Ivan Lukeš scite author profile

Magnetic resonance imaging is a commonly used diagnostic method in medicinal practice as well as in biological and preclinical research. Contrast agents (CAs), which are often applied are mostly based on Gd(III) complexes. In this paper, the ligand types and structures of their complexes on one side and a set of the physico-chemical parameters governing properties of the CAs on the other side are discussed. The solid-state structures of lanthanide(III) complexes of open-chain and macrocyclic ligands and their structural features are compared. Examples of tuning of ligand structures to alter the relaxometric properties of gadolinium(III) complexes as a number of coordinated water molecules, their residence time (exchange rate) or reorientation time of the complexes are given. Influence of the structural changes of the ligands on thermodynamic stability and kinetic inertness/lability of their lanthanide(III) complexes is discussed.

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Lanthanide(III) Complexes of a Mono(methylphosphonate) Analogue of H₄dota: The Influence of Protonation of the Phosphonate Moiety on the TSAP/SAP Isomer Ratio and the Water Exchange Rate

Rudovský

Cígler

Kotek

et al. 2005

Chemistry A European J

116

175

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A monophosphonate analogue of H4dota, 1,4,7,10-tetraazacyclododecane-4,7,10-tris(carboxymethyl)-1-methylphosphonic acid (H5do3aP), and its complexes with lanthanides were synthesized. Multinuclear NMR studies reveal that, in aqueous solution, lanthanide(III) complexes of the ligand exhibit structures analogous to those of H4dota complexes. Thus, the central ion is nine-coordinate, surrounded by four nitrogen atoms, three acetate and one phosphonate oxygen atoms, and one water molecule in an apical position. For complexes of H5do3aP with Ln(III) ions in the middle of the series, the abundance of the desired twisted square-antiprismatic (TSAP) isomer is higher than for the corresponding H4dota complexes. The TSAP/square-antiprismatic (SAP) isomer ratio is highly sensitive to protonation of the phosphonate group: a higher abundance of the TSAP isomer was found in acidic solutions. The microscopic protonation constants of the TSAP isomers are higher than those of the SAP isomers. The presence of one water molecule in the first coordination sphere of the complexes in the pH region studied (pH 2.5-7.0) is confirmed by 17O NMR spectroscopy. The results of a simultaneous fit of variable-temperature 17O NMR relaxation data and 1H NMRD profiles show that the residence time of water (tauM) in the Gd(III) complex is much smaller than for [Gd(dota)(H2O)]-. The exchange rate appears to be dependent on the pH of the solution. The values of tauM are 37, 40, and 14 ns at pH 2.5, 4.7, and 7.0, respectively. These observations can be explained by an extensive second-sphere hydrogen-bonding network that varies with the state of protonation of the phosphonate moiety. Upon protonation of the complex, the second-sphere hydration probably becomes more ordered, which may result in a decrease in penetrability and an increase in tauM. The relaxivity of the Gd(III) complex is almost independent of the pH and is equal to 4.7 s(-1) mM(-1) (20 MHz, pH 7 and 37 degrees C). The solid-state structure was determined for the Nd(III) complex. It crystallizes as the TSAP isomer and the unit cell contains two independent molecules of the complex with different Nd-O(water) bond lengths of 2.499 and 2.591 A.

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Complexes of tetraazacycles bearing methylphosphinic/phosphonic acid pendant arms with copper(II), zinc(II) and lanthanides(III). A comparison with their acetic acid analogues

Lukeš

Kotek

Vojtı́šek

et al. 2001

Coordination Chemistry Reviews

243

176

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A Triazacyclononane‐Based Bifunctional Phosphinate Ligand for the Preparation of Multimeric ⁶⁸Ga Tracers for Positron Emission Tomography

Notni¹,

Hermann²,

Havlíčková³

et al. 2010

Chemistry A European J

146

165

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For application in positron emission tomography (PET), PrP9, a N,N',N''-trisubstituted triazacyclononane with methyl(2-carboxyethyl)phosphinic acid pendant arms, was developed as (68)Ga(3+) complexing agent. The synthesis is short and inexpensive. Ga(III) and Fe(III) complexes of PrP9 were characterized by single-crystal X-ray diffraction. Stepwise protonation constants and thermodynamic stabilities of metal complexes were determined by potentiometry. The Ga(III) complex possesses a high thermodynamic stability (log K([GaL])=26.24) and a high degree of kinetic inertness. (68)Ga labeling of PrP9 is possible at ambient temperature and in a wide pH range, also at pH values as low as 1. This means that for the first time, the neat eluate of a TiO(2)-based (68)Ge/(68)Ga generator (typically consisting of 0.1 M HCl) can be directly used for labeling purposes. The rate of (68)Ga activity incorporation at pH 3.3 and 20 degrees C is higher than for the established chelators DOTA and NOTA. Tris-amides of PrP9 with amino acid esters were synthesized to act as models for multimeric peptide conjugates. These conjugates exhibit radiolabeling properties similar to those of unsubstituted PrP9.

