Grape skin phenolics as inhibitors of mammalian α-glucosidase and α-amylase--effect of food matrix and processing on efficacy.

Type-2 diabetes is continuously increasing worldwide. Hence, there is a need to develop functional foods that efficiently alleviate damage due to hyperglycaemia complications while meeting the criteria for a sustainable food processing technology. Inhibition of mammalian α-amylase and α-glucosidase was studied for white grape skin samples recovered from wineries and found to be higher than that of the drug acarbose. In white grape skins, quercetin and kaempferol derivatives, analysed by UPLC-DAD-MS, and the oligomeric series of catechin/epicatechin units and their gallic acid ester derivatives up to nonamers, analysed by MALDI-TOF-MS were identified. White grape skin was then used for enrichment of a tomato puree (3%) and a flat bread (10%). White grape skin phenolics were found in the extract obtained from the enriched foods, except for the higher mass proanthocyanidin oligomers, mainly due to their binding to the matrix and to a lesser extent to heat degradation. Proanthocyanidin solubility was lower in bread, most probably due to formation of binary proanthocyanin/protein complexes, than in tomato puree where possible formation of ternary proanthocyanidin/protein/pectin complexes can enhance solubility. Enzyme inhibition by the enriched foods was significantly higher than for unfortified foods. Hence, this in vitro approach provided a platform to study potential dietary agents to alleviate hyperglycaemia damage and suggested that grape skin phenolics could be effective even if the higher mass proanthocyanidins are bound to the food matrix.

Protective ability of phenolics from white grape vinification by-products against structural damage of bovine serum albumin induced by glycation.

Grape skins recovered from white grape vinification processes were studied as possible anti-glycation agents. Total phenolics were characterised by the Folin Ciocalteu assay, proanthocyanidins by depolymerisation with n-butanol/HCl, flavonols by HPLC-DAD, reducing capacity by ferric ion reducing antioxidant power assay (FRAP) and anti-glycation activity by a bovine serum albumin (BSA)/fructose model system. Structural modifications of BSA were investigated by 2D isoelectric focusing sodium dodecyl sulfate polyacrylamide gel electrophoresis (IEF/SDS-PAGE) and fluorescence measurements. Both pI and Mr. of BSA were modified upon glycation reaction. These changes attributable to the involvement of free amino groups in Maillard-type reactions were inhibited by the white grape skin extracts. The anti-glycation activity ranged between 250 and 711mmol aminoguanidine Eq/kg. These results raise the interest in the potential health benefits of by-products of white grape vinification that could have a secondary use as an ingredient for new functional foods targeting wellbeing of diabetic and elderly people.

Insulin-mimetic action of conglutin-γ, a lupin seed protein, in mouse myoblasts.

BACKGROUND AND AIMS: Lupin seed is referred to as an antidiabetic product in traditional medicine. Conglutin-γ, a lupin seed glycoprotein, was found to cause a significant plasma glucose reduction when orally administered to rats in glucose overload trials. Conglutin-γ was identified as being responsible for the claimed biological activity, and the aim of this work was to envisage its hypothetical insulin-mimetic cellular mechanism of action. Insulin is responsible for proteosynthesis control through IRS/AKT/P70S6k/PHAS1 pathways modulation, glucose homeostasis through PKC/Flotillin-2/caveolin-3/Cbl activation and muscle differentiation/hypertrophy via muscle-specific MHC gene transcription control. METHODS AND RESULTS: To assess whether conglutin-γ modulates the same insulin-activated kinases, myoblastic C2C12 cells were incubated after 72 h of differentiation with 100 nM insulin or 0.5 mg/mL (∼10 µM) conglutin-γ. Metformin-stimulated cells were used as a positive control. The effect on the above mentioned pathways was evaluated after 5, 10, 20 and 30 min. In the control cells medium insulin, conglutin-γ and metformin were not added. We demonstrated that insulin or conglutin-γ cell stimulation resulted in the persistent activation of protein synthetic pathway kinases and increased glucose transport, glut4 translocation and muscle-specific gene transcription regulation. CONCLUSIONS: Our results indicate that conglutin-γ may regulate muscle energy metabolism, protein synthesis and MHC gene transcription through the modulation of the same insulin signalling pathway, suggesting the potential therapeutic use of this natural legume protein in the treatment of diabetes and other insulin-resistant conditions, as well as the potential conglutin-γ influence on muscle cells differentiation and regulation of muscle growth.

