Targeting radiopharmaceuticals: Comparative biodistribution studies of gallium and indium complexes of multidentate ligands

New multidentate ligands with structures similar to N,N′-bis[2-hydroxybenzyl]ethylenediamme-N,N′-diacetic acid (HBED) and N,N′-bis(pyridoxyl)ethylenediamine-N,N′-diacetic acid (PLED) were synthesized. The in vitro lipophilicity, electrophoretic behavior, and the in vivo biodistribution were studied for the ¹¹¹In- and ^67,68Ga-complexes of N,N′-bis(2-hydroxy-3,5-dimethylbenzyl)ethylenediamine-N,N′-diacetic acid (Me₄HBED); N,N′-bis(5-t-butyl-2-hydroxy-3-methylbenzyl)ethylenediamine-N,N′-diacetic acid (t-butyl HBED); N,N′-bis[2-hydroxy-5-sulfobenzyl)ethylenediamine-N,N′-diacetic acid (SHBED); N,N′-bis(2-hydroxy-3,5-dimethylbenzyl)ethylenediamine-N-(2-hydroxyethyl)-N′-acetic acid (HBMA); and N,N′-bis(5-deoxypyridoxyl)ethylenediamine-N,N′-diacetic acid (DPLED). The biodistribution of the radiometal complexes were carried out in rats and an imaging study was performed in a non-human primate. The rapid clearance of the lipophilic complexes from blood and through the hepatobiliary system was easily demonstrated; as well, the hydrophilic complexes were cleared rapidly through the urinary tract. Positron emission tomographic images were generated from a study in a primate after administration of ⁶⁸Ga-t-butyl HBED. These images well demonstrate the efficient liver accumulation and rapid hepatobiliary clearance (< 1 h) and well differentiate images of the liver and gall bladder.     

A potential new radiopharmaceutical for parathyroid imaging: Radiolabeled parathyroid-specific monoclonal antibody—II. Comparison of 125I- and 111In-labeled antibodies

The biodistributions of ¹¹¹In-BB5-G1 and ¹¹¹In-F(ab′)₂ were compared with the biodistributions of the corresponding ¹²⁵I-labeled molecules. For BB5-G1 intact antibody, the relative uptake of the ¹¹¹In- and ¹²⁵I-labeled molecules in human parathyroid tissue implants was similar at 24 h, but by 96 h the uptake of the ¹¹¹In-BB5-G1 %ID/g was four times greater than that observed with the ¹²⁵I-labeled antibody. For the F(ab′)₂ fragments, the relative parathyroid uptake of the two preparations was similar at all times tested. The uptake by the clearance organs was significantly higher when the ¹¹¹In-labeled molecules were used. Imaging results suggest that ¹¹¹In-BB5-G1 or ¹¹¹In-F(ab′)₂ may be a useful radiopharmaceutical for parathyroid radioimmunodetection.     

N,N'-bis(2-hydroxybenzyl)-1-(4-bromoacetamidobenzyl)-1,2 -ethylenediamine-N,N'-diacetic acid: a new bifunctional chelate for radiolabeling antibodies

N,N'-Bis(2-hydroxybenzyl)-1-(4-bromoacetamidobenzyl)-1,2 -ethylenediamine-N,N'-diacetic acid (Br phi HBED) was synthesized to bind trivalent metals with high stability constants and to bifunctionally link the radiometal with antibodies (Ab). This ligand has advantages over our previously reported N-(2-hydroxy-3,5-dimethylbenzyl)-N'-(2-hydroxy-5- bromoacetamidobenzyl)ethylenediamine-N,N'-diacetic acid (BrMe2HBED). Br phi HBED has the protein coupling group BrCH2CONH removed from the sterically hindered ring position with the addition of a benzyl group in the linker arm; this provides further distance between the protein and the chelate. We have also observed that the chelate was more stable than BrMe2HBED, so it can be stored longer without loss of observed chemical properties. The improved chelate design allows for more rapid radiolabeling with [111In]indium citrate (1 h at room temperature) with higher radiochemical yields. Br phi HBED was conjugated with an anticolorectal carcinoma monoclonal antibody (1A3) where radiolabeling yields of 75-90% were obtained and the antibody retained its immunoreactivity (ca. 90%) under all labeling conditions studied. Biodistribution studies in a hamster transplanted tumor (GW39) model demonstrated a high tumor uptake when compared to those of 125I-1A3 or 111In-DTPA cyclic anhydride-1A3. Blood clearance of 111In-Br phi HBED-1A3 was rapid and combined with its high target uptake has higher target to nontarget ratios in vivo at various time intervals when compared with that of 1A3 radiolabeled with either 111In-DTPA cyclic anhydride or 125I.     

