Lanthanide(III) Complexes of Novel Mixed Carboxylic-Phosphorus Acid Derivatives of Diethylenetriamine: A Step towards More Efficient MRI Contrast Agents

Three novel phosphorus‐containing analogues of H5DTPA (DTPA = diethylenetriaminepentaacetate) were synthesised (H6L1, H5L2, H5L3). These compounds have a ‐CH2‐P(O)(OH)‐R function (R = OH, Ph, CH2NBn2) attached to the central nitrogen atom of the diethylenetriamine backbone. An NMR study reveals that...

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Veröffentlicht in:	Chemistry : a European journal 2003-12, Vol.9 (23), p.5899-5915
Hauptverfasser:	Kotek, Jan, Lebdušková, Petra, Hermann, Petr, Vander Elst, Luce, Muller, Robert N., Geraldes, Carlos F. G. C., Maschmeyer, Thomas, Lukeš, Ivan, Peters, Joop A.
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Schlagworte:	chelates imaging agents lanthanides NMR spectroscopy phosphinate complexes phosphonate complexes
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creator	Kotek, Jan Lebdušková, Petra Hermann, Petr Vander Elst, Luce Muller, Robert N. Geraldes, Carlos F. G. C. Maschmeyer, Thomas Lukeš, Ivan Peters, Joop A.
description	Three novel phosphorus‐containing analogues of H5DTPA (DTPA = diethylenetriaminepentaacetate) were synthesised (H6L1, H5L2, H5L3). These compounds have a ‐CH2‐P(O)(OH)‐R function (R = OH, Ph, CH2NBn2) attached to the central nitrogen atom of the diethylenetriamine backbone. An NMR study reveals that these ligands bind to lanthanide(III) ions in an octadentate fashion through the three nitrogen atoms, a PO oxygen atom and four carboxylate oxygen atoms. The complexed ligand occurs in several enantiomeric forms due to the chirality of the central nitrogen atom and the phosphorus atom upon coordination. All lanthanide complexes studied have one coordinated water molecule. The residence times (τ${{298\hfill \atop {\rm M}\hfill}}$) of the coordinated water molecules in the gadolinium(III) complexes of H6L1 and H5L2 are 88 and 92 ns, respectively, which are close to the optimum. This is particularly important upon covalent and noncovalent attachment of these Gd3+ chelates to polymers. The relaxivity of the complexes studied is further enhanced by the presence of at least two water molecules in the second coordination sphere of the Gd3+ ion, which are probably bound to the phosphonate/phosphinate moiety by hydrogen bonds. The complex [Gd(L3)(H2O)]2− shows strong binding ability to HSA, and the adduct has a relaxivity comparable to MS‐325 (40 s−1 mM−1 at 40 MHz, 37 °C) even though it has a less favourable τM value (685 ns). Transmetallation experiments with Zn2+ indicate that the complexes have a kinetic stability that is comparable to—or better than—those of [Gd(dtpa)(H2O)]2− and [Gd(dtpa‐bma)(H2O)]. Gadolinium(III) complexes of novel mixed carboxylic‐phosphorous acid derivatives of diethylenetriamine have been synthesised. The gadolinium(III) complexes of the phosphorous‐containing analogues of H5DTPA (H6L1, H5L2, H5L3) have one water in the first coordination sphere of Gd3+ (see above). Its residence time for [Gd(L1)(H2O)]3− and [Gd(L2)(H2O)]2− is close to optimal for high relaxivity, which is the parameter that determines the contrast of MRI images. The relaxivity is further enhanced by the presence of at least two water molecules in the second coordination sphere of Gd3+. The complex [Gd(L3)(H2O)]2− binds strongly to human serum albumin.
