Synthesis and electrochemical study of a new chiral tris-catecholamide analogue of enterobactin.

The comparison of siderophore complex redox potentials with those of physiological reductants may aid in the clarification of the mechanism of iron metabolism. In this paper, a new chiral tris-catecholamide compound N,N',N''-tris-(2,3-dihydroxybenzoyl)-1,1,1-tris-(L-methioninemethyl++ +)-ethane or H6L (11) has been synthesised in nine steps, and may mimic the release of iron from enterobactin to the agents which are directly involved in cell metabolism. The choice of methionine as a constituent of the siderophore incorporates divalent sulphur which leads to the increase of the reduction potential of the siderophore, and consequently facilitates the iron release [Fe(III)/Fe(II) redox potential E(1/2)=-0.749 V vs (SCE)].