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Mn²⁺Complexes with Pyridine-Containing 15-Membered Macrocycles: Thermodynamic, Kinetic, Crystallographic, and¹H/¹⁷O Relaxation Studies

Drahoš¹,

Kotek²,

Hermann³

et al. 2010

Inorg. Chem.

117

152

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Given its five unpaired d-electrons, long electronic relaxation time, and fast water exchange, Mn(2+) is a potential candidate for contrast agent application in medical magnetic resonance imaging. Nevertheless, the design of chelators that ensure stable Mn(2+) complexation and optimal relaxation properties remains a coordination chemistry challenge. Here, we report the synthesis of two pyridine-containing ligands L1 and L2, with 15-membered triaza-dioxa-crown and pentaaza-crown ether macrocycles, respectively, and the characterization of their Mn(2+) complexes. Protonation constants of the ligands and stability constants of various metal complexes were determined by potentiometry. The presence of the pyridine in the macrocyclic ring induces rigidity of the complexes which results in a greater thermodynamic stability with respect to the nonpyridine analogues. Solid-state structures of MnL1 and MnL2 confirmed seven-coordination of Mn(2+) with Cl(-) and H(2)O in axial positions. The dissociation kinetics of MnL2 in the presence of Zn(2+) were followed by relaxometric measurements. They proved the prime importance of the proton-assisted dissociation while the zinc(II)-assisted pathway is not important at physiological pH. For MnL1, the dissociation was too fast to be studied by conventional relaxivity measurements under pH 6. A combined (17)O NMR and (1)H NMRD study on MnL1 and MnL2 yielded the parameters that govern the relaxivity of these complexes. The water exchange rate for MnL1, k(ex)(298) = 0.38 x 10(7) s(-1), is the lowest value ever reported for a Mn(2+) complex, while a considerably higher value was obtained for MnL2 (k(ex)(298) = 6.9 x 10(7) s(-1)). Anion binding was studied by relaxometric titrations. They revealed weak interactions between MnL2 and phosphate or citrate, leading to the formation of monohydrated species. Overall, the incorporation of a pyridine into a polyaza macrocycle scaffold has several beneficial effects on the Mn(2+) chelates with respect to potential MRI contrast agent applications: (i) The thermodynamic and the kinetic stability of the complexes is increased. (ii) The rigidified ligand backbone results in higher coordination numbers of the metal ion, allowing for two inner-sphere water molecules in aqueous solution.

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Ivan Lukeš

Gadolinium(iii) complexes as MRI contrast agents: ligand design and properties of the complexes

Lanthanide(III) Complexes of a Mono(methylphosphonate) Analogue of H₄dota: The Influence of Protonation of the Phosphonate Moiety on the TSAP/SAP Isomer Ratio and the Water Exchange Rate

Complexes of tetraazacycles bearing methylphosphinic/phosphonic acid pendant arms with copper(II), zinc(II) and lanthanides(III). A comparison with their acetic acid analogues

A Triazacyclononane‐Based Bifunctional Phosphinate Ligand for the Preparation of Multimeric ⁶⁸Ga Tracers for Positron Emission Tomography

Mn²⁺Complexes with Pyridine-Containing 15-Membered Macrocycles: Thermodynamic, Kinetic, Crystallographic, and¹H/¹⁷O Relaxation Studies

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Ivan Lukeš

Gadolinium(iii) complexes as MRI contrast agents: ligand design and properties of the complexes

Lanthanide(III) Complexes of a Mono(methylphosphonate) Analogue of H4dota: The Influence of Protonation of the Phosphonate Moiety on the TSAP/SAP Isomer Ratio and the Water Exchange Rate

Complexes of tetraazacycles bearing methylphosphinic/phosphonic acid pendant arms with copper(II), zinc(II) and lanthanides(III). A comparison with their acetic acid analogues

A Triazacyclononane‐Based Bifunctional Phosphinate Ligand for the Preparation of Multimeric 68Ga Tracers for Positron Emission Tomography

Mn2+Complexes with Pyridine-Containing 15-Membered Macrocycles: Thermodynamic, Kinetic, Crystallographic, and1H/17O Relaxation Studies

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Lanthanide(III) Complexes of a Mono(methylphosphonate) Analogue of H₄dota: The Influence of Protonation of the Phosphonate Moiety on the TSAP/SAP Isomer Ratio and the Water Exchange Rate

A Triazacyclononane‐Based Bifunctional Phosphinate Ligand for the Preparation of Multimeric ⁶⁸Ga Tracers for Positron Emission Tomography

Mn²⁺Complexes with Pyridine-Containing 15-Membered Macrocycles: Thermodynamic, Kinetic, Crystallographic, and¹H/¹⁷O Relaxation Studies