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Kedarcidin
Kedarcidin is a chromoprotein antitumor antibiotic first isolated from an Actinomycete in 1992, comprising an ansa-bridged enediyne chromophore (shown) as well as an apoprotein that serves to stabilize the toxin in the Actinomycete. Like other members of the enediyne class of drugs - so named for the nine-or-ten-membered core structure bearing an alkene directly attached to two alkynyl appendages—kedarcidin was likely evolved to kill bacteria that compete with the producing organism. Because it achieves this by causing DNA damage, however, kedarcidin is capable of harming tumor cells, as well. Kedarcidin is thus the subject of scientific research, both for its structural complexity as well as its anticancer properties.
==Discovery and structure elucidation==
Kedarcidin was first discovered in 1992 when bioassays conducted at Bristol-Myers Squibb indicated the presence of a DNA-damaging chromoprotein in the fermentation broth of a Actinomycete strain. The involvement of a non-peptidic chromophore was deduced by UV spectroscopy, and reverse-phase chromatography was used to separate this noncovalently bound chromophore from its apoprotein host. This isolate—kedarcidin chromophore—decomposed readily under ambient conditions and was shown to possess cytotoxicity (IC50 0.4 ng/mL, HCT-116 human colorectal carcinoma cell line).〔
Subsequent NMR, mass spectrometry, chemical degradation, and derivatization experiments enabled the isolation team to identify the key structural features of kedarcidin chromophore, including the enediyne bicyclic core, the ansa-bridging chloropyridyl ring, the mycarose and kedarosamine sugars, and the naphthoamide appendage. However, due to the challenges posed by the complex structure, the initial report had several errors. The bicyclic core proved particularly difficult to deconvolute, as the interpretation of NOE correlations led the researchers to misassign the relative stereochemistry of the core stereotetrad. Moreover, as global absolute chemistry was assigned on the basis of NOE correlations between the stereodefined L-mycarose sugar and the aglycone, the errors of the stereotetrad propagated to the other two stereocenters of the aglycone. Connectivity of the naphthoamide group to the ansa bridge was also misjudged in the initial report.
These errors were later corrected by the independent synthetic efforts of researchers at Tohoku University and Harvard University. In 1997, en route to the originally reported structure, researchers under the direction of Masahiro Hirama discovered that the spectroscopic data of the proposed chloroazatyrosyl (''S'')-α-amino acid derivative were not consistent with those of the degradation product characterized by Leet ''et al''. Instead, an (''R'')-β-amino acid derivative was proposed and validated by the Hirama group. This revision led Hirama ''et al''. to invert the other aglycone stereocenters as well, affording a revised structure of kedarcidin chromophore that differed only in the relative stereochemistry of the mycarose-bearing carbon, C10.〔 Finally, in 2007, Myers and co-workers synthesized the structure proposed by Hirama ''et al''.; the corresponding NMR spectroscopic data were distinct from that of the natural product, leading the Myers group to revise the stereochemistry of the mycarose-bearing carbon to 10-(''S'').〔
抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』
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