Enantiomeric selectivity of carbovir transport.

Carbovir (9-[4 alpha-(hydroxymethyl)cyclopent-2-ene-1 alpha-yl]guanine) (CBV) is a carbocyclic analogue of 2',3'-dideoxyguanosine that exhibits potent and selective in vitro activity against human immunodeficiency virus. Antiviral activity is associated with only the (-)-enantiomer. The transport characteristics of both (-)-CBV and (+)-CBV were investigated in human erythrocytes at 37 degrees C using a papaverine-stop assay. The influx of both enantiomers appeared saturable and was inhibited greater than 90% by a combination of adenine (a low Km permeant of the nucleobase carrier) and dilazep (a potent inhibitor of nucleoside transport). The influx of (-)-CBV and (+)-CBV proceeded primarily via the nucleobase carrier with Vmax (picomoles/second/5 microliters of cells)/Km (millimolar) values of 17/0.12 and 140/1.9, respectively. To a lesser extent, the influx of (-)-CBV and (+)-CBV also occurred via the nucleoside transporter. Although both compounds exhibited a similar low affinity for this latter carrier (Km approximately 2 mM), the Vmax for (-)-CBV influx was approximately 4-fold higher than the Vmax for (+)-CBV influx. We conclude that both CBV enantiomers enter human erythrocytes by two transporters that are enantiomerically selective.     

Elevated Akt phosphorylation as an indicator of renal tubular epithelial cell stress

Characterization of the phosphoinositide 3-kinase-signaling pathway in a human renal tubular epithelial cell (TEC) line HKC-8 revealed high levels of Akt phosphorylation in serum-starved cultures. In contrast to Erk1/2, little additional phosphorylation of Akt was observed after cytokine or serum stimulation. Replacement of the conditioned medium attenuated Akt phosphorylation such that 90 min after the addition of warmed serum-free media, Akt phosphorylation had fallen sufficiently to allow an epidermal growth factor-stimulated increase to be detected readily. Although the mechanism by which the phosphoinositide 3-kinase/Akt pathway is activated in serum-starved TEC is unknown, the mediator responsible is secreted from these cells. Thus, conditioned media removed from a dish of quiescent TECs stimulated Akt phosphorylation in washed TEC cultures within 10 min. Biochemical characterization of the bioactive agent identified a heat labile factor of small apparent molecular mass. The basal level of Akt phosphorylation observed in serum-starved cultures was inhibited by wortmannin at concentrations that demonstrated its dependence on 3-phosphoinositide synthesis (IC(50) = 8 nm). Regular removal of conditioned media from TEC cultures and its replacement with serum free media resulted in a sustained attenuation of Akt phosphorylation. Interestingly, after 5 days of this treatment, washed TEC cultures contained a greater number of viable cells than cultures maintained in conditioned media throughout. This observation was not explained by a difference in the rate of DNA synthesis. Instead, the number of cells undergoing apoptosis increased markedly in the unwashed cultures. Consequently, we propose that in HKC-8 cells Akt phosphorylation is up-regulated in an effort to minimize cell death. This stress-activated response is initiated by a factor secreted into the conditioned medium that stimulates the phosphoinositide 3-kinase signaling pathway.     

Class II phosphoinositide 3-kinases are downstream targets of activated polypeptide growth factor receptors

The class II phosphoinositide 3-kinases (PI3K) PI3K-C2alpha and PI3K-C2beta are two recently identified members of the large PI3K family. Both enzymes are characterized by the presence of a C2 domain at the carboxy terminus and, in vitro, preferentially utilize phosphatidylinositol and phosphatidylinositol 4-monophosphate as lipid substrates. Little is understood about how the catalytic activity of either enzyme is regulated in vivo. In this study, we demonstrate that PI3K-C2alpha and PI3K-C2beta represent two downstream targets of the activated epidermal growth factor (EGF) receptor in human carcinoma-derived A431 cells. Stimulation of quiescent cultures with EGF resulted in the rapid recruitment of both enzymes to a phosphotyrosine signaling complex that contained the EGF receptor and Erb-B2. Ligand addition also induced the appearance of a second, more slowly migrating band of PI3K-C2alpha and PI3K-C2beta immunoreactivity on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Since both PI3K enzymes can utilize Ca(2+) as an essential divalent cation in lipid kinase assays and since the catalytic activity of PI3K-C2alpha is refractory to the inhibitor wortmannin, these properties were used to confirm the recruitment of each PI3K isozyme to the activated EGF receptor complex. To examine this interaction in greater detail, PI3K-C2beta was chosen for further investigation. EGF and platelet-derived growth factor also stimulated the association of PI3K-C2beta with their respective receptors in other cells, including epithelial cells and fibroblasts. The use of EGF receptor mutants and phosphopeptides derived from the EGF receptor and Erb-B2 demonstrated that the interaction with recombinant PI3K-C2beta occurs through E(p)YL/I phosphotyrosine motifs. The N-terminal region of PI3K-C2beta was found to selectively interact with the EGF receptor in vitro, suggesting that it mediates the association of this PI3K with the receptor. However, the mechanism of this interaction remains unclear. We conclude that class II PI3K enzymes may contribute to the generation of 3' phosphoinositides following the activation of polypeptide growth factor receptors in vivo and thus mediate certain aspects of their biological activity.     

