Population, basicity and partition of short-lived conformers. Characterization of baclofen and pregabalin, the biaxial, doubly rotating drug molecules.

Populations, protonation constants and octanol-water partition coefficients were determined and assigned specifically to fast interconverting individual conformers, exemplified in baclofen and pregabalin, the GABA-related drug molecules of biaxial, double rotations. Rotamer statuses along both axes in water and octanol were elucidated from H NMR vicinal coupling constants. Conformer abundances were obtained by the appropriate combination of the rotamer populations in the two adjacent moieties in the molecule.

Dopamine: Acid-base properties and membrane penetration capacity.

Dopamine and 4 related compounds were studied by H NMR-pH titrations and a case-tailored evaluation method. The resulting acid-base properties of dopamine are quantified in terms of 3 macroscopic and 12 microscopic protonation constants and the concomitant 3 interactivity parameters. The species- and site-specific basicities are interpreted by means of inductive and shielding effects through various intra- and intermolecular comparisons.

Site- and species-specific hydrolysis rates of cocaine.

The hydroxide-catalyzed non-enzymatic hydrolysis of cocaine is quantified in terms of ten site- and species-specific rate constants in connection with also ten site- and species-specific acid-base equilibrium constants, comprising all the twelve coexisting species in solution. This characterization involves the major and minor decomposition pathways via benzoylecgonine and ecgonine methyl ester, respectively, leading to ecgonine, the final product. Hydrolysis has been found to be 10-330 times faster at site 2 than at site 3, depending on the ionization status of the amino moiety and the rest of the molecule.

Site- and species-specific hydrolysis rates of heroin.

The hydroxide-catalyzed non-enzymatic, simultaneous and consecutive hydrolyses of diacetylmorphine (DAM, heroin) are quantified in terms of 10 site- and species-specific rate constants in connection with also 10 site- and species-specific acid-base equilibrium constants, comprising all the 12 coexisting species in solution. This characterization involves the major and minor decomposition pathways via 6-acetylmorphine and 3-acetylmorphine, respectively, and morphine, the final product. Hydrolysis has been found to be 18-120 times faster at site 3 than at site 6, depending on the status of the amino group and the rest of the molecule.

Advances in microspeciation of drugs and biomolecules: Species-specific concentrations, acid-base properties and related parameters.

The pharmacokinetic and pharmacodynamic behaviour of drugs and the interacting biomolecules are highly influenced by their species-specific physico-chemical properties. The first of such bio-relevant, structure-dependent properties were the species-specific acid-base constants and the co-dependent concentrations, but the past decade brought significant advances to previously uncharted territories, including the experimental determination of species-specific partition coefficients, solubilities and redox equilibrium constants. This review gives an overview of the types and definitions of species-specific physico-chemical and analytical properties.

Chiral separation of asenapine enantiomers by capillary electrophoresis and characterization of cyclodextrin complexes by NMR spectroscopy, mass spectrometry and molecular modeling.

The enantiomers of asenapine maleate (ASN), a novel antipsychotic against schizophrenia and mania with bipolar I disorder have been separated by cyclodextrin (CD) modified capillary zone electrophoresis for the first time. 15 different CDs were screened as complexing agents and chiral selectors, investigating the stability of the inclusion complexes and their enantiodiscriminating capacities. Although initially, none of the applied chiral selectors gave baseline separation, β-CD proved to be the most effective chiral selector.

The complete microspeciation of ovothiol A disulfide: a hexabasic symmetric biomolecule.

The site-specific acid-base properties of ovothiol A disulfide (OvSSOv), the smallest hexabasic multifunctional biomolecule with complex interdependent moieties, were studied with (1)H NMR-pH and potentiometric titrations. The unprecedented complexity of the protonation microequilibria could be overcome by taking into account the mirror-image molecular symmetry, synthesizing and studying auxiliary model compounds and developing a custom-tailored evaluation method. The amino, imidazole, and carboxylate moieties are quantified in terms of 192 microscopic protonation constants and 64 microspecies, 96 and 36 of which are chemically different ones, respectively.

The species- and site-specific acid-base properties of biological thiols and their homodisulfides.

Cysteamine, cysteine, homocysteine, their homodisulfides and 9 related compounds were studied by ¹H NMR-pH titrations and case-tailored evaluation methods. The resulting acid-base properties are quantified in terms of 33 macroscopic and 62 microscopic protonation constants and the concomitant 16 interactivity parameters, providing thus the first complete microspeciation of this vitally important family of biomolecules. The species- and site-specific basicities are interpreted by means of inductive and hydrogen-bonding effects through various intra- and intermolecular comparisons.