Potential radiopharmaceuticals for the diagnosis of biliary atresia and neonatal hepatitis: EHPG and HBED chelates of 67Ga and 111In

Radiopharmaceuticals suitable for use in cases where delayed excretion of hepatobiliary tracer can occur, were formulated from indium-111 and gallium-67 and the chelating agents N,N′-ethylene-bis-[o-hydroxyphenylglycine], (EHPG) and N,N′-bis-[2-hydroxybenzyl] ethylenediamine-N,N′-diacetic acid, (HBED). The hepatobiliary excretion of these ⁶⁷Ga and ¹¹¹In chelates was optimised by using chelators which had substituents in the phenolic ring; halogen substituents imparted the most favourable characteristics.     

Structural and magnetic properties of O-bridged tetranuclear and binuclear Cu(II) complexes

Two copper(II) complexes [Cu₄(L¹)₄] (1) and [Cu₂(phen)₂(HL²)₂] (ClO₄)₂ (2) have been synthesized from two potentially tridentate ligands N-(2-hydroxybenzyl) propanolamine (H₂L¹) and N-(2-hydroxybenzyl) ethanolamine (H₂L²). X-ray analyses revealed that 1 contains a Cu₄O₄ cubane core, with each two Cu(II) atoms bridged by a pair of alkoxides; 2 has a bis(μ₂-phenoxo)-bridged dicopper(II) structure. Variable temperature magnetic measurements of 1 have revealed that the correlation between 2J and the bridge angles φ for 1 shows a very strong antiferromagnetic tendency, i.e. the ferromagnetic and antiferromagnetic interactions cross at the φ of 94.5°. The relatively weak antiferromagnetic interactions (2J=−226.8 cm⁻¹) with respect to the bridge angles (φ=100.4°) for 2 have been ascribed to the pyramidal distortions at the phenoxide oxygen atoms in addition to the unfavorable overlaps of the magnetic orbitals for the highly distorted copper coordination polyhedra.     

Targeting radiopharmaceuticals—II. Evaluation of new trivalent metal complexes with different overall charges

Three new multidentate ligands designed to have high affinity for Ga³⁺, In³⁺ and Fe³⁺ have been synthesized, N-(2-hydroxybenzyl)-N′-pyridoxylethylenediamine-N,N′-diacetic acid (HBPLED), N-(2-hydroxy-3,5-dimethylbenzyl)-N′-(3-hydroxy-1,2,5-trimethyl-4-pyridylmethyl)ethylenediamine-N,N′-diacetic acid (Me₄HBPLED) and N,N′-bis(3-hydroxy-1,2,5-trimethyl-4-pyridylmethyl) ethylenediamine-N,N′-diacetic acid (DMPLED). These ligands give metal-ligand (M–L) complexes with (M = Ga³⁺, In³⁺, Fe³⁺) overall charges of −1, 0 and + 1, respectively. The ⁶⁷Ga, ⁶⁸Ga and ¹¹¹In complexes of each of the three ligands and the ⁵⁹Fe complex of Me₄HBPLED were prepared, characterized and their biodistributions determined in rats after intravenous injection. Despite the differences in overall charge, the biological behavior of all three ¹¹¹In complexes were similar, in that the radioactivity cleared rapidly via the kidney. The biodistributions of the ⁶⁸Ga and ⁶⁷Ga complexes were comparable to that of the ¹¹¹In complex counterpart. Also, the ⁵⁹Fe-Me₄HBPLED biodistribution was not significantly different from those of the ⁶⁸Gaand ¹¹¹In-Me₄HBPLED. The renal clearance rate seems insensitive to the overall M-L charge; suggesting that the hydrophilic periphery of the ligand rather than the overall molecular charge determines the biological fate (with respect to renal clearance).     

