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Nonlinear Pharmacokinetics of ({+/-})3,4-Methylenedioxymethamphetamine (MDMA) and Its Pharmacodynamic Consequences in the Rat [Articles] (2013)

Concheiro, M., Baumann, M. H., Scheidweiler, K. B., Rothman, R. B., Marrone, G. F., Huestis, M. A.

The American Society for Pharmacology and Experimental Therapeutics (ASPET)

In: Drug Metabolism and Disposition

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Publication Date: 2013-12-14

Description: 3,4-Methylenedioxymethamphetamine (MDMA) is a widely abused illicit drug that can cause severe and even fatal adverse effects. However, interest remains for its possible clinical applications in posttraumatic stress disorder and anxiety treatment. Preclinical studies to determine MDMA’s safety are needed. We evaluated MDMA’s pharmacokinetics and metabolism in male rats receiving 2.5, 5, and 10 mg/kg s.c. MDMA, and the associated pharmacodynamic consequences. Blood was collected via jugular catheter at 0, 0.5, 1, 2, 4, 6, 8, 16, and 24 hours, with simultaneous serotonin (5-HT) behavioral syndrome and core temperature monitoring. Plasma specimens were analyzed for MDMA and the metabolites (±)-3,4-dihydroxymethamphetamine (HHMA), (±)-4-hydroxy-3-methoxymethamphetamine (HMMA), and (±)-3,4-methylenedioxyamphetamine (MDA) by liquid chromatography–tandem mass spectrometry. After 2.5 mg/kg MDMA, mean MDMA C max was 164 ± 47.1 ng/ml, HHMA and HMMA were major metabolites, and 〈20% of MDMA was metabolized to MDA. After 5- and 10-mg/kg doses, MDMA areas under the curve (AUCs) were 3- and 10-fold greater than those after 2.5 mg/kg; HHMA and HMMA AUC values were relatively constant across doses; and MDA AUC values were greater than dose-proportional. Our data provide decisive in vivo evidence that MDMA and MDA display nonlinear accumulation via metabolic autoinhibition in the rat. Importantly, 5-HT syndrome severity correlated with MDMA concentrations ( r = 0.8083; P 〈 0.0001) and core temperature correlated with MDA concentrations ( r = 0.7595; P 〈 0.0001), suggesting that MDMA’s behavioral and hyperthermic effects may involve distinct mechanisms. Given key similarities between MDMA pharmacokinetics in rats and humans, data from rats can be useful when provided at clinically relevant doses.

Print ISSN: 0090-9556

Electronic ISSN: 1521-009X

Topics: Chemistry and Pharmacology , Medicine

Published by The American Society for Pharmacology and Experimental Therapeutics (ASPET)

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Amorfrutins are potent antidiabetic dietary natural products [Applied Biological Sciences] (2012)

Weidner, C., de Groot, J. C., Prasad, A., Freiwald, A., Quedenau, C., Kliem, M., Witzke, A., Kodel&jnodot;a, V., Han, C.–T., Giegold, S., Baumann, M., Klebl, B., Siems, K., Muller–Kuhrt, L., Schurmann, A., Schuler, R., Pfeiffer, A. F. H., Schroeder, F. C., Bussow, K., Sauer, S.

National Academy of Sciences

In: PNAS - Proceedings of the National Academy of Sciences

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Publication Date: 2012-05-09

Description: Given worldwide increases in the incidence of obesity and type 2 diabetes, new strategies for preventing and treating metabolic diseases are needed. The nuclear receptor PPARγ (peroxisome proliferator-activated receptor gamma) plays a central role in lipid and glucose metabolism; however, current PPARγ-targeting drugs are characterized by undesirable side effects. Natural products from edible biomaterial provide a structurally diverse resource to alleviate complex disorders via tailored nutritional intervention. We identified a family of natural products, the amorfrutins, from edible parts of two legumes, Glycyrrhiza foetida and Amorpha fruticosa, as structurally new and powerful antidiabetics with unprecedented effects for a dietary molecule. Amorfrutins bind to and activate PPARγ, which results in selective gene expression and physiological profiles markedly different from activation by current synthetic PPARγ drugs. In diet-induced obese and db/db mice, amorfrutin treatment strongly improves insulin resistance and other metabolic and inflammatory parameters without concomitant increase of fat storage or other unwanted side effects such as hepatoxicity. These results show that selective PPARγ-activation by diet-derived ligands may constitute a promising approach to combat metabolic disease.

