Rudolf Hurnaus scite author profile

The structure-activity relationships in two series of hypoglycemic benzoic acid derivatives (5, 6) were investigated. Series 5 resulted from meglitinide (3) when the 2-methoxy was replaced by an alkyleneimino residue. Maximum activity was observed with the cis-3, 5-dimethyl-piperidino (5h) and the octamethyleneimino (5l) residues. Series 6 resulted from the meglitinide analogon 4 bearing an inversed amido function when the 2-methoxy, the 5-fluoro, and the alpha-methyl residue were replaced by a 2-piperidino, a 5-hydrogen, and a larger alpha-alkyl residue, respectively. An alkoxy residue ortho to the carboxy group further increased activity and duration of action in the rat. The most active racemic compound, 6al (R4 = isobutyl; R = ethoxy), turned out to be 12 times more active than the sulfonylurea (SU) glibenclamide (1). Activity was found to reside predominantly in the (S)-enantiomers. Compared with the SUs 1 and 2 (glimepiride), the most active enantiomer, (S)-6al (AG-EE 623 ZW; repaglinide; ED50 = 10 micro/kg po), is 25 and 18 times more active. Repaglinide turned out to be a useful therapeutic for type 2 diabetic patients; approval was granted recently by the FDA and the EMEA. From investigations on the pharmacophoric groups in compounds of type 5 and 6, it was concluded that in addition to the two already known-the acidic group (COOH; SO2NH) and the amidic spacer (CONH; NHCO)-the ortho residue R1 (alkyleneimino; alkoxy; oxo) must be regarded as a third one. A general pharmacophore model suitable for hypoglycemic benzoic acid derivatives, SUs, and sulfonamides is proposed (Figure 6). Furthermore, from superpositions of low-energy conformations (LECs) of 1, 2, and (S)-6al, it was concluded that a common binding conformation (LEC II; Figure 10B) may exist and that differences in binding to the SU receptor and in the mechanism of insulin release between repaglinide and the two SUs may be due to specific hydrophobic differences.

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The SK‐N‐MC cell line expresses an orexin binding site different from recombinant orexin 1‐type receptor

Wieland

Söll

Doods

et al. 2002

European Journal of Biochemistry

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Orexin A and B (also known as hypocretins), two recently discovered neuropeptides, play an important role in food intake, sleep/wake cycle and neuroendocrine functions. Orexins are endogenous ligands of two G-protein-coupled receptors, termed OX 1 and OX 2 . This work presents the first short orexin A and B analogues, orexin A 23-33 and orexin B 18-28, with high affinity (119 ± 49 and 49 ± 23 nM) for OX 1 receptors expressed on SK-N-MC cells and indicates the importance of the C-terminal part of the orexin peptides for this ligand-receptor interaction. However, these C-terminal fragments of orexin did not displace the 125 I-labelled orexin B from the recombinant orexin 1 receptor stably expressed in Chinese hamster ovary cells. To examine the role of the shortened orexin A 23-33 in feeding, its effects in mimicking or antagonizing the effects of orexin A were studied in rats after administration via the lateral hypothalamus. In contrast with orexin A, which potently induced feeding up to 4 h after administration, orexin A 23-33 neither induced feeding nor inhibited orexin A-induced feeding. Modafinil (VigilÒ), which was shown earlier to activate orexin neurons, displayed binding neither to the orexin receptor expressed on SK-N-MC cells nor to the recombinant orexin 1 receptor, which indicates that modafinil displays its antinarcoleptic action via another yet unknown mechanism. PCR and subsequent sequencing revealed expression of the full-length orexin 1 receptor mRNA in SK-N-MC and NT-2 cells. Interestingly, sequencing of several cDNA clones derived from RNA of both SK-N-MC and NT-2 cells differed from the published nucleotide sequence at position 1375. Amino acid prediction of this AfiG change results in an isoleucinefivaline substitution at the protein level, which may provide evidence for an editing process.

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On the Mechanism of Pd(O) Catalyzed Formation of Oxazolidin-2-ones from Vinyl Epoxides

Trost

Hurnaus

1989

Tetrahedron Letters

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Reaktionen von Oxazolin‐5‐on‐Anionen, VIII. α‐Substituierte α‐Aminosauren durch Alkylierung von Oxazolin‐5‐onen

et al. 1979

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Alkylation of oxazolin-5-ones 1 with alkyl halides/ethyldiisopropylamine in dipolar aprotic solvents yields 4,4-disubstituted oxazolin-5-ones 2, which are cleaved with HCl/acetic acid to give a-amino acids 3. The introduction of cycloheptatrienyl residues with tropylium perchlorate/triethylamine in benzene is described. Oxazolin-5-ones may be considered as nucleophilic acyl equivalents. This is demonstrated by alkylation of 4-isopropyl-2-phenyl-2-oxazolin-5-one (1 b) to give 4-isopropyl-4-(2-nitrobenzyl)-2-phenyl-2-oxazolin-5-one (20 which may be transformed into isopropyl 2-nitrobenzyl ketone (12). Zur Einfuhrung einer Verzweigung in a-

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Rudolf Hurnaus

Repaglinide and Related Hypoglycemic Benzoic Acid Derivatives

The SK‐N‐MC cell line expresses an orexin binding site different from recombinant orexin 1‐type receptor

On the Mechanism of Pd(O) Catalyzed Formation of Oxazolidin-2-ones from Vinyl Epoxides

Reaktionen von Oxazolin‐5‐on‐Anionen, VIII. α‐Substituierte α‐Aminosauren durch Alkylierung von Oxazolin‐5‐onen

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