrin and human seminal protein were recognized by antibodies anti-milk lactoferrin. When tested for its iron binding capacity, with Fe-NTA as iron donor, the protein purified was able to bind iron up to 100% saturation, as judged by absorbance at 465 nm.

Progression from homologous to heterologous desensitization of contraction in gastric smooth muscle cells.

Acute desensitization of contraction and its relative mechanisms have been studied in smooth muscle cells isolated from guinea pig stomach. Desensitization was induced by pre-exposure of the cells to one of the excitatory neuropeptides linked to the phospholipase C intracellular cascade, i.e., cholecystokinin (CCK), gastrin-releasing peptide, and Substance P. Desensitization was homologous after a 30-s pre-exposure and heterologous if pre-exposure lasted for 5 min or longer. Homologous desensitization was studied in a more detailed way after pre-exposure to CCK. Preincubation with increasing concentrations of CCK (10 pM-1 microM) induced a progressive rightward shift of the dose-response curves associated with both a decrease in potency (ED50 4.5 pM-2.2 nM) and a maximum response that were not related to a modification of response kinetics. After brief pre-exposure to 1 nM CCK (Dmax), an inhibition of contraction was observed in response to an identical dose of CCK (45.1 +/- 8.6%), the decreased response being associated with an inhibition of inositol phosphates and [Ca++]i mobilization. Both inositol trisphosphate (InsP3)-induced contraction and [Ca++]i mobilization were inhibited to a lesser extent than CCK-induced responses. Any longer pre-exposure of cells to one of the above-mentioned neuropeptides caused heterologous desensitization, with an observed inhibition of contraction in response to all tested agonists (CCK, 60.3 +/- 5.9%; gastrin-releasing peptide: 56.7 +/- 3. 5%; Substance P, 60.6 +/- 6.5%). A similar decrease was observed in InsP3-induced contractions resulting in a desensitization of the InsP3 response as well. Full recovery of contractile responses appeared within 30 min from the end of preincubation, thus indicating that degradation of membrane receptors did not occur. Although pre-exposure of the cells to protein kinase C inhibitor GF109203X did not modify CCK-induced homologous desensitization, it blocked CCK-induced heterologous desensitization. This study demonstrates that excitatory phospholipase C-coupled enteric neuropeptides induce a time-dependent homologous as well as heterologous desensitization of smooth muscle contraction occurring at receptor and postreceptor levels.

Decreased production of AmpC-type beta-lactamases associated with the development of resistance to quinolones in Citrobacter freundii strains.

The effect of fluoroquinolones in Citrobacter freundii strains that results in a decreased expression of cephalosporin-hydrolysing beta-lactamases was studied. Resistance to broad-spectrum cephalosporins and penicillins in two C. freundii clinical isolates was associated with moderate production of chromosomal AmpC-type-beta-lactamase in addition to changes in the outer membrane proteins profile with respect to wild-type C. freundii strains. Ten quinolone-resistant mutants were derived from the two clinical isolates using increasing fluoroquinolone concentrations. The level of susceptibility to cephalosporins and meropenem of these 10 mutants was increased and was associated with a 3.6-32% diminution in the hydrolyzing activity of their periplasmic extracts containing beta-lactamases on cephaloridine as compared with those from their parent strains. Susceptibility to cephalosporins and meropenem, as well as the expression of chromosomal AmpC-type-beta-lactamase in C. freundii strains, was influenced by the exposure to quinolones.

Peroxidase-labelling of human serum transferrin by conjugation to oligosaccharide moieties.