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.

Cloning, sequencing and expression in the seeds and radicles of two Lupinus albus conglutin gamma genes.

Two genes encoding conglutin gamma have been isolated from a Lupinus albus genomic library and sequenced. The expression of conglutin gamma was studied by partial amino acid sequencing of the mature seed protein and by nucleotide sequencing of reverse transcriptase-polymerase chain reaction products from various tissues during the plant life cycle.

Interaction of metal ions with lupin seed conglutin gamma.

Various metal ions were capable of aggregating and precipitating conglutin gamma, an oligomeric glycoprotein purified from Lupinus albus seeds, at neutral pH values. The most effective metal ions, at 60-fold molar excess to the protein, were Zn2+, Hg2+ and Cu2+; a lower influence on the physical status of conglutin gamma was observed with Cr3+, Fe3+, Co2+, Ni2+, Cd2+, Sn2+, and Pb2+, while Mg2+, Ca2+ and Mn2+ had no effect at all. The insolubilisation of the protein with Zn2+, which is fully reversible, strictly depended on both metal concentration and pH. with middle points of the sharp transitions at three-fold molar excess and pH 6.5, respectively. Conglutin gamma is also fully retained on a metal affinity chromatography column at which Zn2+ and Ni2+ were complexed. A drop of pH below 6.0 and the use of chelating agents, such as EDTA and imidazole, fully desorbed the protein. A slightly lower binding to immobilised Cu2+ and Co2+ and no binding with Mg2+, Cd2+ and Mn2+ were observed. The role of the numerous histidine residues of conglutin gamma in the binding of Zn2+ is discussed.

Thermal stabilities of lupin seed conglutin gamma protomers and tetramers.

Various experimental approaches have been used in this work to assess the thermal stabilities of lupin seed conglutin gamma at two pH values, 4.5 and 7.5, at which the protein exists as a protomer and a tetramer, respectively. The patterns of thermal unfolding at the two pH values differed significantly; the tetramer aggregated and became insoluble, whereas the protomer was still soluble after thermal treatment. Also, the midpoint transition temperatures were dramatically different, being 60.3 and 75.1 degrees C for the protomer and tetramer, respectively. The behavior of conglutin gamma at neutral pH was also affected by disulfide formation/interchange, in that some unfolded protein molecules became covalently stabilized. More detailed analyses by differential scanning calorimetry and indirect fluorescence measurements, using 8-anilino-1-naphthalenesulfonic acid as a probe, confirmed the remarkable differences observed in the thermal stabilities of the two protein forms and allowed models for their unfolding patterns to be drawn.

Heat-induced synthesis and tunicamycin-sensitive secretion of the putative storage glycoprotein conglutin gamma from mature lupin seeds.

SDS/PAGE, immune blotting with specific antibodies and amino acid sequence analyses revealed that 90% of the protein released from Lupinus albus seeds incubated in water at 60 degrees C for about 3 h was conglutin gamma, a putative storage glycoprotein already present in the protein bodies of mature seeds. Incorporation of [14C]leucine into the protein demonstrated that conglutin gamma was newly synthesized during the treatment and the use of protein synthesis inhibitors ruled out the secretion of constitutive conglutin gamma. Synthesis and secretion took place only over a narrow temperature range, 57.5-62.5 degrees C, and in a short time interval, 135-180 min, of incubation of the seed. The amount of secreted conglutin gamma, i.e. 1 mg/seed, was about three times that present inside the treated or untreated seed. Secreted conglutin gamma contained covalently linked carbohydrate as well as the constitutive protein. Inhibition of the glycosylation by tunicamycin did not affect conglutin gamma synthesis, but prevented its secretion from the seed, as indicated by quantifying conglutin gamma remaining in the seed. An accumulation of the protein outside the protein bodies and at the cotyledonary cell periphery was shown in these samples by immunocytochemistry. Peptide mapping of the fragments obtained by incubation of constitutive and secreted conglutin gamma with trypsin and pepsin revealed no difference between the two proteins. Lupin seeds were still viable after the treatment. However no similarities between conglutin gamma and heat-shock proteins were observed either in the amino acid sequence or other molecular features.