Kynurenines

Fig. 10. Stmcture of daptomycin where L-Kyn is L-kynurenine and (h-threo) 3-MeGlu is L-// fi (9-3-methylglutamic acid.

Appllca.tlons. Various A/-derivatives of amino acids (qv) are resolvable on BSA columns. These /V-amino acid derivatives include ben2enesulfonyl-, phthalimido-, S-dimethylarnino-l-naphthalenesulfonyl- (DANSYL-), 2,4-dinitrophenyl- (DNP-), and 2,3,6-trinitrophenyl- (TNP-) derivatives (30). Amines such as Prilocain, ( )-2-(prop5lamino)-(9-propiono-toluidide, a local anesthetic (Astra Pharm. Co.), are also resolved on BSA. The aromatic amino acids DL-tryptophan, 5-hydroxy-DL-tryptophan, DL-kynurenine [343-65-7] C qH 2N 2 3 3-hydroxy-DT.-kynurenine [484-78-6] and dmgs... 

Tryptophan is a precursor for a series of metabolic reactions. Two tryptophan catabolizing pathways are well characterized (i) tryptophan converts to serotonin (ii) tryptophan is also converted to kynurenine. 

Our attention is focus on the biochemical defects of kynurenine pathway. The concentration of metabolites changes under various diseases, such as neurodegenerative disease, memory loss, chronical renal failure, eyes disease. 

The kynurenine pathway metabolites are kynurenine, kynurenic acid, xahthurenic acid, 3-hydroxykynurenine, anthranilic acid and quinolinic acid. The more important are kynurenine (Kyn) and 3-hydroxykynurenine (30HKyn) (Fig 1). 

Fig.l. The more important metabolites of tryptorhan Degradation of the tryptophan accompanied with increasing in 10 times of kynurenine level in the case of renal failure. As the result of 3-hydroxy-kynurenine s ability of easy oxidize neurotoxin compounds form. 

Kynurenine Pyrophosphate 3- and 5-Hydroxy -1- kynurenic and xanthurenic acid 119... 

Recently, two examples of the separation of enantiomers using CCC have been published (Fig. 1-2). The complete enantiomeric separation of commercial d,l-kynurenine (2) with bovine serum albumin (BSA) as a chiral selector in an aqueous-aqueous polymer phase system was achieved within 3.5 h [128]. Moreover, the chiral resolution of 100 mg of an estrogen receptor partial agonist (7-DMO, 3) was performed using a sulfated (3-cyclodextrin [129, 130], while previous attempts with unsubstituted cyclodextrin were not successful [124]. The same authors described the partial resolution of a glucose-6-phosphatase inhibitor (4) with a Whelk-0 derivative as chiral selector (5) [129]. 

Proteins (BSA or ovomucoid, OVM) have also been successful in the preparative resolution of enantiomers by liquid-liquid extraction, either between aqueous and lipophilic phases [181] or in aqueous two-phase systems (ATPS) [123, 180]. The resolution of d,l-kynurenine [180] and ofloxacin and carvediol [123] were performed using a countercurrent extraction process with eight separatory funnels. The significant number of stages needed for these complete resolutions in the mentioned references and others [123, 180, 189], can be overcome with more efficient techniques. Thus, the resolution of d,l-kynurenine performed by Sellergren et al. in 1988 by extraction experiments was improved with CCC technologies 10 years later [128]. 

The kynurenine pathway accounts for most of the nonprotein tryptophan metabolism in most tissues. Several metabolites produced by this pathway have been shown... 

Kinase Domain Kinase Inhibitors Kinins Kir Channels Knockout Mice Kringle Domains K+-Sparing Diuretics Kv(3 -Subunits Kv-Channels KvLQT 1 -Channels Kynurenine Pathway L-NAME... 

Phenoxazines — The two main types of phenoxazines are the ommochromes and the microbial phenoxazines. The biosynthesis of ommochromes occurs via the kynurenine pathway. The tryptophan amino acid is converted to formylkynurenine and then to kynurenine and 3-hydroxykynurenine. Not all the steps of ommochrome synthesis are completely elucidated yet. Ommatins are dimers and ommins are oligomers of 3-hydroxykynurenine. - The papiliochromes are derived from tyrosine as well as from the tryptophan pathway. The key intermediate in the formation of papiliochromes is N-beta-alanyldopamine (NBAD). Papiliochromes are synthesized in special wing scale cells, before melanins. " "... 

Griffiths, H.R, Lunec, J. and Blake, D.R. (1992). Oxygen radical-induced fluorescence in proteins identification of the fluorescent tryptophan metabolite N formyl kynurenine as a biological index of radical damage. Amino Acids 3, 183-194. 

The analysis of amino acids involves chromatographic issues similar to those encountered in analysis of simple amines. Underivatized amino acids have, with a few exceptions, weak UV absorbance and a strong tendency to interact with stationary phases in undesirable ways. Underivatized amino acids are normally separated with ion exchange chromatography, then visualized post-column by reaction with ninhydrin, o-phthaladehyde (OPA), or other agents. Underivatized tryptophan and the metabolites kynurenine, 3-hydroxykynurenine, kynurenic acid, and 3-hydroxyanthranilic acid, were separated on a Partisphere 5-p ODS column with fluorescent detection.121... 

Herve, C., Beyne, P., Jamault, H., and Delacoux, E., Determination of tryptophan and its kynurenine pathway metabolites in human serum by high-performance liquid chromatography with simultaneous ultraviolet and fluo-rimetric detection, ]. Chromatogr. B, 675, 157, 1996. 

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