Light-induced slow changes in chlorophyll a fluorescence in isolated chloroplasts: Effects of magnesium and phenazine methosulfate

We have investigated the possible relationships between the cation-induced and phenazine methosulfate (PMS)-induced fluorescence changes and their relation to light induced conformational changes of the thylakoid membrane.1. In isolated chloroplasts, PMS markedly lowers the quantum yield of chlorophyll a fluorescence (φ_f) when added either in the presence or the absence of dichloro-phenyldimethylurea (DCMU). In contrast, Mg²⁺ causes an increase in φ_f. However, these effects are absent in isolated chloroplasts fixed with glutaraldehyde that retain (to a large extent) the ability to pump protons, suggesting that structural alteration of the membrane—not the pH changes—is required for the observed changes in φ_f. The PMS triggered decrease in φ_f is not accompanied by any changes in the emission (spectral) characteristics of the two pigment systems, whereas room temperature emission spectra with Mg²⁺ and Ca²⁺ show that there is a relative increase of System II to System I fluorescence.2. Washing isolated chloroplasts with 0.75 mM EDTA eliminates (to a large extent) the PMS-induced quenching and Mg²⁺-induced increase of φ_f, and these effects are not recovered by the further addition of dicyclohexyl carbodiimide. It is known that washing with EDTA removes the coupling factor, and thus, it seems that the coupling factor is (indirectly) involved in conformational change of thylakoid membranes leading to fluorescence yield changes.3. In purified pigment System II particles, neither PMS nor Mg²⁺ causes any change in φ_f. Our data, taken together with those of the others, suggest that a structural modification of the thylakoid membranes (not macroscopic volume changes of the chloroplasts) containing both Photosystems I and II is necessary for the PMS-induced quenching and Mg²⁺-induced increase of φ_f. These two effects can be explained with the assumption that the PMS effect is due to an increase in the rate of internal conversion (k_h), whereas the Mg²⁺ effect is due to a decrease in the rate of energy transfer (k_t), between the two photosystems.4. From the relative ratio of φ_f with DCMU and DCMU plus Mg²⁺, we have calculated k_t (the rate constant of energy transfer between Photosystems II and I to be 4.2·10⁸ s^?1, and φ_t (quantum yield of this transfer) to be 0.12.     

Genome structure and origin of nontoxigenic strains of <Emphasis Type="Italic">Vibrio cholerae</Emphasis> of El Tor biovar with different epidemiological significance

Intraspecies genetic differentiation of nontoxigenic strains of Vibrio cholerae of El Tor biovar containing one of the key pathogenicity genes, tcpA, is studied along with the phylogenetic relationships between these strains and toxigenic isolates. Comparative analysis of the whole genome nucleotide sequences demonstrates for the first time that ctxA^–tcpA⁺ strains vary considerably and can be clustered into two separate groups, the CTX_φ–RS1_φ⁺VPI⁺VSP⁺/CTX_φ–RS1_φ–VPI⁺VSP⁺ isolates and the CTX_φ–RS1_φ–VPI⁺VSP^– isolates, differing in their epidemiological significance. In the course of model experiments, it is established that nontoxigenic potentially epidemic CTX_φ–RS1_φ⁺VPI⁺VSP⁺/CTX_φ–RS1_φ–VPI⁺VSP⁺ isolates are derivatives of toxigenic strains. The results of whole genome SNP analysis of 35 Vibrio cholerae strains confirm these data and indicate genetic remoteness of nontoxigenic CTX_φ–RS1_φ–VPI⁺VSP^– strains both from the potentially epidemic strains and from the toxigenic isolates. It is found that the genomes of the CTX_φ–RS1_φ–VPI⁺VSP^– strains contain unique SNPs which are characteristic of them alone. The new data on the structure of the genome of nontoxigenic strains with different epidemiological significance may be further used for their genetic differentiation.     

Photoreactive 111In-cyclodextrin inclusion complex: a new heterobifunctional reagent for antibody labeling

The compound of interest, N-5-azido-2-nitrobenzoylaminomethyl-¹¹¹In-acetylacetone-α-cyclodextrin (CD) (V) was synthesized by the selective tosylation of α-CD to form 6-tosyl-6-deoxy-CD, which was then reacted with NaN₃ to form 6-azido-6-deoxy-CD (II). This was followed by catalytic hydrogenation to yield III. Compound III and ¹¹¹In-acetylacetone were mixed to form an inclusion complex, which was then reacted with N-5-azido-2-nitrobenzoyloxysuccinimide to yield compound V. Anti-melanoma MAbTP41.2 was added to compound V, followed by immediate photoreactivation labeling by u.v. light at 320 nm. The final product VI was purified from a Sephadex G-50 column. ¹¹¹In-DTPA-MAbTP41.2 was also prepared as a control.Immunoreactivity via the cell-binding assay of VI was 87%, compared with 57% by the BADTPA method. Biodistribution in non-tumor rats yielded a liver concentration in %ID/g of 3.5, 1.7 and 1.0 for compound VI, compared to the 5.5, 5.2 and 3.1 for the BADTPA compound, at 4, 24 and 48 h post-injection, respectively.     

