Bis-Arene Complexes [Re(η6-arene)2]+ as Highly Stable Bioorganometallic Scaffolds.

The synthesis of mono- and difunctionalized [Re(η6-C6H5R)(η6-C6H6-nRn)]+ (n = 0, 1; R = COOH, Br) complexes starting from [Re(η6-benzene)2]+ is described. The lithiation of [Re(η6-benzene)2]+ with n-BuLi leads preferentially to the neutral, alkylated product [Re(η6-C6H6)(η5-C6H6-Bu)] but not to the expected deprotonation of the arene ring. Deprotonation/lithiation with LDA gave the mono- and the dilithiated products in situ. Their reactions with 1,1,2,2-tetra-bromoethane (TBE) or with CO2, respectively, gave [Re(η6-C6H5Br)(η6-C6H6)]+, [Re(η6-C6H5Br)2]+, or [Re(η6-C6H5COOH)(η6-C6H6)]+, [Re(η6-C6H5COOH)2]+. These functionalized derivatives of [Re(η6-benzene)2]+ represent novel precursors for the synthesis of bioconjugates to bioactive structures, comparable to [Co(Cp)2]+ or [Fe(Cp)2]. Different model compounds [Re(η6-C6H5R)(η6-C6H6-nRn)]+ (n = 0, 1; R = -SCH2Ph, -NHPh, -CONHCH2Ph, -C6H5-COdpa) were synthesized via amide bond formation and nucleophilic aromatic substitution. These conjugates were fully characterized including X-ray structure analyses of most products. For all complexes, the 1H NMR arene proton signals are strongly upfield-shifted as compared to those of the noncoordinated arenes. The electrochemical analyses show an irreversible, probably substituent-centered oxidation, which contrasts the cyclic voltammetry of the underivatized complexes where oxidation is fully reversible. The stability of the core and the reactivity of the substituents make these bis-arene complexes useful precursors in medicinal inorganic chemistry, comparable to cobaltocenium or ferrocene.

From TcVII to TcI; facile syntheses of bis-arene complexes [99(m)Tc(arene)2]+ from pertechnetate.

Bis-arene complexes of technetium represent a fundamental class of organometallic compounds. Due to complex synthetic routes, no detailed insights into their properties have been reported so far. Reacting [99TcO4]- with arenes in the exclusive presence of AlCl3 gives highly stable [99Tc(arene)2]+ in good yields. These complexes have extraordinarily high stabilities, where oxidation is found to occur at potentials higher than +1.3 V and reduction at potentials below -2 V vs. Fc/Fc+. The 99mTc analogues are similarly synthesised by applying a novel ionic liquid extraction pathway. Complexes of 99mTc with suitably functionalized arenes will represent new building blocks for bioorganometallic pharmaceuticals in molecular imaging.

[(Cp-R)M(CO)3] (M = Re or 99mTc) conjugates for theranostic receptor targeting.

Cyclopentadienyl complexes of 99mTc became accessible via a retro Diels-Alder synthetic approach of dimerized cyclopentadiene derivatives. So far, this approach was limited to derivatives comprising a carboxylic acid group, directly conjugated to the Cp-ring, leading to complexes [(C5H5COOH)99mTc(CO)3] and [(C5H5CONH-R)99mTc(CO)3], respectively. The introduction of an -NCO group via Curtius rearrangement and subsequent in situ reactions with alcohols or amines gave [(C5H5NHCO-OR)2] and [(C5H5NHCO-NHR)2]. To increase the spacer lengths between the Cp-ring and the functional groups, methylene and ethylene spacers were introduced to yield C5H5-CH2COOH and C5H5-C2H4COOH respectively. The latter Cp-derivatives reacted with [99mTcO4)]- and in the presence of CO releasing/reducing agents to the corresponding [(C5H5-spacer-COOH)99mTc(CO)3] complexes. The carboxylato groups can be derivatized with targeting functions, leading to structurally altered receptor binding complexes, with 99mTc for imaging and with rhenium for therapy. The nature of the 99mTc complexes was assessed by HPLC comparison with the corresponding rhenium compounds.

