Effects of enkephalins and two enzyme resistant analogues on monoamine synthesis and metabolism in rat brain

Methionine-enkephalin and leucineenkephalin, administered into the lateral ventricle of intact rats, increased the accumulation of DOPA by a naloxone-sensitive mechanism in different brain regions after inhibition of the aromatic l -amino acid decarboxylase. Because of the rapid enzymatic degradation of both enkephalins large doses (500 μg) were required to enhance brain catecholamine synthesis. The two enzyme resistant enkephalin analogues d -Ala 2 -methionine enkephalin amide (DALA (4–256 μg) and FK 33-824 (0.003–1 μg) also increased the synthesis of DOPA, dose-dependently and by naloxone-sensitive mechanisms, but at much lower dosage level. The enkephalins markedly enhanced the brain tyrosine concentration but this effect was not antagonized by naloxone, probably because the enzymatic cleavage releases tyrosine from the administered peptides. In contrast, neither DALA nor FK 33-824 increased the brain tyrosine concentration. The formation of 5-HTP and the brain tryptophan concentration were also increased by the enkephalins, although these effects were not blocked by naloxone. The enkephalin analogues, however, enhanced the formation of 5-HTP and the brain tryptophan concentration by naloxonesensitive mechanisms. All four peptides accelerated the disappearance of dopamine, noradrenaline and 5-hydroxytryptamine after inhibition of monoamine synthesis. The results suggest that endogenous enkephalins, through the activation of opiate receptors, are involved in the short-term regulation of central monoaminergic systems.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/46308/1/210_2004_Article_BF00499912.pd

Proposal of a methodology for implementing a service-oriented architecture in distributed manufacturing systems

As envisioned by Intelligent Manufacturing Systems (IMS), Next Generation Manufacturing Systems (NGMS) will satisfy the needs of an increasingly fast-paced and demanding market by dynamically integrating systems from inside and outside the manufacturing firm itself into a so-called extended enterprise. However, organizing these systems to ensure the maximum flexibility and interoperability with those from other organizations is difficult. Additionally, a defect in the system would have a great impact: it would affect not only its owner, but also its partners. For these reasons, we argue that a service-oriented architecture (SOA) would be a good candidate. It should be designed following a methodology where services play a central role, instead of being an implementation detail. In order for the architecture to be reliable enough as a whole, the methodology will need to help find errors before they arise in a production environment. In this paper we propose using SOA-specific testing techniques, compare some of the existing methodologies and outline several extensions upon one of them to integrate testing techniques