New amino-dithiaphospholanes and phosphoramidodithioites and their rhodium and iridium complexes

New sulfur derivatives of phosphoramidite ligands were synthesized and the impact of the sulfur unit on the spectroscopic properties of their rhodium and iridium complexes was investigated. The new ligands Bn₂NPSCH₂CH₂S^a(P-S^a) (Bn = benzyl, 4), Bn₂NPSCHCHS^a(CH₂)₃C^aH₂(P-S^a)(C^a-S^a) (6) and Bn₂NP(4-XC₆H₄OMe)₂ (X = S, 7a; X = O, 7b) were converted to the rhodium and iridium complexes trans-[Rh(CO)Cl(L)₂] (L = 4, 6, 7), [RhCl(COD)(L)] (L = 4, 6, 7), [IrCl(COD)(7a)] and [IrCl₂Cp∗(6)]. For comparison, some phosphoramidite complexes of these formulations also were synthesized. The new metal complexes were spectroscopically analyzed. For the carbonyl complexes, the ν_CO IR stretching frequencies were lower than for the corresponding phosphite and phosphoramidite ligands. The ¹J_PRh coupling constants for the rhodium complexes with the new ligands were also smaller than for the respective phosphoramidite and phosphite complexes. Finally, the ¹J_PSe coupling constants of the selenides of the new ligands were lower than those of the phosphoramidite ligands but higher than for PPh₃. The spectroscopic data reveal that the new thio ligands 4, 6 and 7a are more electron donating than phosphites and phosphoramidites but less electron donating than PPh₃.     

The role of Hox hydrogenase in the H2 metabolism of Thiocapsa roseopersicina

The purple sulfur phototrophic bacterium Thiocapsa roseopersicina BBS synthesizes at least three NiFe hydrogenases (Hox, Hup, Hyn). We characterized the physiological H₂ consumption/evolution reactions in mutants having deletions of the structural genes of two hydrogenases in various combinations. This made possible the separation of the functionally distinct roles of the three hydrogenases. Data showed that Hox hydrogenase (unlike the Hup and Hyn hydrogenases) catalyzed the dark fermentative H₂ evolution and the light-dependent H₂ production in the presence of thiosulfate. Both Hox⁺ and Hup⁺ mutants demonstrated light-dependent H₂ uptake stimulated by CO₂ but only the Hup⁺ mutant was able to mediate O₂-dependent H₂ consumption in the dark. The ability of the Hox⁺ mutant to evolve or consume hydrogen was found to depend on a number of interplaying factors including both growth and reaction conditions (availability of glucose, sulfur compounds, CO₂, H₂, light). The study of the redox properties of Hox hydrogenase supported the reversibility of its action. Based on the results a scheme is suggested to describe the role of Hox hydrogenase in light-dependent and dark hydrogen metabolism in T. roseopersicina BBS.     

(R)-NODAGA-PSMA: A Versatile Precursor for Radiometal Labeling and Nuclear Imaging of PSMA-Positive Tumors

Purpose

The present study aims at developing and evaluating an urea-based prostate specific membrane antigen (PSMA) inhibitor suitable for labeling with ¹¹¹In for SPECT and intraoperative applications as well as ⁶⁸Ga and ⁶⁴Cu for PET imaging.

Methods

The PSMA-based inhibitor-lysine-urea-glutamate-coupled to the spacer Phe-Phe-D-Lys(suberoyl) and functionalized with the enantiomerically pure prochelator (R)-1-(1-carboxy-3-carbotertbutoxypropyl)-4,7-carbotartbutoxymethyl)-1,4,7-triazacyclononane ((R)-NODAGA(tBu)₃), to obtain (R)-NODAGA-Phe-Phe-D-Lys(suberoyl)-Lys-urea-Glu (CC34). CC34 was labeled with ¹¹¹In, ⁶⁸Ga and ⁶⁴Cu. The radioconjugates were further evaluated in vitro and in vivo in LNCaP xenografts by biodistribution and PET studies. Biodistribution studies were also performed with ⁶⁸Ga-HBED-CC-PSMA (HBED-CC: N,N′-bis[2-hydroxy-5-(carboxyethyl)benzyl]ethylenediamine-N,N′-diacetic acid) and ¹¹¹In-PSMA-617 for comparison.

