Abstract
2-Aminoethyl DOTA analogues with unsubstituted (H3L1), monomethylated (H3L2) and dimethylated (H3L3) amino groups were prepared by improved synthetic procedures. Their solid-state structures exhibit an extensive system of intramolecular hydrogen bonds, which is probably present in solution and leads to the rather high value of the last dissociation constant. The protonation sequence of H3L1 in solution corresponds to that found in the solid state. The stability constants of the H3L1 complexes with La(3+) and Gd(3+) (20.02 and 22.23, respectively) are similar to those of DO3A and the reduction of the pK(A) value of the pendant amino group from 10.51 in the free ligand to 6.06 and 5.83 in the La(3+) and Gd(3+) complexes, respectively, points to coordination of the amino group. It was confirmed in the solid state structure of the [Yb(L1)] complex, where disorder between the SA' and TSA' isomers was found. A similar situation is expected in solution, where a fast equilibration among the isomers hampers the unambiguous determination of the isomer ratio in solution. The PARACEST effect was observed in Eu(III)-H3L1/H3L2 and Yb(III)-H3L1/H3L2 complexes, being dependent on pH in the region of 4.5-7.5 and pH-independent in more alkaline solutions. The decrease of the PARACEST effect parallels with the increasing abundance of the complex protonated species, where the pendant amino group is not coordinating. Surprisingly, a small PARACEST effect was also observed in solutions of Eu(III)/Yb(III)-H3L3 complexes, where the pendant amino group is dimethylated. The effect is detectable in a narrow pH region, where both protonated and deprotonated complex species are present in equilibrium. The data points to the new mechanism of the PARACEST effect, where the slow coordination-decoordination of the pendant amine is coupled with the fast proton exchange between the free amino group and bulk water mediates the magnetization transfer. The pH-dependence of the effect was proved to be measurable by MRI and, thus, the complexes extend the family of pH-sensitive probes.
Highlights
IntroductionADepartment of Inorganic Chemistry, Universita Karlova (Charles University), Fax: +420-22195-1253; Tel: +420-22195-1261 bDepartment of Radiodiagnostic and Interventional Radiology, Magnetic Resonance
ADepartment of Inorganic Chemistry, Universita Karlova (Charles University), Fax: +420-22195-1253; Tel: +420-22195-1261 bDepartment of Radiodiagnostic and Interventional Radiology, Magnetic ResonanceUnit, Institute of Clinical and Experimental Medicine, Vídeňská 1958/9, 140 21 Prague 4, Czech Republic † Electronic supplementary information (ESI) available: Crystal structures of H3L2·6H2O and H3L3·3.5H2O, and selected geometric parameters
Alkylation of t-Bu3DO3A with N-(2-bromoethyl)-phthalimide followed by sequential deprotection by trifluoroacetic acid and hydrazine led, after chromatography on anion exchanger, to zwitterionic H3L1 in 59% overall yield (Scheme 3)
Summary
ADepartment of Inorganic Chemistry, Universita Karlova (Charles University), Fax: +420-22195-1253; Tel: +420-22195-1261 bDepartment of Radiodiagnostic and Interventional Radiology, Magnetic Resonance. Chemical shift dependence of H3L1 on pH, and its protonation scheme. Temperature dependence of the 1H NMR spectra of [Eu(H2O)(L1)] and [Yb(L1)]. Disorder of the [Yb(L1)] molecule found in the solid-state structure of [Yb(L1)]·5H2O, and its selected geometric parameters. Set of Z-spectra of the [Eu(H2O)(L1,2,3)] and [Yb(L1,2,3)] complexes at different temperatures and pH. 1H and 13C{1H}NMR spectra of H3L1, H3L2 and H3L3.
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