doi_str_mv	10.1002/chem.200305155
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G. C. ; Maschmeyer, Thomas ; Lukeš, Ivan ; Peters, Joop A.</creator><creatorcontrib>Kotek, Jan ; Lebdušková, Petra ; Hermann, Petr ; Vander Elst, Luce ; Muller, Robert N. ; Geraldes, Carlos F. G. C. ; Maschmeyer, Thomas ; Lukeš, Ivan ; Peters, Joop A.</creatorcontrib><description>Three novel phosphorus‐containing analogues of H5DTPA (DTPA = diethylenetriaminepentaacetate) were synthesised (H6L1, H5L2, H5L3). These compounds have a ‐CH2‐P(O)(OH)‐R function (R = OH, Ph, CH2NBn2) attached to the central nitrogen atom of the diethylenetriamine backbone. An NMR study reveals that these ligands bind to lanthanide(III) ions in an octadentate fashion through the three nitrogen atoms, a PO oxygen atom and four carboxylate oxygen atoms. The complexed ligand occurs in several enantiomeric forms due to the chirality of the central nitrogen atom and the phosphorus atom upon coordination. All lanthanide complexes studied have one coordinated water molecule. The residence times (τ${{298\hfill \atop {\rm M}\hfill}}$) of the coordinated water molecules in the gadolinium(III) complexes of H6L1 and H5L2 are 88 and 92 ns, respectively, which are close to the optimum. This is particularly important upon covalent and noncovalent attachment of these Gd3+ chelates to polymers. The relaxivity of the complexes studied is further enhanced by the presence of at least two water molecules in the second coordination sphere of the Gd3+ ion, which are probably bound to the phosphonate/phosphinate moiety by hydrogen bonds. The complex [Gd(L3)(H2O)]2− shows strong binding ability to HSA, and the adduct has a relaxivity comparable to MS‐325 (40 s−1 mM−1 at 40 MHz, 37 °C) even though it has a less favourable τM value (685 ns). Transmetallation experiments with Zn2+ indicate that the complexes have a kinetic stability that is comparable to—or better than—those of [Gd(dtpa)(H2O)]2− and [Gd(dtpa‐bma)(H2O)]. Gadolinium(III) complexes of novel mixed carboxylic‐phosphorous acid derivatives of diethylenetriamine have been synthesised. The gadolinium(III) complexes of the phosphorous‐containing analogues of H5DTPA (H6L1, H5L2, H5L3) have one water in the first coordination sphere of Gd3+ (see above). Its residence time for [Gd(L1)(H2O)]3− and [Gd(L2)(H2O)]2− is close to optimal for high relaxivity, which is the parameter that determines the contrast of MRI images. The relaxivity is further enhanced by the presence of at least two water molecules in the second coordination sphere of Gd3+. 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G. C.</creatorcontrib><creatorcontrib>Maschmeyer, Thomas</creatorcontrib><creatorcontrib>Lukeš, Ivan</creatorcontrib><creatorcontrib>Peters, Joop A.</creatorcontrib><title>Lanthanide(III) Complexes of Novel Mixed Carboxylic-Phosphorus Acid Derivatives of Diethylenetriamine: A Step towards More Efficient MRI Contrast Agents</title><title>Chemistry : a European journal</title><addtitle>Chemistry - A European Journal</addtitle><description>Three novel phosphorus‐containing analogues of H5DTPA (DTPA = diethylenetriaminepentaacetate) were synthesised (H6L1, H5L2, H5L3). These compounds have a ‐CH2‐P(O)(OH)‐R function (R = OH, Ph, CH2NBn2) attached to the central nitrogen atom of the diethylenetriamine backbone. An NMR study reveals that these ligands bind to lanthanide(III) ions in an octadentate fashion through the three nitrogen atoms, a PO oxygen atom and four carboxylate oxygen atoms. The complexed ligand occurs in several enantiomeric forms due to the chirality of the central nitrogen atom and the phosphorus atom upon coordination. All lanthanide complexes studied have one coordinated water molecule. The residence times (τ${{298\hfill \atop {\rm M}\hfill}}$) of the coordinated water molecules in the gadolinium(III) complexes of H6L1 and H5L2 are 88 and 92 ns, respectively, which are close to the optimum. This is particularly important upon covalent and noncovalent attachment of these Gd3+ chelates to polymers. The relaxivity of the complexes studied is further enhanced by the presence of at least two water molecules in the second coordination sphere of the Gd3+ ion, which are probably bound to the phosphonate/phosphinate moiety by hydrogen bonds. The complex [Gd(L3)(H2O)]2− shows strong binding ability to HSA, and the adduct has a relaxivity comparable to MS‐325 (40 s−1 mM−1 at 40 MHz, 37 °C) even though it has a less favourable τM value (685 ns). Transmetallation experiments with Zn2+ indicate that the complexes have a kinetic stability that is comparable to—or better than—those of [Gd(dtpa)(H2O)]2− and [Gd(dtpa‐bma)(H2O)]. Gadolinium(III) complexes of novel mixed carboxylic‐phosphorous acid derivatives of diethylenetriamine have been synthesised. The gadolinium(III) complexes of the phosphorous‐containing analogues of H5DTPA (H6L1, H5L2, H5L3) have one water in the first coordination sphere of Gd3+ (see above). Its residence time for [Gd(L1)(H2O)]3− and [Gd(L2)(H2O)]2− is close to optimal for high relaxivity, which is the parameter that determines the contrast of MRI images. The relaxivity is further enhanced by the presence of at least two water molecules in the second coordination sphere of Gd3+. The complex [Gd(L3)(H2O)]2− binds strongly to human serum albumin.