Results

⁶⁸Ga-CC34, ⁶⁴Cu-CC34, and ¹¹¹In-CC34 were prepared in radiochemical purity >95%. ^68/natGa-CC34, ^64/natCu-CC34, ^111/natIn-CC34, ^68/natGa-HBED-CC-PSMA, and ^111/natIn-PSMA-617 exhibited high affinity for the LNCaP cells, with K_d values of 19.3±2.5 nM, 27.5±2.7 nM, 5.5±0.9 nM, 2.9±0.6 nM and 5.4±0.8 nM, respectively. They revealed comparable internalization profiles with approximately 75% of the total cell associated activity internalized after 3 h of incubation. ⁶⁸Ga-CC34 showed very high stability after its administration in mice. Tumor uptake of ⁶⁸Ga-CC34 (14.5±2.9% IA/g) in LNCaP xenografts at 1 h p.i. was comparable to ⁶⁸Ga-HBED-CC-PSMA (15.8±1.4% IA/g) (P = 0.67). The tumor-to-normal tissue ratios at 1 and 2 h p.i of ⁶⁸Ga-CC34 were also comparable to ⁶⁸Ga-HBED-CC-PSMA (P>0.05). Tumor uptake of ¹¹¹In-CC34 (28.5±2.6% IA/g) at 1 h p.i. was lower than ¹¹¹In-PSMA-617 (52.1±6.5% IA/g) (P = 0.02). The acquisition of PET-images with ⁶⁴Cu-CC34 at later time points showed wash-out from the kidneys, while tumor uptake still remained relatively high. This resulted in an increased tumor-to-kidney ratio over time.

Conclusions

⁶⁸Ga-CC34 is comparable to ⁶⁸Ga-HBED-CC-PSMA in terms of tumor uptake and tumor to normal tissue ratios. ⁶⁴Cu-CC34 could enable high contrast imaging of PSMA positive tissues characterized by elevated expression of PSMA or when delayed imaging is required. ⁶⁴Cu-CC34 is currently being prepared for clinical translation.     

New antitumor titanocene derivatives containing hydrophilic ligands

Four titanocene derivatives containing hydrophilic ligands were tested for antiproliferative activity against Ehrlich ascites tumor in mice. The new compounds (C₅H₅)₂TiCl(p-SC₆H₄NH₃⁺Cl^?) (I) and (C₅H₅)₂Ti(p-SC₆H₄NH₃⁺Cl^?)₂ (II), containing hydrochlorinated p-aminothiophenolate ligands, and the known compounds (C₅H₅)₂Ti(cis-OOCCHCHCOOH)₂ (III) and (C₅H₅)₂Ti(OOCCCl₃)₂ (IV) containing the carboxylic acid anions hydrogen- maleinate and trichloroacetate as acido ligands, induced maximum cure rates of 100%. The T.I. values amounted to 4.4–4.6 (I), 3.5–4.1 (II), 3.7– 3.8 (III) and 5.5 (IV), and were slightly increased in comparison to (C₅H₅)₂TiCl₂ (T.I. = 3.3). The complexes I–III were rather soluble in water and equally active in a DMSO/saline (1/9, v/v) mixture, in pure saline and in buffered solutions. In the case of IV, the toxicity was considerably low (LD₅₀,440 mg/kg; LD₁₀₀, 500 mg/kg) in relation to (C₅H₅)₂TiCl₂ (LD₅₀, 100 mg/kg; LD₁₀₀, 140 mg/kg).     