Estimation of Primary Productivity by Chlorophyll a in vivo Fluorescence in Freshwater Phytoplankton

Primary productivity in marine waters is widely estimated by the measurements of ¹⁴C incorporation, the underwater light climate, and the absorption spectra of phytoplankton. In bio-optical models the quantum efficiency of carbon fixation derived from ¹⁴C incorporation rates, the photosynthetically absorbed radiation derived from the underwater light climate, and the phytoplankton absorption spectra are used to calculate time- and depth-integrated primary productivity. Due to the increased sensitivity of commercially available fluorometers, chlorophyll a in vivo fluorescence became a new tool to assess the photosynthetic activity of phytoplankton. Since fluorescence data yield only relative photosynthetic electron transport rates, a direct conversion into absolute carbon fixation rates is not possible. Here, we report a procedure how this problem can be adressed in freshwater phytoplankton. We adapted a marine bio-optical model to the freshwater situation and tested if this model yields realistic results when applied to a hypertrophic freshwater reservoir. Comparison of primary productivity derived from ¹⁴C incorporation to primary productivity derived from Chl a fluorescence showed that the conversion of fluorescence data into carbon fixation rates is still an unsolved problem. Absolute electron transport rates calculated from fluorescence data tend to overestimate primary production. We propose that the observed differences are caused mainly by neglecting the package effect of pigments in phytoplankton cells and by non-carbon related electron flow (e.g., nitrogen fixation). On the other hand, the ¹⁴C incorporation rates can be artificially influenced by "bottle effects", especially near the water surface, where photoinhibition, photorespiration, and Mehler reaction can play a major role.     

Association mapping of quantitative resistance for <Emphasis Type="Italic">Leptosphaeria maculans</Emphasis> in oilseed rape (<Emphasis Type="Italic">Brassica napus</Emphasis> L.)

Stem canker caused by the fungus Leptosphaeria maculans is a major disease of Brassica napus. Quantitative resistance factors appear to be important components for effective and durable control of this pathogen. Quantitative trait loci (QTL) for stem canker resistance have previously been identified in the Darmor variety. However, before these QTL can be used in marker-assisted selection (MAS) to breed resistant varieties, they must be validated in a wide range of genetic backgrounds. We used an association mapping approach to confirm the markers located within the QTL previously identified in Darmor and establish their usefulness in MAS. For this, we characterized the molecular diversity of an oilseed rape collection of 128 lines showing a large spectrum of responses to infection by L. maculans, using 72 pairs of primers for simple sequence repeat and other markers. We used different association mapping models which either do or do not take into account the population structure and/or family relatedness. In all, 61 marker alleles were found to be associated with resistance to stem canker. Some of these markers were associated with previously identified QTL, which confirms their usefulness in MAS. Markers located in regions not harbouring previously identified QTL were also associated with resistance, suggesting that new QTL or allelic variants are present in the collection. All of these markers associated with stem canker resistance will help identify accessions carrying desirable alleles and facilitate QTL introgression.     

Extracellular targeting of an active endoxylanase by a TolB negative mutant of <Emphasis Type="Italic">Gluconobacter oxydans</Emphasis>

Gluconobacter (G.) oxydans strains have great industrial potential due to their ability to incompletely oxidize a wide range of carbohydrates. But there is one major limitation preventing their full production potential. Hydrolysis of polysaccharides is not possible because extracellular hydrolases are not encoded in the genome of Gluconobacter species. Therefore, as a first step for the generation of exoenzyme producing G. oxydans, a leaky outer membrane mutant was created by deleting the TolB encoding gene gox1687. As a second step the xynA gene encoding an endo-1,4-β-xylanase from Bacillus subtilis was expressed in G. oxydans ΔtolB. More than 70 % of the total XynA activity (0.91 mmol h^?1 l culture^?1) was detected in the culture supernatant of the TolB mutant and only 10 % of endoxylanase activity was observed in the supernatant of G. oxydans xynA. These results showed that a G. oxydans strain with an increased substrate spectrum that is able to use the renewable polysaccharide xylan as a substrate to produce the prebiotic compounds xylobiose and xylooligosaccharides was generated. This is the first report about the combination of the process of incomplete oxidation with the degradation of renewable organic materials from plants for the production of value-added products.     

