5′-Substituted Thalidomide Analogs as Modulators of TNF-α

Teubert, Uwe; Zwingenberger, K.; Wnendt, Stephan; Eger, Kurt

doi:10.1002/(sici)1521-4184(199801)331:1<7::aid-ardp7>3.0.co;2-n

Cited by 21 publications

(16 citation statements)

References 18 publications

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“…Interestingly, cis-5Ј-acetoxythalidomide was reported to be more crystallizable than trans-5Ј-acetoxythalidomide. 14) Therefore, the crystallizability may depend on the nature of the 5Ј-hydroxyl substituent. Finally, removal of the TBDMS group of 21 with tetra-nbutylammonium fluoride (TBAF) at 0°C gave the desired cis-5Ј-OH-Thal (cis-2f) stereoselectively.…”

Section: Chemistrymentioning

confidence: 99%

“…Hydroxylation is reported to occur mainly at the 5-position in the phthaloyl moiety and the 5Ј-position in the glutarimide moiety, 10) although the 4-position of the phthaloyl moiety and the nitrogen atom of the imide ring can also be hydroxylated (Fig. 1).10) 5-OH-Thal (2a), N-OH-Thal (2c) [11][12][13] and cis-5Ј-OHThal (cis-2f) [14][15][16] have been well-characterized and their methods of preparation have been reported in detail. For 4-OH-Thal (2b), trans-5Ј-OH-Thal (trans-2f), and the dihydroxylated metabolites, 5,N-di-OH-Thal (2d), 4,N-di-OHThal (2e), and 5,5Ј-di-OH-Thal (2g), neither spectroscopic data nor any detailed description of their synthesis is available in the literature, to our knowledge.…”

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confidence: 99%

“…Thalidomide (1) is metabolically labile, and many metabolites have been identified or proposed, [10][11][12][13][14][15][16][17] including seven hydroxylated metabolites, 2a-g (Fig. 1).…”

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Mono- and Dihydroxylated Metabolites of Thalidomide: Synthesis and TNF-.ALPHA. Production-Inhibitory Activity

Nakamura

Noguchi

Kobayashi

et al. 2006

CHEMICAL & PHARMACEUTICAL BULLETIN

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Thalidomide (1) was developed in the 1950's as a nontoxic sedative/hypnotic drug, but was withdrawn from the market in the early 1960's because of its serious teratogenicity. [1][2][3][4][5] However, it was subsequently identified as an effective agent for the treatment of multiple myeloma (MM), AIDS, Hansen's disease, and various cancers. [1][2][3][4][5] The US Food and Drug Administration (FDA) approved it for the treatment of erythema nodosum in Hansen's disease in 1998, and (in combination with dexamethasone) for the treatment of MM in 2006. Official approval for the use of thalidomide (1) to treat MM has also been applied for in Japan. Thalidomide (1) has been discovered to have various biological activities, including inhibition of tumor necrosis factor-a (TNF-a) production, and anti-inflammatory, anti-angiogenic, and cyclooxygenase (COX)-inhibitory activities.1-5) The TNF-a production-inhibitory activity was initially considered to be one of the key mechanisms of thalidomide's actions, [1][2][3][4][5] though the precise molecular mechanism(s) involved remain unclear.Recently, we have reported that thalidomide (1) and/or its two hydroxylated metabolites 5-OH-Thal (2a) and N-OHThal (2c) show cell differentiation-enhancing, anti-angiogenic and tubulin polymerization-inhibitory activities. [6][7][8][9] Concerning the former two activities, thalidomide (1), 5-OHThal (2a) and N-OH-Thal (2c) all exhibit comparable activity.7-9) However, tubulin polymerization-inhibitory activity was observed only for the hydroxylated metabolites (2a, 2c), and thalidomide (1) lacks this activity.6) These results prompted us to investigate comprehensively the biological activities of hydroxylated metabolites of thalidomide.Thalidomide (1) is metabolically labile, and many metabolites have been identified or proposed, [10][11][12][13][14][15][16][17] including seven hydroxylated metabolites, 2a-g (Fig. 1). Hydroxylation is reported to occur mainly at the 5-position in the phthaloyl moiety and the 5Ј-position in the glutarimide moiety, 10) although the 4-position of the phthaloyl moiety and the nitrogen atom of the imide ring can also be hydroxylated (Fig. 1).10) 5-OH-Thal (2a), N-OH-Thal (2c) [11][12][13] and cis-5Ј-OHThal (cis-2f) [14][15][16] have been well-characterized and their methods of preparation have been reported in detail. For 4-OH-Thal (2b), trans-5Ј-OH-Thal (trans-2f), and the dihydroxylated metabolites, 5,N-di-OH-Thal (2d), 4,N-di-OHThal (2e), and 5,5Ј-di-OH-Thal (2g), neither spectroscopic data nor any detailed description of their synthesis is available in the literature, to our knowledge. In addition, the reported synthetic method of cis-5Ј-OH-Thal (cis-2f) via free g-hydroxyglutamic acid is unsatisfactory, because some of the intermediates are sticky and intractable, the overall yield is not so high, and the stereochemistry is difficult to control. We therefore sought to establish methods for systematic preparation of all of the proposed metabolites, 2a-g. In this paper, we describe the synthesis of the mono-and...

