Alessio Amadasi scite author profile

The vitamin B(6)-derived pyridoxal 5'-phosphate (PLP) is the cofactor of enzymes catalyzing a large variety of chemical reactions mainly involved in amino acid metabolism. These enzymes have been divided in five families and fold types on the basis of evolutionary relationships and protein structural organization. Almost 1.5% of all genes in prokaryotes code for PLP-dependent enzymes, whereas the percentage is substantially lower in eukaryotes. Although about 4% of enzyme-catalyzed reactions catalogued by the Enzyme Commission are PLP-dependent, only a few enzymes are targets of approved drugs and about twenty are recognised as potential targets for drugs or herbicides. PLP-dependent enzymes for which there are already commercially available drugs are DOPA decarboxylase (involved in the Parkinson disease), GABA aminotransferase (epilepsy), serine hydroxymethyltransferase (tumors and malaria), ornithine decarboxylase (African sleeping sickness and, potentially, tumors), alanine racemase (antibacterial agents), and human cytosolic branched-chain aminotransferase (pathological states associated to the GABA/glutamate equilibrium concentrations). Within each family or metabolic pathway, the enzymes for which drugs have been already approved for clinical use are discussed first, reporting the enzyme structure, the catalytic mechanism, the mechanism of enzyme inactivation or modulation by substrate-like or transition state-like drugs, and on-going research for increasing specificity and decreasing side-effects. Then, PLP-dependent enzymes that have been recently characterized and proposed as drug targets are reported. Finally, the relevance of recent genomic analysis of PLP-dependent enzymes for the selection of drug targets is discussed.

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Design of O-Acetylserine Sulfhydrylase Inhibitors by Mimicking Nature

Salsi¹,

et al. 2009

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The inhibition of cysteine biosynthesis in prokaryotes and protozoa has been proposed to be relevant for the development of antibiotics. Haemophilus influenzae O-acetylserine sulfhydrylase (OASS), catalyzing L-cysteine formation, is inhibited by the insertion of the C-terminal pentapeptide (MNLNI) of serine acetyltransferase into the active site. 400 MNXXI pentapeptides were generated, docked into OASS active site using GOLD and scored with HINT. The terminal P5 Ile accounts for about 50% of the binding energy. Glu or Asp at position P4, and to a lesser extent, at position P3, also significantly contribute to the binding interaction. The predicted affinity of 14 selected pentapeptides correlated well with the experimentally determined dissociation constants. The X-ray structure of three high affinity pentapeptides-OASS complexes were compared with the docked poses. These results, combined with a GRID analysis of the active site, allowed us to define a pharmacophoric scaffold for the design of peptidomimetic inhibitors.

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Mapping the Energetics of Water–Protein and Water–Ligand Interactions with the “Natural” HINT Forcefield: Predictive Tools for Characterizing the Roles of Water in Biomolecules

Amadasi

Spyrakis

Cozzini

et al. 2006

Journal of Molecular Biology

107

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Robust Classification of “Relevant” Water Molecules in Putative Protein Binding Sites

et al. 2008

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Alessio Amadasi

Pyridoxal 5-Phosphate Enzymes as Targets for Therapeutic Agents

Design of O-Acetylserine Sulfhydrylase Inhibitors by Mimicking Nature

Mapping the Energetics of Water–Protein and Water–Ligand Interactions with the “Natural” HINT Forcefield: Predictive Tools for Characterizing the Roles of Water in Biomolecules

Robust Classification of “Relevant” Water Molecules in Putative Protein Binding Sites

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