Ablation of AMP-activated protein kinase alpha1 and alpha2 from mouse pancreatic beta cells and RIP2.Cre neurons suppresses insulin release in vivo.

AIMS/HYPOTHESIS: AMP-activated protein kinase (AMPK) is an evolutionarily conserved enzyme and a target of glucose-lowering agents, including metformin. However, the precise role or roles of the enzyme in controlling insulin secretion remain uncertain. METHODS: The catalytic alpha1 and alpha2 subunits of AMPK were ablated selectively in mouse pancreatic beta cells and hypothalamic neurons by breeding Ampkalpha1 [also known as Prkaa1]-knockout mice, bearing floxed Ampkalpha2 [also known as Prkaa2] alleles (Ampkalpha1 ( -/- ),alpha2( fl/fl ),), with mice expressing Cre recombinase under the rat insulin promoter (RIP2). RIP2 was used to express constitutively activated AMPK selectively in beta cells in transgenic mice. Food intake, body weight and urinary catecholamines were measured using metabolic cages. Glucose and insulin tolerance were determined after intraperitoneal injection. Beta cell mass and morphology were analysed by optical projection tomography and confocal immunofluorescence microscopy, respectively. Granule docking, insulin secretion, membrane potential and intracellular free Ca(2+) were measured with standard techniques. RESULTS: Trigenic Ampkalpha1 ( -/- ),alpha2( fl/fl ) expressing Cre recombinase and lacking both AMPKalpha subunits in the beta cell, displayed normal body weight and increased insulin sensitivity, but were profoundly insulin-deficient. Secreted catecholamine levels were unchanged. Total beta cell mass was unaltered, while mean islet and beta cell volume were reduced. AMPK-deficient beta cells displayed normal glucose-induced changes in membrane potential and intracellular free Ca(2+), while granule docking and insulin secretion were enhanced. Conversely, betaAMPK transgenic mice were glucose-intolerant and displayed defective insulin secretion. CONCLUSIONS/INTERPRETATION: Inhibition of AMPK activity within the beta cell is necessary, but not sufficient for stimulation of insulin secretion by glucose to occur. AMPK activation in extrapancreatic RIP2.Cre-expressing cells might also influence insulin secretion in vivo.

Manipulation of the napin primary structure alters its packaging and deposition in transgenic tobacco (Nicotiana tabacum L.) seeds.

Napin is a 2S storage protein found in the seeds of oilseed rape (Brassica napus L.) and related species. Using protein structural prediction programs we have identified a region in the napin protein sequence which forms a 'hydrophilic loop' composed of amino acid residues located at the protein surface. Targeting this region, we have constructed two napin chimeric genes containing the coding sequence for the peptide hormone leucine-enkephalin as a topological marker. One version has a single enkephalin sequence of 11 amino acids including linkers and the second contains a tandem repeat of this peptide comprising 22 amino acids, inserted into the napin large subunit. The inserted peptide sequences alter the balance of hydrophilic to hydrophobic amino acids and introduce flexibility into this region of the polypeptide chain. The chimeric genes have been expressed in tobacco plants under the control of the seed-specific napA gene promoter. Analyses indicate that the engineered napin proteins are expressed, transported, post-translationally modified and deposited inside the protein bodies of the transgenic seeds demonstrating that the altered napin proteins behave in a similar fashion to the authentic napin protein. Detailed immunolocalisation studies indicate that the insertion of the peptide sequences has a significant effect on the distribution of the napin proteins within the tobacco seed protein bodies.

Synthesis, fungicidal activity, and QSAR of a series of 2-dichlorophenyl-3-triazolylpropyl ethers.

A series of new alkyl and arylalkyl ethers of 2-(2, 4-dichlorophenyl)-3-(1H-1,2,4-triazol-1-yl)propanol, related to the fungicide tetraconazole, were synthesized and tested in vitro or in vivo against seven common pathogens in comparison with tetraconazole. In vitro, most of them exhibited a broad spectrum of activity and an efficacy of the same order of magnitude of the standard, but the activity was influenced by the nature of the substituents. A QSAR study showed that lipophilicity is a major positive parameter in affecting the activity; the second relevant parameter is mu, whereas geometrical descriptors indicate that linear and narrow substituents are more suitable than wide ones. In in vivo assays some compounds had good activity on bean rust, either protective or curative. Sterol analysis showed that the mechanism of action is due to inhibition of 14alpha-demethylase.