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Section: Chemistrymentioning

confidence: 99%

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Mono- and Dihydroxylated Metabolites of Thalidomide: Synthesis and TNF-.ALPHA. Production-Inhibitory Activity

Nakamura

Noguchi

Kobayashi

et al. 2006

CHEMICAL & PHARMACEUTICAL BULLETIN

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“…The mixture of diastereomeric 5¢-acetoxy-TD pairs was hydrolyzed as described previously [18]. The compound was heated with p-toluenesulfonic acid in anhydrous methanol to give a mixture of both diastereomers of 5¢-OH-TD, which was confirmed by mass-spectral analysis.…”

Section: Hydrolysis Of Reference Compoundsmentioning

confidence: 99%

Investigation of the stereoselectivein vitro biotransformation of thalidomide using a dual cyclodextrin system in capillary electrophoresis

2000

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A previously developed capillary electrophoresis method for the simultaneous separation and enantioseparation of thalidomide (TD) and its hydroxylated metabolites was extended to one additional biotransformation product. The dual chiral selector system using native beta-cyclodextrin (beta-CD) and the negatively charged sulfobutyl ether-beta-CD (SBE-beta-CD) was slightly modified up to a concentration of 12 mg/mL running buffer of each CD. The carrier mode in which these buffer additives transport the neutral compounds to the detector as well as the use of a polyacrylamide-coated capillary were necessary to achieve reproducible enantioseparations of all eight analytes. The optimized method was applied to the analysis of the in vitro biotransformation of TD by rat liver microsomes. The S-enantiomer undergoes metabolism preferentially by hydroxylation in the phthalimide ring, whereas R-(+)-TD is mainly transformed to diastereomeric 5'-hydroxythalidomide (5'-OH-TD) pairs. The chiral capillary electrophoresis of incubation samples of TD enantiomers in combination with X-ray diffraction data allowed us to determine the absolute configuration of all metabolites and furthermore to follow the enantio- and stereoselective effects of metabolism in detail.

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“…Usually, these phthalimide analogs are compounds with different and complex modifications of the phthalimide ring and many of them also contain the glutaramide ring, similarly to thalidomide, the best known phthalimide analog (Chaulet et al, 2011;de Almeida et al, 2007;Mazzoccoli et al, 2012;Miyachi et al, 1997aMiyachi et al, , 1997bStewart et al, 2007Stewart et al, , 2010Teubert et al,1998).…”

Section: Introductionmentioning

confidence: 99%

Activities of 2-phthalimidethyl nitrate and 2-phthalimidethanol in the models of nociceptive response and edema induced by formaldehyde in mice and preliminary investigation of the underlying mechanisms

Godin

Araújo

César

et al. 2015

European Journal of Pharmacology

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5′-Substituted Thalidomide Analogs as Modulators of TNF-α

Cited by 21 publications

References 18 publications

Mono- and Dihydroxylated Metabolites of Thalidomide: Synthesis and TNF-.ALPHA. Production-Inhibitory Activity

Mono- and Dihydroxylated Metabolites of Thalidomide: Synthesis and TNF-.ALPHA. Production-Inhibitory Activity

Investigation of the stereoselectivein vitro biotransformation of thalidomide using a dual cyclodextrin system in capillary electrophoresis

Activities of 2-phthalimidethyl nitrate and 2-phthalimidethanol in the models of nociceptive response and edema induced by formaldehyde in mice and preliminary investigation of the underlying mechanisms

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