Print ISSN: 0027-8424

Electronic ISSN: 1091-6490

Topics: Biology , Medicine , Natural Sciences in General

Published by National Academy of Sciences

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A{beta} oligomer recognition with an antibody fragment [Biochemistry] (2012)

Morgado, I., Wieligmann, K., Bereza, M., Ronicke, R., Meinhardt, K., Annamalai, K., Baumann, M., Wacker, J., Hortschansky, P., Malesevic, M., Parthier, C., Mawrin, C., Schiene–Fischer, C., Reymann, K. G., Stubbs, M. T., Balbach, J., Gorlach, M., Horn, U., Fandrich, M.

National Academy of Sciences

In: PNAS - Proceedings of the National Academy of Sciences

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Publication Date: 2012-08-01

Description: Oligomers are intermediates of the β-amyloid (Aβ) peptide fibrillogenic pathway and are putative pathogenic culprits in Alzheimer’s disease (AD). Here we report the biotechnological generation and biochemical characterization of an oligomer-specific antibody fragment, KW1. KW1 not only discriminates between oligomers and other Aβ conformations, such as fibrils or disaggregated peptide; it also differentiates between different types of Aβ oligomers, such as those formed by Aβ (1–40) and Aβ (1–42) peptide. This high selectivity of binding contrasts sharply with many other conformational antibodies that interact with a large number of structurally analogous but sequentially different antigens. X-ray crystallography, NMR spectroscopy, and peptide array measurements imply that KW1 recognizes oligomers through a hydrophobic and significantly aromatic surface motif that includes Aβ residues 18–20. KW1-positive oligomers occur in human AD brain samples and induce synaptic dysfunctions in living brain tissues. Bivalent KW1 potently neutralizes this effect and interferes with Aβ assembly. By altering a specific step of the fibrillogenic cascade, it prevents the formation of mature Aβ fibrils and induces the accumulation of nonfibrillar aggregates. Our data illuminate significant mechanistic differences in oligomeric and fibril recognition and suggest the considerable potential of KW1 in future studies to detect or inhibit specific types of Aβ conformers.

Print ISSN: 0027-8424

Electronic ISSN: 1091-6490

Topics: Biology , Medicine , Natural Sciences in General

Published by National Academy of Sciences

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Binding Mode Selection Determines the Action of Ecstasy Homologs at Monoamine Transporters [Articles] (2015)

Sandtner, W., Stockner, T., Hasenhuetl, P. S., Partilla, J. S., Seddik, A., Zhang, Y.-W., Cao, J., Holy, M., Steinkellner, T., Rudnick, G., Baumann, M. H., Ecker, G. F., Newman, A. H., Sitte, H. H.

The American Society for Pharmacology and Experimental Therapeutics (ASPET)

In: Molecular Pharmacology

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Publication Date: 2015-12-16

Description: Determining the structural elements that define substrates and inhibitors at the monoamine transporters is critical to elucidating the mechanisms underlying these disparate functions. In this study, we addressed this question directly by generating a series of N -substituted 3,4-methylenedioxyamphetamine analogs that differ only in the number of methyl substituents on the terminal amine group. Starting with 3,4-methylenedioxy- N -methylamphetamine, 3,4-methylenedioxy- N , N -dimethylamphetamine (MDDMA) and 3,4-methylenedioxy- N , N , N -trimethylamphetamine (MDTMA) were prepared. We evaluated the functional activities of the compounds at all three monoamine transporters in native brain tissue and cells expressing the transporters. In addition, we used ligand docking to generate models of the respective protein-ligand complexes, which allowed us to relate the experimental findings to available structural information. Our results suggest that the 3,4-methylenedioxyamphetamine analogs bind at the monoamine transporter orthosteric binding site by adopting one of two mutually exclusive binding modes. 3,4-methylenedioxyamphetamine and 3,4-methylenedioxy- N -methylamphetamine adopt a high-affinity binding mode consistent with a transportable substrate, whereas MDDMA and MDTMA adopt a low-affinity binding mode consistent with an inhibitor, in which the ligand orientation is inverted. Importantly, MDDMA can alternate between both binding modes, whereas MDTMA exclusively binds to the low-affinity mode. Our experimental results are consistent with the idea that the initial orientation of bound ligands is critical for subsequent interactions that lead to transporter conformational changes and substrate translocation.

Print ISSN: 0026-895X

Electronic ISSN: 1521-0111

Topics: Chemistry and Pharmacology , Medicine

Published by The American Society for Pharmacology and Experimental Therapeutics (ASPET)

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