Orthogonally protected artificial amino acid as tripod ligand for automated peptide synthesis and labeling with [(99m)Tc(OH(2))(3)(CO)(3)](+).

1,2-Diamino-propionic acid (Dap) is a very strong chelator for the [(99m)Tc(CO)(3)](+) core, yielding small and hydrophilic complexes. We prepared the lysine based Dap derivative l-Lys(Dap) in which the ε-NH(2) group was replaced by the tripod through conjugation to its α-carbon. The synthetic strategy produced an orthogonally protected bifunctional chelator (BFC). The -NH(2) group of the α-amino acid portion is Fmoc- and the -NH(2) of Dap are Boc-protected. Fmoc-l-Lys(Dap(Boc)) was either conjugated to the N- and C-terminus of bombesin BBN(7-14) or integrated into the sequence using solid-phase peptide synthesis (SPPS). We also replaced the native lysine in a cyclic RGD peptide with l-Lys(Dap). For all peptides, quantitative labeling with the [(99m)Tc(CO)(3)](+) core at a 10 µM concentration in PBS buffer (pH = 7.4) was achieved. For comparison, the rhenium homologues were prepared from [Re(OH(2))(3)(CO)(3)](+) and Lys(Dap)-BBN(7-14) or cyclo-(RGDyK(Dap)), respectively. Determination of integrin receptor binding showed low to medium nanomolar affinities for various receptor subtypes. The IC(50) of cyclo-(RGDyK(Dap[Re(CO)(3)])) for α(v)ß(3) is 7.1 nM as compared to 3.1 nM for nonligated RGD derivative. Biodistribution studies in M21 melanoma bearing nude mice showed reasonable α(v)ß(3)-integrin specific tumor uptake. Altogether, orthogonally protected l-Lys(Dap) represents a highly versatile building block for integration in any peptide sequence. Lys(Dap)-precursors allow high-yield (99m)Tc-labeling with [(99m)Tc(OH(2))(3)(CO)(3)](+), forming small and hydrophilic complexes, which in turn leads to peptide radiopharmaceuticals with excellent in vivo characteristics.

The [(Cp)M(CO)(3)] (M=Re, (99m)Tc) building block for imaging agents and bioinorganic probes: perspectives and limitations.

Starting from asymmetric Thiele's acid derivatives, two different imaging probes [(99m)Tc(CO)(3)(CpR)] (R=potential targeting vector) are generated simultaneously in one-pot and from one substrate. This extends the previously introduced labeling strategy of metal-mediated retro-Diels-Alder reaction with HCp-R dimers. We demonstrate that chemically active functionalities such as hydroxamic acids are not following this labeling strategy. Adopting the principle of replacing phenyl rings by [Re(CO)(3)(Cp)] entities, potent histone deacetylase (HDAC)-inhibiting Re analogs of suberoylanlilide hydroxamic acid (SAHA; N-hydroxy-N'-phenyloctanediamide) were synthesized and characterized. Cytotoxic evaluation on different tumor cell lines revealed low IC(50) values [µM] for these compounds, comparable to their purely organic congeners.

[(Cp-R)M(CO)3] (M=Re or 99mTc) Arylsulfonamide, arylsulfamide, and arylsulfamate conjugates for selective targeting of human carbonic anhydrase IX.

Enhanced receptor selectivity: carbonic anhydrase inhibitors are relevant for both cancer diagnosis and therapy. Combining non-radioactive Re compounds with their radioactive (99m)Tc homologs enables the use of identical molecules for therapy and imaging (theragnostic). The syntheses and in vitro evaluation of [(Cp-R)M(CO)(3)] (Cp=cyclopentadienyl, M=Re, (99m)Tc) with R being a highly potent carbonic-anhydrase-targeting vector is reported.

Preparation and biological evaluation of cyclopentadienyl-based 99mTc-complexes [(Cp-R)99mTc(CO)3] mimicking benzamides for malignant melanoma targeting.