The generation of reactive aldehydes on the carbohydrate moieties of the human serum transferrin was performed by a derivatization procedure based on the mild oxidation with sodium periodate and subsequent reaction with peroxidase hydrazide. The synthesized conjugate was compared to that obtained by modification of the amino acid side chains of transferrin. The conjugate reaction mixture assayed by SDS-PAGE consisted, besides unreacted compounds, of three main bands, corresponding to a molar ratio transferrin:peroxidase of 1:1, 1:2, 1:3. After blotting, these bands were identified by either anti-peroxidase and anti-transferrin antibodies on nitrocellulose membrane. ELISA detection method showed that the conjugate via oligosaccharide moieties (glycans) was still recognized not only by the anti-transferrin antibodies but also by the specific cellular receptor, while the conjugate via amino acids failed to display this latter ability. The different behaviour can be probably due to a significant damage of the protein structure or, possibly, to the peroxidase binding at sites recognized by the receptor. The results reported here indicate that the conjugation procedure through glycans leads to stable and selected transferrin-conjugates fully exhibiting their biological activity.

Can non-steroidal anti-inflammatory drugs act as metalloproteinase modulators? An in-vitro study of inhibition of collagenase activity.

The in-vitro effects of some non-steroidal anti-inflammatory drugs and some analgesic drugs on collagenase activity were studied by use of a self-quenched fluorogenic esapeptide as substrate. The increased fluorescence signal arising as a result of peptide cleavage by collagenase was recorded and related to the inhibitory potency of the drugs. The effective concentrations in collagenase modulation were also correlated with the levels of the drugs in the plasma and synovial fluids of patients receiving therapeutic doses. Six of the tested drugs, nimesulide, piroxicam, tolmetin, meloxicam, sulindac and sodium meclofenamate, inhibited enzyme activity with IC50 values (concentrations resulting in 50% inhibition) ranging from 1.9 to 28.2 microM and Ki (apparent inhibition constant) ranging from 0.83 to 21.8 microM. Much of the activity was restored after dialysis of the enzyme-drug complex, demonstrating the reversibility of the effect. Although these results indicate that some anti-inflammatory drugs could modulate enzymatic activity involved in the degradation of the extracellular matrix, their possible pharmacological involvement as collagenase inhibitors in collagen degradative diseases remains to be assessed by clinical studies.

Characterization of a new TEM-derived beta-lactamase produced in a Serratia marcescens strain.

A natural TEM variant beta-lactamase was isolated from an epidemic strain of Serratia marcescens. Nucleotide gene sequencing revealed multiple point mutations located in the 42-to-44 tripeptide and positions 145 to 146, 178, and 238. In addition, a glutamic acid 212 deletion was also found. The purified enzyme was studied from a kinetic point of view, revealing the highest catalytic efficiency (k[cat]/Km) values for ceftazidime and aztreonam compared with the TEM-1 prototype enzyme. The in vitro resistance correlated with kinetic parameters, and the enzyme also mediated resistance to some penicillins and an ampicillin-clavulanic acid combination. The mutational and kinetic changes are discussed in relation to the three-dimensional crystallographic structure of the wild-type TEM-1 enzyme.

Sensitivity of Aeromonas hydrophila carbapenemase to delta3-cephems: comparative study with other metallo-beta-lactamases.

Ceftriaxone and ceftriaxone S-oxide behaved as inactivators against the metallo-beta-lactamase of Aeromonas hydrophila AE036 and as substrates for the zinc beta-lactamase produced by Bacillus cereus (569/H/9) and Stenotrophomonas maltophilia ULA 511. Moreover, RO 09-1428, a catechol-cephalosporin, was not recognized by the A. hydrophila enzyme. Panipenem, cephalosporin C, cephalosporin C-gamma-lactone, and loracarbef were substrates for the three studied beta-lactamases.

Monitoring by cis-parinaric fluorescence of free radical induced lipid peroxidation in aqueous liposome suspensions.

