The analysis of core and symbiotic genes of rhizobia nodulating Vicia from different continents reveals their common phylogenetic origin and suggests the distribution of Rhizobium leguminosarum strains together with Vicia seeds

In this work, we analysed the core and symbiotic genes of rhizobial strains isolated from Vicia sativa in three soils from the Northwest of Spain, and compared them with other Vicia endosymbionts isolated in other geographical locations. The analysis of rrs, recA and atpD genes and 16S–23S rRNA intergenic spacer showed that the Spanish strains nodulating V. sativa are phylogenetically close to those isolated from V. sativa and V. faba in different European, American and Asian countries forming a group related to Rhizobium leguminosarum. The analysis of the nodC gene of strains nodulating V. sativa and V. faba in different continents showed they belong to a phylogenetically compact group indicating that these legumes are restrictive hosts. The results of the nodC gene analysis allow the delineation of the biovar viciae showing a common phylogenetic origin of V. sativa and V. faba endosymbionts in several continents. Since these two legume species are indigenous from Europe, our results suggest a world distribution of strains from R. leguminosarum together with the V. sativa and V. faba seeds and a close coevolution among chromosome, symbiotic genes and legume host in this Rhizobium–Vicia symbiosis.     

Effect of exendin-4 treatment upon glucose uptake parameters in rat liver and muscle, in normal and type 2 diabetic state

Exendin-4, like GLP-1, is insulinotropic, antidiabetic and glucoregulatory among other properties, which are thought to be exerted through the pancreatic GLP-1 receptor; exendin-4 is also an agonist of the GLP-1 stimulatory action upon liver and muscle glucose metabolism, where GLP-1 receptor is distinct from that in the pancreas. We investigated the action of prolonged treatment with exendin-4 upon glucose transport parameters in skeletal muscle and liver of normal rats and streptozotocin-induced type 2 diabetic rats (T2D). Muscle of T2D showed lower than normal glucose transport; exendin-4 did not modify the value in normal but normalized that in the T2D; unlike previously detected with GLP-1, no apparent modification was observed in GLUT-4 expression in either group after exendin-4, except for an increased GLUT-4 protein in normal rats. Yet, exendin-4 significantly stimulated liver GLUT-2-mRNA and -protein in T2D and normal rats, the effect upon GLUT-2-protein in T2D being higher than that in normal animals; this was accompanied by a normalizing action of exendin-4 upon the lower than normal liver glycogen in T2D rats. These data suggest that the liver may represent at least one of the major target organs for exendin-4 to exert its plasma lowering effect in diabetic state.     

ClC channels: leaving the dark ages on the verge of a new millennium.

The field of molecular physiology of ClC chloride channels has witnessed a tremendous surge in knowledge over the past few years; however, fundamental issues such as the stoichiometry of ClC channels and the identification of pore-lining sequences have only recently begun to be addressed. New studies have also provided important insights into the role of ClC channels in cell volume regulation and their function in intracellular organelles.     

Inhibition by a nonmetabolized analogue of L-leucine of protein biosynthesis in tumoral pancreatic islet cells

The effect of L-leucine, its deaminated metabolite 2-ketoisocaproate and its nonmetabolized analogue b(+/-)2-aminobicyclo[2,2,1]-heptane-2-carboxylic acid (BCH) upon protein labelling was examined in tumoral islet cells (RINm5F line) exposed to L-[4-3H]phenylalanine or L-[3-3H]serine. The interpretation of the results, in terms of changes in biosynthetic activity, was obscured by a possible interference of the tested nutrients with the uptake and further metabolism of the tracer tritiated amino acids. Nevertheless, when the cells were preincubated with the nutrient secretagogues and then incubated in the sole presence of L-[3-3H]serine, BCH, but not L-leucine or 2-ketoisocaproate, still inhibited protein labelling, this coinciding with a decrease in the ratio between TCA-precipitable and total radioactivity in the RINm5F cells. The inhibitory action of BCH was antagonized, to a limited extent, by D-glucose. It is proposed that BCH could be used as a tool to interfere with the function and growth of insulinoma cells.     

Induction and reversibility of insulin resistance in rats exposed to exogenous D-fructose.

Long-term exposure of normal rats to a fructose-enriched diet or drinking water is currently used as an animal model for experimental insulin resistance. The present study deals with a comparison between rats given access to either a fructose-enriched diet or fructose-enriched drinking water. In both situations, a decrease in food intake and body weight gain, and the induction of insulin resistance with intolerance to D-glucose despite increased secretory response to the aldohexose of insulin-producing cells were documented. Moreover, the rats exposed to exogenous D-fructose displayed a lesser sensitivity to overnight fasting than control animals, in terms of the alteration of glucose homeostasis and reduction of the ratio between plasma insulin and D-glucose concentration. It is also shown that the fructose-induced insulin resistance, as assessed in a hyperinsulinemic-euglycemic clamp, represents a phenomenon reversed within 15-30 days after removal of the keto-hexose from the drinking water.     

Mechanism of 3-phenylpyruvate-induced insulin release. Secretory, ionic and oxidative aspects.

1. 3-Phenylpyruvate caused a dose-related stimulation of insulin release from rat pancreatic islets deprived of exogenous nutrient or incubated in the presence of 5.6 or 8.3 mM-D-glucose. 2. 3-Phenylpyruvate inhibited insulin release evoked by high concentrations of D-glucose (16.7 or 27.8 mM) or 4-methyl-2-oxopentanoate (10.0 mM). This inhibitory effect appeared to be attributable to impairment of 2-oxo-acid transport into the mitochondria, with resulting inhibition of D-glucose, pyruvate or 4-methyl-2-oxopentanoate oxidation. 3. 3-Phenylpyruvate failed to affect the oxidation of, and secretory response to, L-leucine, and did not augment insulin release evoked by a non-metabolized analogue of the latter amino acid. 4. L-Glutamine augmented 3-phenylpyruvate-induced insulin release. The release of insulin evoked by the combination of 3-phenylpyruvate and L-glutamine represented a sustained phenomenon, abolished in the absence of extracellular Ca2+ or the presence of menadione and potentiated by theophylline. 5. Whether in the presence or in the absence of L-glutamine, the secretory response to 3-phenylpyruvate coincided with an increase in O2 uptake, a decrease in K+ conductance, a stimulation of both Ca2+ inflow and 45Ca2+ net uptake and an increase in cyclic AMP content. 6. It is concluded that the release of insulin induced by 3-phenylpyruvate displays features classically encountered when the B-cell is stimulated by nutrient secretagogues, and is indeed attributable to an increase in nutrient catabolism.     

Particle bombardment, a method for gene transfer in marigold

Marigold (Tagetes erecta) leaf explants were bombarded with plasmid pBI426 in a low pressure particle inflow gun. Transient expression assays were performed with different pressures and distances. The best transient expression (GUS) level was obtained with explants induced in regeneration medium and bombarded at 10.5 cm and 551.6 kPa. Stable expression assays were performed and the callus tissue was selected on regeneration medium supplemented with 100 mg l⁻¹ kanamycin. Stable genetic transformation of the resistant plantlets was demonstrated by PCR and Southern blot analysis; more than one transgene copy was observed in the transformed plantlet genomes. This method can be used for marigold gene transfer.