Abstract
Three 1,4,7,10-tetraazacyclododecane-based ligands disubstituted in 1,4-positions with phosphonic acid, phosphonate monoethyl-ester, and H-phosphinic acid pendant arms, 1,4-H4do2p, 1,4-H2do2pOEt, and 1,4-H2Bn2do2pH, were synthesized and their coordination to selected metal ions, Mg(II), Ca(II), Mn(II), Zn(II), Cu(II), Eu(III), Gd(III), and Tb(III), was investigated. The solid-state structure of the phosphonate ligand, 1,4-H4do2p, was determined by single-crystal X-ray diffraction. Protonation constants of the ligands and stability constants of their complexes were obtained by potentiometry, and their values are comparable to those of previously studied analogous 1,7-disubstitued cyclen derivatives. The Gd(III) complex of 1,4-H4do2p is ~1 order of magnitude more stable than the Gd(III) complex of the 1,7-analogue, probably due to the disubstituted ethylenediamine-like structural motif in 1,4-H4do2p enabling more efficient wrapping of the metal ion. Stability of Gd(III)–1,4-H2do2pOEt and Gd(III)–H2Bn2do2pH complexes is low and the constants cannot be determined due to precipitation of the metal hydroxide. Protonations of the Cu(II), Zn(II), and Gd(III) complexes probably takes place on the coordinated phosphonate groups. Complexes of Mn(II) and alkali-earth metal ions are significantly less stable and are not formed in acidic solutions. Potential presence of water molecule(s) in the coordination spheres of the Mn(II) and Ln(III) complexes was studied by variable-temperature NMR experiments. The Mn(II) complexes of the ligands are not hydrated. The Gd(III)–1,4-H4do2p complex undergoes hydration equilibrium between mono- and bis-hydrated species. Presence of two-species equilibrium was confirmed by UV-Vis spectroscopy of the Eu(III)–1,4-H4do2p complex and hydration states were also determined by luminescence measurements of the Eu(III)/Tb(III)–1,4-H4do2p complexes.
Highlights
Stable metal chelates belong to a group of intensively studied compounds due to their various applications
Importance of the research has been proven, e.g., by nearly four decades of development of magnetic resonance imaging (MRI) where such paramagnetic complexes are used as contrast agents (CAs)
Due to a toxicity of the metal ions, the ions have to be bound in stable complexes which should contain at least one water molecule coordinated directly to the metal ion Molecules 2019, 24, 3324; doi:10.3390/molecules24183324
Summary
Stable metal chelates belong to a group of intensively studied compounds due to their various applications. Molecules 2019, 24, 3324 directly to the metal ion centre This metal-bound water molecule is responsible for relaxation enhancement of the 1H MRI signal due to its exchange with the bulk water which is observed by MRI centre. CAs utilized in clinical practice tillsystemic havefibrosis been based on Gd(III). Their safety was was Almost challenged after observation of nephrogenic (NSF). Crucial point in the area of the Mn(II)-based CAs. Other of utilization of metal chelates with polydentate ligands is nuclearismedicine. Other important importantfield field of utilization of metal chelates with polydentate ligands nuclear where metal radionuclides are used. 1,4-positionsasasdata data family of ligands are almost in the literature Both acetate derivatives (1,4- and 1,7-bis(carboxymethyl) cyclen derivatives, 1,7-H.
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