Cis-parinaric acid is fluorescent when partioned into a lipid environment and its fluorescence is destroyed upon reaction with free radicals. In our study 1-palmitoyl-2-parinoyl-phosphatidylcholine (cis-PnA) has been used to monitor the time-course of liposomal lipid peroxidation, using reverse-phase evaporation vesicles (REV) of different composition exposed to oxidative stress in various conditions. This methodology allowed us to estimate the potential damage produced by two different oxidizing systems, namely hydrogen peroxide (H2O2), a water soluble oxidant, and t-butyl hydroperoxide (t-BHP), a hydrophobic hydroperoxide. Furthermore, we evaluated the protective effects of bilayer-associated antioxidants, namely alpha-tocopherol acetate (alpha-THA), vitamin K1 and beta-carotene, as well as of two antioxidants dissolved in the aqueous bulk solution, that is, biverdin and uric acid. Under our experimental conditions, the results suggest that (i) both oxidizing compounds were able to interact with liposomal PnA leading to decay either of the excitation and of emission spectra of the probe; (ii) hydrogen peroxide seemed to be of most effective among the two stressing agents, when employed at similar concentrations; (iii) the alpha-THA appeared to be a stronger antioxidant than vitamin K1 and beta-carotene, resulting in a decrease of the liposomal membrane stress caused by those two oxidizing agents; (iv) among the water soluble antioxidant compounds, biliverdin displayed a protective effect at least 10 x higher than uric acid; (v) the overall damage, as well as the protection mechanisms, seemed to be dependent either on the lipid composition of the vesicles and on the pH of the liposomal suspension. This relatively easy experimental approach suggests the validity of the use of the bilayer associated fluorescent probe PnA in the monitoring of spontaneous and/or chemically induced liposomal lipid damage.

Overproduction and purification of the Aeromonas hydrophila CphA metallo-beta-lactamase expressed in Escherichia coli.

The Aeromonas hydrophila CphA metallo-beta-lactamase was overexpressed in a soluble secreted form in Escherichia coli using a T7 RNA polymerase-based expression system, and a simple protocol based on a single cation-exchange chromatographic step was developed, which is suitable for rapid purification of the overexpressed enzyme from E. coli lysates. A yield of up to 30 micrograms of purified enzyme per milliliter of culture was obtained. The purified enzyme preparation showed properties identical to those previously reported in the literature.

Characterization of the chromosomal cephalosporinases produced by Acinetobacter lwoffii and Acinetobacter baumannii clinical isolates.

The beta-lactamases produced by Acinetobacter lwoffii ULA-501, Acinetobacter baumannii ULA-187, and A. baumannii AC-14 strains were purified and characterized, and their kinetic interactions with several beta-lactam molecules, including substrates and inhibitors, were studied in detail. The three enzymes appeared to be cephalosporinases with different acylation efficiencies (kcat/Km ratio values), and their hydrolytic activities were inhibited by benzylpenicillin, piperacillin, and cefotaxime, which did not behave as substrates. Carbenicillin was a substrate for the beta-lactamase from A. lwoffii ULA-501, whereas it acted as a transient inactivator of the enzymes produced by the two A. baumannii strains. Clavulanic acid was unable to inactivate the three beta-lactamases, whereas sulbactam behaved as an inactivator only at a high concentration (1 mM) which is difficult to achieve during antibiotic therapy. Analysis of the interaction with 6-beta-iodopenicillanic acid also allowed us to better discriminate the three beta-lactamases analyzed in the present study, which can be included in the group 1 functional class (5).

Inhibition studies of S-adenosylhomocysteine hydrolase purified from Acinetobacter calcoaceticus ULA-501.

Adenosine analogs previously reported as reversible inhibitors of mammalian S-adenosylhomocysteine hydrolase (SAHase) have been found to exert similar effects on Acinetobacter calcoaceticus ULA-501 enzyme. In addition, two metal coordination compounds, cis-platinum diammine dichloride (cis-DDP) and its trans isomer (trans-DDP), the former well known for its employment in anticancer chemotherapy, were assayed on both bacterial and mammalian SAHases. In our conditions, trans-DDP appeared to be the strongest inhibitor toward both SAHases. Finally, treatment of the bacterial enzyme with a mixture of ATP-Mg acetate and KC1 caused only a slight reversible inhibition, in contrast to the complete inactivation exerted on the mammalian SAHase.