</description><subject>chelates</subject><subject>imaging agents</subject><subject>lanthanides</subject><subject>NMR spectroscopy</subject><subject>phosphinate complexes</subject><subject>phosphonate complexes</subject><issn>0947-6539</issn><issn>1521-3765</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2003</creationdate><recordtype>article</recordtype><recordid>eNqFkc1v0zAchiMEYt3gyhH5hOCQYscfSbiVrNsiteVbHC3H-YUakjjYbtf-J_tzyZRqcONkyXrex_L7RtELgucE4-St3kI3TzCmmBPOH0UzwhMS01Twx9EM5yyNBaf5WXTu_U-McS4ofRqdESZSmolkFt2tVB-2qjc1vC7L8g0qbDe0cACPbIM2dg8tWpsD1KhQrrKHY2t0_HFr_bC1bufRQpsaXYIzexXMfkpdGgjbYws9BGdUZ3p4hxboS4ABBXurXO3R2jpAy6Yx2kAf0PpzOT7cB6d8QIsf45V_Fj1pVOvh-em8iL5dLb8WN_Hqw3VZLFaxZiTn8fhpIbAgpBasYYwD1TqrREUpY1QlLMmqFChnTUprClVDsixhGHLFMdVpXdGL6NXkHZz9vQMfZGe8hrZVPdidl-nY1VgaGcH5BGpnvXfQyMGZTrmjJFjebyHvt5APW4yBlyfzruqg_oufyh-BfAJuTQvH_-hkcbNc_yuPp6zxAQ4PWeV-ydGecvl9cy0_XSUZ3fBcvqd_ABFMpZI</recordid><startdate>20031205</startdate><enddate>20031205</enddate><creator>Kotek, Jan</creator><creator>Lebdušková, Petra</creator><creator>Hermann, Petr</creator><creator>Vander Elst, Luce</creator><creator>Muller, Robert N.</creator><creator>Geraldes, Carlos F. 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C.</au><au>Maschmeyer, Thomas</au><au>Lukeš, Ivan</au><au>Peters, Joop A.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Lanthanide(III) Complexes of Novel Mixed Carboxylic-Phosphorus Acid Derivatives of Diethylenetriamine: A Step towards More Efficient MRI Contrast Agents</atitle><jtitle>Chemistry : a European journal</jtitle><addtitle>Chemistry - A European Journal</addtitle><date>2003-12-05</date><risdate>2003</risdate><volume>9</volume><issue>23</issue><spage>5899</spage><epage>5915</epage><pages>5899-5915</pages><issn>0947-6539</issn><eissn>1521-3765</eissn><abstract>Three novel phosphorus‐containing analogues of H5DTPA (DTPA = diethylenetriaminepentaacetate) were synthesised (H6L1, H5L2, H5L3). These compounds have a ‐CH2‐P(O)(OH)‐R function (R = OH, Ph, CH2NBn2) attached to the central nitrogen atom of the diethylenetriamine backbone. An NMR study reveals that these ligands bind to lanthanide(III) ions in an octadentate fashion through the three nitrogen atoms, a PO oxygen atom and four carboxylate oxygen atoms. The complexed ligand occurs in several enantiomeric forms due to the chirality of the central nitrogen atom and the phosphorus atom upon coordination. All lanthanide complexes studied have one coordinated water molecule. The residence times (τ${{298\hfill \atop {\rm M}\hfill}}$) of the coordinated water molecules in the gadolinium(III) complexes of H6L1 and H5L2 are 88 and 92 ns, respectively, which are close to the optimum. This is particularly important upon covalent and noncovalent attachment of these Gd3+ chelates to polymers. The relaxivity of the complexes studied is further enhanced by the presence of at least two water molecules in the second coordination sphere of the Gd3+ ion, which are probably bound to the phosphonate/phosphinate moiety by hydrogen bonds. The complex [Gd(L3)(H2O)]2− shows strong binding ability to HSA, and the adduct has a relaxivity comparable to MS‐325 (40 s−1 mM−1 at 40 MHz, 37 °C) even though it has a less favourable τM value (685 ns). Transmetallation experiments with Zn2+ indicate that the complexes have a kinetic stability that is comparable to—or better than—those of [Gd(dtpa)(H2O)]2− and [Gd(dtpa‐bma)(H2O)]. Gadolinium(III) complexes of novel mixed carboxylic‐phosphorous acid derivatives of diethylenetriamine have been synthesised. The gadolinium(III) complexes of the phosphorous‐containing analogues of H5DTPA (H6L1, H5L2, H5L3) have one water in the first coordination sphere of Gd3+ (see above). Its residence time for [Gd(L1)(H2O)]3− and [Gd(L2)(H2O)]2− is close to optimal for high relaxivity, which is the parameter that determines the contrast of MRI images. The relaxivity is further enhanced by the presence of at least two water molecules in the second coordination sphere of Gd3+. The complex [Gd(L3)(H2O)]2− binds strongly to human serum albumin.</abstract><cop>Weinheim</cop><pub>WILEY-VCH Verlag</pub><pmid>14673862</pmid><doi>10.1002/chem.200305155</doi><tpages>17</tpages><oa>free_for_read</oa></addata></record>
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subjects	chelates imaging agents lanthanides NMR spectroscopy phosphinate complexes phosphonate complexes
title	Lanthanide(III) Complexes of Novel Mixed Carboxylic-Phosphorus Acid Derivatives of Diethylenetriamine: A Step towards More Efficient MRI Contrast Agents
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