Metabolic analysis revealed altered amino acid profiles in Lupinus albus organs as a result of boron deficiency.

We analysed the changes in the metabolites of Lupinus albus organs (leaf-blades, petioles, apexes, hypocotyls and roots) as a consequence of B deficiency. The deficiency did not affect malate concentration and induced only minor changes in the sugar content, suggesting that the carbohydrate metabolism is little affected by the deficiency. Contrarily, marked changes in the content of free amino acids were observed, with some specific variations associated with the different organs. These changes indicate that various aspects of metabolism implicated in the amino acid accumulation were affected by B deficiency. Most of the detected changes appear to have implications with some stress responses or signalling processes. Asparagine and proline that increase in many stresses also accumulated in petioles, apexes and hypocotyls. Accumulation of γ-aminobutyric acid shunt amino acids, indicative of production of reactive oxygen species, occurs in the same three organs and also the roots. The increase in the branched-chain amino acids, observed in all organs, suggests the involvement of B with the cytoskeleton, whereas glycine decrease in leaf-blades and active growing organs (apexes and roots) could be associated with the proposed role of this amino acids in plant signalling in processes that might be associated with the decreased growth rates observed in B deficiency. Despite the admitted importance of free amino acids in plant metabolism, the available information on this matter is scarce. So our results bring new information concerning the effects of B deficiency in the metabolism of the several L. albus organs.

Antioxidant capacity of Macaronesian traditional medicinal plants.

The use of many traditional medicinal plants is often hampered by the absence of a proper biochemical characterization, essential to identify the bioactive compounds present. The leaves from five species endemic to the Macaronesian islands with recognized ethnobotanical applications were analysed: Apollonias barbujana (Cav.) Bornm., Ocotea foetens (Ainton) Baill, Prunus azorica (Mouill.) Rivas-Mart., Lousã, Fern. Prieto, E. Días, J.C. Costa & C. Aguiar, Rumex maderensis Lowe and Plantago arborescens Poir. subsp. maderensis (Dcne.) A. Hans. et Kunk.. Since oxidative stress is a common feature of most diseases traditionally treated by these plants, it is important to assess their antioxidant capacity and determine the molecules responsible for this capacity. In this study, the antioxidant capacity of these plants against two of the most important reactive species in human body (hydroxyl and peroxyl radicals) was determined. To trace the antioxidant origin total phenol and flavonoid contents as well as the polyphenolic profile and the amount of trace elements were determined. There was a wide variation among the species analysed in what concerns their total leaf phenol and flavonoid contents. From the High Performance Liquid Chromatography (HPLC) electrochemically detected peaks it was possible to attribute to flavonoids the antioxidant capacity detected in A. barbujana, O. foetens, R. maderensis and P. azorica extracts. These potential reactive flavonoids were identified for A. barbujana, R. maderensis and P. azorica. For R. maderensis a high content (7 mg g-1 dry weight) of L-ascorbic acid, an already described antioxidant phytomolecule, was found. A high content in selenomethionine (414.35 microg g-1 dry weight) was obtained for P. arborescens subsp. maderensis extract. This selenocompound is already described as a hydroxyl radical scavenger is reported in this work as also possessing peroxyl radical scavenging capacity. This work is a good illustration of different phytomolecules (flavonoids, organic acids and selenocompounds), presents in leaves of the five traditional medicinal plants endemic to Macaronesia, all exhibiting antioxidant properties.

Biochemical characterization of plasma in amyotrophic lateral sclerosis: amino acid and protein composition.

In this work, we have studied the amino acid and protein composition of the plasma from a group of 32 ALS patients. As controls, groups of 10 healthy subjects (HC) and 32 patients with other neuromuscular disorders have been analysed. When the HC group was compared with the ALS group there were significant decreases of His (39+/-18 to 24+/-9 microM, p<0.01) and Ala (313+/-62 to 237+/-66 microM, p<0.05), and a significant increase of Asn (89+/-41 to 118+/-24 microM, p<0.05), for the ALS group. When the three groups were compared, we observed significant decreased concentrations of Ser, His, Thr, Ala, Arg, Tyr, Met, Cys, Ile, and significant increases of Asn, Phe and Lys. An increase of proteolytic products of alpha2-macroglobulin (alpha2-M), an acute-phase serum glycoprotein that functions as a protease inhibitor, has been observed for a subgroup of ALS patients by Western blot. Furthermore, the detection of alpha2-M during disease progression has shown increases of the intact subunit and of a proteolytic product for two of the four patients analysed. Another acute-phase glycoprotein, haptoglobin, which regulates haemoglobin degradation, was not increased for the same group of patients. The results obtained suggested that diet supplementation with His and Ala and modulation of alpha2-M might have some beneficial effects on the course of ALS.