Stabilization of monovalent nickel in aqueous solutions by complexation with the β-isomer of C-5,12-racemic-1,4,5,7,7,8,11,12,14,14-decamethyl-1,4,8,11-tetraazacyclotetradecane

The monovalent nickel complex formed by the reduction of the β-isomer of the complex of C-5,12- racemic-1,4,5,7,7,8,11,12,14,14-decamethyl-1,4,8,11- tetraazacyclotetradecane nickel(II), NiL₁²⁺ in 0.1 M HCO₂Na, pH 7.6, has a half-life longer than 90 h. The redox potential of the couple NiL₁⁺/NiL₁²⁺ is −0.94 V vs. Ag/AgCl. The absorption spectrum of NiL₁⁺ consists of a band with λ_max = 335 nm and ϵ_max = 2200 M⁻¹ cm⁻¹. For the analogous complex with C-5,12-racemic-5,7,7,12,14,14-hexamethyl-1,4, 8,11-tetraazacyclotetradecane, L₂, the half-life time of NIL₂⁺ is less than 1 min and the redox potential is −1.44 V vs. Ag/AgCl. These results are similar to those reported earlier for the analogous nickel complexes with the meso-isomers of the ligands. The results thus indicate that both the kinetic and thermodynamic stabilization of monovalent nickel by N-methylation of tetraazamacrocyclic ligands is not significantly affected by the configuration of the ligand.     

Activated platelets in carotid artery thrombosis in mice can be selectively targeted with a radiolabeled single-chain antibody

Background

Activated platelets can be found on the surface of inflamed, rupture-prone and ruptured plaques as well as in intravascular thrombosis. They are key players in thrombosis and atherosclerosis. In this study we describe the construction of a radiolabeled single-chain antibody targeting the LIBS-epitope of activated platelets to selectively depict platelet activation and wall-adherent non-occlusive thrombosis in a mouse model with nuclear imaging using in vitro and ex vivo autoradiography as well as small animal SPECT-CT for in vivo analysis.

Methodology/Principal Findings

LIBS as well as an unspecific control single-chain antibody were labeled with ¹¹¹Indium (¹¹¹In) via bifunctional DTPA ( = ¹¹¹In-LIBS/¹¹¹In-control). Autoradiography after incubation with ¹¹¹In-LIBS on activated platelets in vitro (mean 3866±28 DLU/mm², 4010±630 DLU/mm² and 4520±293 DLU/mm²) produced a significantly higher ligand uptake compared to ¹¹¹In-control (2101±76 DLU/mm², 1181±96 DLU/mm² and 1866±246 DLU/mm²) indicating a specific binding to activated platelets; P<0.05. Applying these findings to an ex vivo mouse model of carotid artery thrombosis revealed a significant increase in ligand uptake after injection of ¹¹¹In-LIBS in the presence of small thrombi compared to the non-injured side, as confirmed by histology (49630±10650 DLU/mm² vs. 17390±7470 DLU/mm²; P<0.05). These findings could also be reproduced in vivo. SPECT-CT analysis of the injured carotid artery with ¹¹¹In-LIBS resulted in a significant increase of the target-to-background ratio compared to ¹¹¹In-control (1.99±0.36 vs. 1.1±0.24; P<0.01).

Conclusions/Significance

Nuclear imaging with ¹¹¹In-LIBS allows the detection of platelet activation in vitro and ex vivo with high sensitivity. Using SPECT-CT, wall-adherent activated platelets in carotid arteries could be depicted in vivo. These results encourage further studies elucidating the role of activated platelets in plaque pathology and atherosclerosis and might be of interest for further developments towards clinical application.     

Synthesis and structure of monoribbed-functionalized disulfide iron(II) clathrochelates and their coordination as the ligands toward platinum(II) and platinum(IV) ions

Disulfide monoribbed-functionalized clathrochelates (i.e., fuctionalization of one of the three α-dioximate fragments) with ribbed thioalkyl, S₃-thioalkyl and hydroxythioalkyl substituents have been synthesized starting from the FeBd₂(Cl₂Gm)(BF)₂ precursor (where Bd²⁻ and Cl₂Gm²⁻ are α-benzyldioxime and dichloroglyoxime dianions) using the corresponding thiol/triethylamine system in dichloromethane solution. Clathrochelate S₆-dithiol in basic media underwent the intramolecular dealkylation to yield the S₃-thiocrown etheric clathrochelate. Clathrochelates obtained have been studied as the ligands toward Pt²⁺ and Pt⁴⁺ ions. The S-demethylation reaction of the methylsulfide complex with [PtCl₄]²⁻ dianion produced the polynuclear complexes of the dianionic clathrochelate dithiolate ligand. The reaction of n-butylsulfide clathrochelate with the trans-Pt^IVCl₄(C₆H₅CH₂CN)₂ afforded the binuclear compound with the disulfide iron(II) clathrochelate as a monodentate ligand. The obtained macrobicycles, their clathrochelate derivatives, and polynuclear complexes have been characterized using elemental analysis, MALDI-TOF and PD mass, IR, UV-Vis, and NMR spectra, and X-ray crystallography. The encapsulated iron(II) ion coordination polyhedra distortion angle φ values and the main distances in the molecules of polynuclear complexes have been deduced (obtained) using ⁵⁷Fe Mössbauer parameters and EXAFS data, respectively.     