The biological evaluation of half-sandwich (99m)Tc-complexes that surrogate iodobenzamide with a high affinity for melanin tumor tissue is described. We have synthesized via retro Diels-Alder reaction two models of (99m)Tc complexes which possess the piano stool [Cp(99m)Tc(CO)(3)] motif instead of a phenyl ring as in the original iodobenzamide (123)I-N-(N-benzylpiperidin-4-yl)-2-iodobenzamide (2-IBP) and N-(2-diethylaminoethyl)-4-iodobenzamide (BZA). Diels-Alder products 2a-b (HCp-CONHR)(2) (2a, R=2-diethylaminoethyl; 2b, R=benzylpiperidin-4-yl) were prepared and reacted with fac-[(99m)Tc(H(2)O)(3)(CO)(3))](+) 1 in water to produce the corresponding (99m)Tc complexes [(2a)(99m)Tc(CO)(3))] 4a and [(2b)(99m)Tc(CO)(3))] 4b. The structures of the (99m)Tc complexes on the no-carrier-added level have been confirmed by chromatographic comparison with the corresponding rhenium complexes 3a and 3b, macroscopically characterized by IR, NMR, ESI-MS and X-ray crystallography for 3a [triclinic, P-1, a=7.3518(1) A, b=8.0309(2) A, c=17.5536(3) A, alpha=99.1260(5) degrees, beta=90.4215(14) degree , gamma=117.0187(11) degrees]. The radioconjugate 4b showed good in vitro stability. In murine melanoma B16F1 cells, significant cellular uptake (43.9% of the total applied activity) was attained after 4 h at 37 degrees C with about 50% of the cell-associated radioactivity being internalized in the cells (22% of the applied activity). Furthermore, in melanoma-bearing C57BL6 mice, tumor uptake values of 3.39+/-0.50 %ID g(-1) and 3.21+/-0.26 %ID g(-1) at 1 and 4 h postinjection, respectively, were observed indicating a good retention of 4b in the tumor.

Amino acids labeled with [99mTc(CO)3]+ and recognized by the L-type amino acid transporter LAT1.

We have synthesized amino acids conjugated at the alpha-carbon through an alkyl spacer to a small tripod ligand. The tripod coordinates to the fac-[M(CO)3]+ moiety (M = Re, 99mTc). Depending on the lengths of the spacers, these metal complexes with pendent alpha-amino acids are recognized and transported by the l-type amino acid transporter LAT1. The best result was achieved with a butyl spacer. The Ki value of the corresponding complex is comparable to that of the artificial amino acid BCH. Efflux of [3H]-l-phenylalanine shows that the labeled amino acids do not only bind to the transporter but are transported into the cells. These are the first metal-labeled small molecules which are actively internalized to the intracellular space.

Stable isotope analysis reveals differential effects of soil nitrogen and nitrogen dioxide on the water use efficiency in hybrid poplar leaves.

• The effects of nitrogen dioxide (NO2 ) exposure are reported on the physiology, morphology and carbon partitioning of hybrid poplar clone cuttings (Populus ×euramericana) grown under high and low soil nitrogen supply. • Plants were exposed to filtered air or NO2 -enriched air (80-135 nl l-1 ) over 12 wk growth in phytotrons. Stable isotope analysis, combined with CO2 and H2 O gas exchange measurements, biomass analysis and morphological development, was used to assess the integrated long-term effects of NO2 . • NO2 had no toxic effects. A reduced 15 N-isotope ratio indicated incorporation of NO2 while nitrate reductase activity in leaves was stimulated. The two nitrogen sources had differential effects on water use efficiency (WUE): NO2 exposure increased long-term WUE; soil N supply decreased WUE; a result not detectable using growth and short-term gas exchange experiments. Plants benefited from airborne NO2 , increasing CO2 assimilation rate and biomass; both N sources increased shoot production at the expense of root growth. NO2 exposure induced leaf formation with reduced stomatal density and increased leaf area. • NO2 exposure might be beneficial although the reduced root: shoot biomass could have a detrimental effect on nutrient balance and drought resistance.