Characterization of neuromedin U like immunoreactivity in rat, porcine, guinea-pig and human tissue extracts using a specific radioimmunoassay

Two novel bioactive peptides termed neuromedin U-8 and neuromedin U-25 have recently been isolated from porcine spinal cord but nothing is known of their occurrence and molecular forms in other species. Following gel permeation chromatography, a specific radioimmunoassay detected only a single molecular form of neuromedin U-like immunoreactivity (NmU-LI) in rat, porcine and human central nervous system and gastrointestinal tract. Only guinea pig tissue extracts revealed two molecular forms of NmU-Li. Reverse phase high performance liquid chromatographic (HPLC) analysis demonstrated that porcine NmU-LI co-eluted with synthetic neuromedin U-25 standard. Human and rat NmU-LI however, was more hydrophobic on HPLC thus indicating species differences.     

The effect of substrate on the expression of activity catalyzed by cytochrome P-450: metabolism mediated by rabbit isozyme 6 in pulmonary microsomal and reconstituted monooxygenase systems

The content of cytochrome P-450, isozyme 6, in the rabbit pulmonary microsomal fraction was estimated by immunochemical methods to be 1 to 3% of the total cytochrome P-450. Following treatment of rabbits with 2,3,7,8-tetrachlorodibenzo-p-dioxin, the pulmonary microsomal concentration of isozyme 6 increased 16-fold. Isozyme 6 was also detected by immunochemical methods, but not by electrophoresis and staining for protein, in preparations of isozyme 5 isolated from the pulmonary microsomal fraction of untreated rabbits. The metabolism of benzo[a]pyrene in these preparations was found to be catalyzed by isozyme 6, not by isozyme 5 as previously concluded. Cytochrome P-450, isozyme 4, was not detected in the pulmonary microsomal fraction from untreated or 2,3,7,8-tetrachlorodibenzo-p-dioxin-treated rabbits. Although benzo[a]pyrene and 7-ethoxyresorufin are both substrates for isozyme 6, the pulmonary microsomal metabolism of these compounds was not increased to the same extent by treatment of rabbits with 2,3,7,8-tetrachlorodibenzo-p-dioxin (about 13-fold for 7-ethoxyresorufin and less than 2-fold for BP). However, lack of agreement between increases in isozyme 6 content and activity, and between the relative increases of the activities with the two substrates, was overcome by the addition of purified NADPH-cytochrome P-450 reductase to the microsomal incubations. When alpha-naphthoflavone, at the minimum concentration required for greater than 90% inhibition of isozyme 6 catalysis, was present in the incubations, no increases in activity were obtained by the addition of purified reductase. The turnover numbers of isozyme 6 in microsomal preparations incubated with purified reductase were similar to those of the purified isozyme in a reconstituted monooxygenase system. The relevance of our results to determinations of the substrate specificities and the microsomal concentrations and activities of isozymes of cytochrome P-450 is discussed. In addition, these parameters are used to assess the extent to which the catalytic potential of isozyme 6 is expressed in the rabbit pulmonary microsomal fraction.     

Acyclovir transport into human erythrocytes

The mechanism of transport of the antiviral agent acyclovir (ACV) into human erythrocytes has been investigated. Initial velocities of ACV influx were determined with an "inhibitor-stop" assay that used papaverine to inhibit ACV influx rapidly and completely. ACV influx was nonconcentrative and appeared to be rate-saturable with a Km of 260 +/- 20 microM (n = 8). However, two lines of evidence indicate that ACV permeates the erythrocyte membrane by means other than the nucleoside transport system: 1) potent inhibitors (1.0 microM) of nucleoside transport (dipyridamole, 6-[(4-nitrobenzyl)thio]-9-beta-D-ribofuranosylpurine, and dilazep) had little (less than 8% inhibition) or no effect upon the influx of 5.0 microM ACV; and 2) a 100-fold molar excess of several purine and pyrimidine nucleosides had no inhibitory effect upon the influx of 1.0 microM ACV. However, ACV transport was inhibited competitively by adenine (Ki = 9.5 microM), guanine (Ki = 25 microM), and hypoxanthine (Ki = 180 microM). Conversely, ACV was a competitive inhibitor (Ki = 240-280 microM) of the transport of adenine (Km = 13 microM), guanine (Km = 37 microM), and hypoxanthine (Km = 180 microM). Desciclovir and ganciclovir, two compounds related structurally to ACV, were also found to be competitive inhibitors of acyclovir influx (Ki = 1.7 and 1.5 mM, respectively). These results indicate that ACV enters human erythrocytes chiefly via the same nucleobase carrier that transports adenine, guanine, and hypoxanthine.