Ortho-metalation, rotational isomerization, and hydride-hydride coupling at rhenium (V) polyhydride complexes stabilized by aromatic amine ligands

An ortho-metalated rhenium (V) polyhydride complex has been prepared through the reaction of ReH₇(PPh₃)₂ with 2-phenylpyridine. Additionally, a small series of neutral rhenium (V) pentahydride complexes, each of which is stabilized by an aromatic amine ligand, has been prepared. E and Z rotational isomers of the ReH₅(PPh₃)₂(aromatic amine) complexes have been observed at low temperatures by NMR spectroscopy. The E and Z rotational isomers arise from a combination of the lack of a mirror plane symmetry element orthogonal to the aromatic ring in the aromatic amine ligands and the restricted rotation about the Re-N bond in such complexes. Restricted rotation about the Re-N bond in the related complex, ReH₅(PPh₃)₂(Py) has previously been observed by Crabtree et al. The restricted rotation about the Re-N bond seems to result from π-donation of the lone electron pair on the rhenium (V) center to the π∗ system of the aromatic amine ligands. Different populations of the E and Z rotational isomers arise from interactions of substituents on the aromatic ring with the other ligands bound to rhenium. The values of ΔG^‡ for the restricted rotation about the Re-N bonds, for the complexes containing 4-phenylpyrimidine, 2-aminopyrimidine, or 2-aminopyridine, range from 9.9 to 11.3 kcal/mole. One of the new compounds reported herein, ReH₅(PPh₃)₂[1-(2-NH₂Pyr)] is the first rhenium (V) polyhydride complex to display hydride-hydride coupling in its ¹H NMR spectrum.     

Crystal structure and linear chain antiferromagnetism in Mn(tricyanomethanide)2(4,4-bipyridine)2

A new linear chain antiferromagnet, namely Mn(tcm)₂(4,4^′-bipy)₂ (tcm=tricyanomethanide and bipy=bipyridine) has been synthesized and characterized by X-ray crystallography and magnetic susceptibility measurements. Each Mn²⁺ is high-spin S=5/2 and linked to nearest-neighbor spin sites via μ-bridged tcm ligands to form a 1D linear chain while the bipy ligands are monodentate and segregate the chains. Magnetically, a broad maximum in χ^′(T) is observed at 2.1 K and likely signifies short-range magnetic order within the chains. A least-squares fit of the χT(T) data to a classical-spin Fisher chain model yielded good agreement for g=2.008(1) and J=−0.217(4) K. No long-range magnetic ordering is observed above 1.6 K due to the presence of very weak interchain magnetic interactions as indicated by inclusion of a mean-field model that gave zJ^′=−0.009(1) K.     

Structure, solution equilibria and magnetic properties of copper(II) complexes with new sulfurated triazoline derivatives of α-amino acids

Two new sulfurated triazoline ligands have been synthesized by functionalization of glycine and l-alanine (HL¹ and HL², respectively) at the carboxylate site with retention of chirality in the latter case. The ligands and their copper(II) complexes have been characterized by spectroscopic methods and their structures were determined by X-ray diffraction. The compound [Cu(H₂L²)₂](H₅O₂)(SO₄)₂(HSO₄) presents a very disordered structure with regard to the anionic counterion and a very unusual elongated crystal cell. In all the complexes the ligands are (N,S) coordinated to copper(II), while the amino groups remain protonated and uncoordinated. The ligands have also been studied in solution and their dissociation constants were determined both by potentiometry and ¹H NMR titrations. Potentiometric studies on the complex [Cu(H₂L²)₂](H₅O₂)(SO₄)₂(HSO₄) were performed to determine the dissociation constants of the ligand once coordinated to the metal. The complex [CuCl₂(H₂L¹)]Cl was studied also by magnetic susceptibility measurements, showing an interesting antiferromagnetic behavior at low temperature which has been interpreted on the basis of its crystal packing.