Tula Dimoulas scite author profile

Tula Dimoulas

3Publications

45Citation Statements Received

54Citation Statements Given

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Sorain Cecchini Tecno (Italy), Menarini Group (Italy)

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In vivo metabolite detection and identification in drug discovery via LC‐MS/MS with data‐dependent scanning and postacquisition data mining

et al. 2005

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An important aspect in drug discovery is the early structural identification of the metabolites of potential new drugs. This gives information on the metabolically labile points in the molecules under investigation, suggesting structural modifications to improve their metabolic stability, and allowing an early safety assessment via the identification of metabolic activation products. From an analytical point of view, metabolite identification still remains a challenging task, especially for in vivo samples, in which they occur at trace levels together with high amounts of endogenous compounds. Here we describe a method, based on LC-ion trap tandem MS, for the rapid in vivo metabolite identification. It is based on the automatic, data-dependent acquisition of multiple product ion MS/MS scans, followed by a postacquisition search, within the entire MS/MS data set obtained, for specific neutral losses or marker ions in the tandem mass spectra of parent molecule and putative metabolites. One advantage of the method is speed, since it requires minimum sample preparation and all the necessary data can be obtained in one chromatographic run. In addition, it is highly sensitive and selective, allowing detection of trace metabolites even in the presence of a complex matrix. As an example of application, we present the studies of the in vivo metabolism of the compound MEN 15916 (1). The method allowed identification of monohydroxy ([M + H](+) = m/z 655), dihydroxy ([M + H](+) = m/z 671), and trihydroxy ([M + H](+) = m/z 687) metabolites, as well as some unexpected biotransformation products such as a carboxylic acid ([M + H](+) = m/z 669), a N-dealkylated metabolite ([M + H](+) = m/z 541), and its hydroxy-analog ([M + H](+) = m/z 557).

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Cyclobutylidenecyclopropane: New Synthesis and Use in 1,3-Dipolar Cycloadditions − A Direct Route to Spirocyclopropane-Annulated Azepinone Derivatives

Meijere¹,

Seebach²,

Kozhushkov³

et al. 2001

Eur. J. Org. Chem.

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Cyclobutylidenecyclopropane (7) was prepared in multigram quantities by a new three-step sequence starting from ethyl cyclobutanecarboxylate (4) (39% overall yield). 1,3-Dipolar cycloadditions of phenyl-(9), pyridyl-(10), and the newly prepared (four steps, 43% overall yield) spirocyclic nitrone 11 onto 7 resulted in the regioselective formation of the corresponding adducts 15−17, with the spirobutane moieties adjacent to the oxygen atom in the oxazolidine rings, in 52, Eur.

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Modulation on C‐ and N‐Terminal Moieties of a Series of Potent and Selective Linear Tachykinin NK₂ Receptor Antagonists

et al. 2009

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Herein we describe the synthesis of a series of new potent tachykinin NK(2) receptor antagonists by the modulation of the C- and N-terminal moieties of ibodutant (MEN 15596, 1). The N-terminal benzo[b]thiophene ring was replaced by different substituted naphthalenes and benzofurans, while further modifications were evaluated at the C-terminal tetrahydropyran moiety. Most compounds demonstrated a high affinity for the human NK(2) receptor and high in vitro antagonist potency, indicating that a wide range of substituents at both termini can be incorporated in the molecule without detrimental effects on the interactions with the NK(2) receptor. Selected compounds were tested in vivo confirming their activity as NK(2) antagonists. In particular, after both iv and id administration to guinea pig, compound 61 b was able to antagonize NK(2)-induced colonic contractions with a potency and duration-of-action fully comparable to the reference compound 1 (MEN 15596, ibodutant).

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Tula Dimoulas

In vivo metabolite detection and identification in drug discovery via LC‐MS/MS with data‐dependent scanning and postacquisition data mining

Cyclobutylidenecyclopropane: New Synthesis and Use in 1,3-Dipolar Cycloadditions − A Direct Route to Spirocyclopropane-Annulated Azepinone Derivatives

Modulation on C‐ and N‐Terminal Moieties of a Series of Potent and Selective Linear Tachykinin NK₂ Receptor Antagonists

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Tula Dimoulas

In vivo metabolite detection and identification in drug discovery via LC‐MS/MS with data‐dependent scanning and postacquisition data mining

Cyclobutylidenecyclopropane: New Synthesis and Use in 1,3-Dipolar Cycloadditions − A Direct Route to Spirocyclopropane-Annulated Azepinone Derivatives

Modulation on C‐ and N‐Terminal Moieties of a Series of Potent and Selective Linear Tachykinin NK2 Receptor Antagonists

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Modulation on C‐ and N‐Terminal Moieties of a Series of Potent and Selective Linear Tachykinin NK₂ Receptor Antagonists