Antiviral activity of acyclic nucleoside phosphonates PMEA, (S)-HPMPC, PMEDAP and ribavirin against Cauliflower mosaic virus in Brassica pekinensis

Antiviral effects of acyclic nucleoside phosphonates PMEA, (S)-HPMPC, PMEDAP, and ribavirin on double-stranded DNA Cauliflower mosaic virus (CaMV) were evaluated in Brassica pekinensis plants grown in vitro on liquid medium. A double-antibody sandwich ELISA was used for relative quantification of viral protein and PCR for detection of CaMV nucleic acid in plants. Ribavirin and PMEA had no significant antiviral effect. (S)-HPMPC at concentration 50?mg?l^?1 and PMEDAP at concentrations 50 and 12.5?mg?l^?1 significantly (P?<?0.05) reduced CaMV concentration in plants within 42?C63?days to levels detectable neither by ELISA nor by PCR. A phytotoxicity experiment resulted in progressive yellowing of leaves and dwarfing in plants cultured 42?days on media with concentrations 12.5, 25 and 50?mg?l^?1 of (S)-HPMPC and PMEDAP. Reduction in fresh and dry weights of plants was significant (P?<?0.05) already at 12.5?mg?l^?1 with both compounds.     

Multiple Bacteriocin Production by Leuconostoc mesenteroidesTA33a and Other Leuconostoc/Weissella Strains

Leuconostoc (Lc.) mesenteroides TA33a produced three bacteriocins with different inhibitory activity spectra. Bacteriocins were purified by adsorption/desorption from producer cells and reverse phase high-performance liquid chromatography. Leucocin C-TA33a, a novel bacteriocin with a predicted molecular mass of 4598 Da, inhibited Listeria and other lactic acid bacteria (LAB). Leucocin B-TA33a has a predicted molecular mass of 3466 Da, with activity against Leuconostoc/Weissella (W.) strains, and appears similar to mesenterocin 52B and dextranicin 24, while leucocin A-TA33a, which also inhibited Listeria and other LAB strains, is identical to leucocin A-UAL 187. A survey of other known bacteriocin-producing Leuconostoc/Weissella strains for the presence of the three different bacteriocins revealed that production of leucocin A-, B- and C-type bacteriocins was widespread. Lc. carnosum LA54a, W. paramesenteroides LA7a, and Lc. gelidum UAL 187-22 produced all three bacteriocins, whereas W. paramesenteroides OX and Lc. carnosum TA11a produced only leucocin A- and B-type bacteriocins. Received: 11 April 1997 / Accepted: 10 June 1997     

Antiviral Activity of Selected Nucleoside Analogues Against Human Herpes Virus Type 6

Abstract

HHV-6 was evaluated in vitro for its susceptibility to a broad range of nucleoside analogues. PFA and several acyclic nucleoside phophonates emerged as the most potent inhibitors of HHV-6 replication as monitored by a newly developed immunofluorescence / flow cytometric assay as well as by microscopical evaluation of their inhibitory effect on HHV-6-induced cytopathogenicity.     

Serum and Lymphocytic Neurotrophins Profiles in Systemic Lupus Erythematosus: a Case-Control Study

Background

Neurotrophins play a central role in the development and maintenance of the nervous system. However, neurotrophins can also modulate B and T cell proliferation and activation, especially via autocrine loops. We hypothesized that both serum and lymphocytic neurotrophin levels may be deregulated in systemic Lupus erythematosus (SLE) and may reflect clinical symptoms of the disease.

Methods

Neurotrophins in the serum (ELISA tests) and lymphocytes (flow cytometry) were measured in 26 SLE patients and 26 control subjects. Th1 (interferon-γ) and Th2 (IL-10) profiles and serum concentration of BAFF were assessed by ELISA in the SLE and control subjects.

Findings

We have demonstrated that both NGF and BDNF serum levels are higher in SLE patients than healthy controls (p=0.003 and p<0.001), independently of Th1 or Th2 profiles. Enhanced serum NT-3 levels (p=0.003) were only found in severe lupus flares (i.e. SLEDAI ≥ 10) and significantly correlated with complement activation (decreased CH 50, Γ=-0.28, p=0.03). Furthermore, there was a negative correlation between serum NGF levels and the number of circulating T regulatory cells (Γ=0.48, p=0.01). In circulating B cells, production of both NGF and BDNF was greater in SLE patients than in healthy controls. In particular, the number of NGF-secreting B cells correlated with decreased complement levels (p=0.05). One month after SLE flare treatment, BDNF levels decreased; in contrast, NGF and NT-3 levels remained unchanged.

Conclusion

This study demonstrates that serum and B cell levels of both NGF and BDNF are increased in SLE, suggesting that the neurotrophin production pathway is deregulated in this disease. These results must be confirmed in a larger study with naive SLE patients, in order to avoid the potential confounding influence of prior immune-modulating treatments on neurotrophin levels.     

Synthesis and Evaluation of Acyclic Nucleotide Analogs

Abstract

Acyclic nucleotide analogs derived from antiviral 9-(2-phosphonylmethoxyethyl)adenine by modification at the side chain or by alternation of the heterocyclic base were synthesized and investigated for their antiviral activity.     

Mitochondrial metabolism directs stemness and differentiation in P19 embryonal carcinoma stem cells

The relationship between mitochondrial metabolism and cell viability and differentiation in stem cells (SCs) remains poorly understood. In the present study, we compared mitochondrial physiology and metabolism between P19SCs before/after differentiation and present a unique fingerprint of the association between mitochondrial activity, cell differentiation and stemness. In comparison with their differentiated counterparts, pluripotency of P19SCs was correlated with a strong glycolytic profile and decreased mitochondrial biogenesis and complexity: round, low-polarized and inactive mitochondria with a closed permeability transition pore. This decreased mitochondrial capacity increased their resistance against dichloroacetate. Thus, stimulation of mitochondrial function by growing P19SCs in glutamine/pyruvate-containing medium reduced their glycolytic phenotype, induced loss of pluripotent potential, compromised differentiation and became P19SCs sensitive to dichloroacetate. Because of the central role of this type of SCs in teratocarcinoma development, our findings highlight the importance of mitochondrial metabolism in stemness, proliferation, differentiation and chemoresistance. In addition, the present work suggests the regulation of mitochondrial metabolism as a tool for inducing cell differentiation in stem line therapies.Embryonal carcinoma cells, including the P19 cell line, are pluripotent cancer stem cells (CSCs) derived from pluripotent germ cell tumors called teratocarcinomas. These have been described as the malignant counterparts of embryonic stem cells (ESCs) and are considered a good model to study stem cell (SC) differentiation. The P19 cell line can be maintained as undifferentiated cells (P19SCs) or differentiated (P19dCs) to any cell type of the three germ layers. Similar to ESCs, P19 cells differentiate with retinoic acid (RA) in a dose-dependent manner and depending on growth conditions.¹ Although differentiation generally yields a mixed population of differentiated cells, P19 cells grown in monolayer and treated with 1 μM RA primarily differentiate in endoderm or mesoderm, while retaining their immortality.^{2, 3}Although some therapeutic approaches for regenerative medicine and to targeting CSCs are based on differentiation⁴ and mitochondrial-targeted therapies,^{5, 6} very little is known about the role of mitochondrial metabolism in SC maintenance and differentiation.⁷ Several mitochondrial characteristics that distinguish transformed cells from healthy cells have been described,⁸ including increased mitochondrial transmembrane electric potential (Δψm), which may result from decreased mitochondrial ATP production under normoxia.⁹ Similarly, normal SCs primarily rely on glycolysis for energy supply, although the exact mechanism how this occurs in the presence of oxygen and the relationship between SC metabolism and cell fate control is not yet completely understood.¹⁰Given the mitochondrial involvement in stemness and differentiation,¹¹ one can ask whether manipulation of mitochondrial physiology results in an improvement of therapy efficacy. Therefore, characterizing the metabolic and mitochondrial profiles of both SCs and differentiated cells holds promise in order to explain the resistance of cancer cells expressing an embryonic signature to mitochondrial-targeted therapies. In the present work, we have two tandem hypotheses: (a) metabolic and mitochondrial remodeling accompanies P19SC differentiation and (b) P19SC differentiation results in a higher susceptibility to mitochondrial-directed therapies.     

Flow Cytometry Demonstrates Bacteriocin-Induced Injury to Listeria monocytogenes

Flow cytometry was used to study the effect of the bacteriocin leucocin B-TA11a on Listeria (L.) monocytogenes. Mixed proportions of dead and live control populations were analyzed by flow cytometry to determine detection limits of the Dead/Live Baclight Bacterial Viability Kit^TM. High correlations for flow cytometric detection of defined proportions of live or dead cells in mixtures between 10 and 100% of dead (r² = 0.97) or live (r² = 0.99) cells were obtained. However, mixtures containing less than 10% of either live or dead control cells gave correlations below 0.72. The growth of L. monocytogenes in the absence and presence of leucocin B-TA11a was analyzed by flow cytometry with Baclight, plate counts, and optical density measurements. Although leucocin B-TA11a initially inhibited listerial growth, the uptake of both Baclight dyes suggested that cells remained viable but became leaky, possibly indicating bacteriocin-induced pore formation in the target membranes. Received: 30 June 1997 / Accepted: 20 October 1997     

Synthesis of 1-[3-deoxy-β-D-psicofuranosyl]uracil and related compounds

D-Fructose affords on treatment with cyanamide 2-amino-beta-D-fructofuro[2',3':3,4]-oxazoline which is not isolated but transformed directly by the reaction with ethyl propiolate into O(2,3)-anhydro-2-[beta-D-fructofuranosyl]uracil. This compound is benzoylated to the 1',4',6'-tri-O-benzoyl derivative by the action of benzoyl cyanide and triethylamine. On treatment with hydrogen chloride/dimethylformamide, the latter intermediate is converted to the 1-[1,4,6-tri-O-benzoyl-3-chloro-3-deoxy-beta-D-psicofuranosyl]uracil 1',4',5'-tribenzoate from which the title nucleoside derivative is obtained by methanolysis.     

Effect of selected natural antimicrobials on Baker''s yeast activity

AIMS: To evaluate the responses of Baker's yeast (Saccharomyces cerevisiae) activity to the natural antimicrobials acetic acid, calcium lactate, a lactate-containing cocktail and lactic acid compared to calcium propionate. METHODS AND RESULTS: A dough fermentometer test was used to measure Baker's yeast activity in the presence of these natural antimicrobials and calcium propionate. Yeast activity generally decreased as a function of increasing antimicrobial concentrations, but the lactate-containing cocktail showed no relationship between concentration and yeast activity reduction. At in situ concentrations, calcium propionate resulted in the highest yeast activity reduction, followed by calcium lactate, acetic acid, the lactate-containing cocktail and lactic acid in decreasing order. CONCLUSION: Based on yeast activity reduction, all natural antimicrobials tested showed potential as possible replacements for calcium propionate. SIGNIFICANCE AND IMPACT OF THE STUDY: This has practical implications since calcium propionate inhibits Baker's yeast activity and attracts negative consumer perceptions as a chemical bread preservative.     

Biohydrogen production by <Emphasis Type="Italic">Enterobacter cloacae</Emphasis> and <Emphasis Type="Italic">Citrobacter freundii</Emphasis> in carrier induced granules

Carrier induced granular particles comprising Enterobacter cloacae and Citrobacter freundii were used to generate H₂ from sucrose in an anaerobic fluidized bed bioreactor. At a hydraulic retention time of 4.5 h, 95.8% of the sucrose was consumed and the rate of H₂ production reached 180 mmol H₂ l h⁻¹. Biogas composition for H₂ and CO₂ was 42 and 55%, respectively. Alex von Holy—Deceased