Development and biological evaluation of ⁹⁹mTc-sulfonamide derivatives for in vivo visualization of CA IX as surrogate tumor hypoxia markers.

In vivo visualization of tumor hypoxia related markers, such as the endogenous transmembrane protein CA IX may lead to novel therapeutic and diagnostic applications in the management of solid tumors. In this study 4-(2-aminoethyl)benzene sulfonamide (AEBS, K(i) = 33 nM for CA IX) has been conjugated with bis(aminoethanethiol) (BAT) and mercaptoacetyldiglycine (MAG2) tetradendate ligands and the conjugates radiolabelled with (99m)Tc, to obtain anionic and neutral (99m)Tc-labeled sulfonamide derivatives, respectively. The corresponding rhenium analogues were also prepared and showed good inhibitory activities against hCA IX (K(i) = 59-66 nM).

Synthesis and biological evaluation of 68Ga-bis-DOTA-PA as a potential agent for positron emission tomography imaging of necrosis.

Introduction: Necrosis is a form of cell death that occurs in a variety of pathological conditions but can also be the result of therapy in cancer treatment. A radiotracer that could image necrotic cell death using PET could therefore be a useful tool to provide relevant information on the disease activity or therapeutic efficacy and assist in diagnosis and therapy management of several disorders. Pamoic acid derivatives have previously been reported to show a selective uptake in tissue undergoing cellular death via necrosis.

Preclinical evaluation of carbon-11 and fluorine-18 sulfonamide derivatives for in vivo radiolabeling of erythrocytes.

Background: To date, few PET tracers for in vivo labeling of red blood cells (RBCs) are available. In this study, we report the radiosynthesis and in vitro and in vivo evaluation of 11C and 18F sulfonamide derivatives targeting carbonic anhydrase II (CA II), a metallo-enzyme expressed in RBCs, as potential blood pool tracers. A proof-of-concept in vivo imaging study was performed to demonstrate the feasibility to assess cardiac function and volumes using electrocardiogram (ECG)-gated positron emission tomography (PET) acquisition in comparison with cine magnetic resonance imaging (cMRI) in rats and a pig model of myocardial infarction.

Synthesis and biological evaluation of a 99mTc-labelled sulfonamide conjugate for in vivo visualization of carbonic anhydrase IX expression in tumor hypoxia.

Introduction: Carbonic anhydrase (CA) IX is a transmembrane protein overexpressed in many frequently occurring tumors associated with tumor hypoxia. Sulfonamides and their bioisosteres are known to inhibit CA IX activity. In this study, 4-(2-aminoethyl)benzenesulfonamide was conjugated to a tridentate ligand, N-2-picolyl-N-acetic acid and labeled with a (99m)Tc(I)-tricarbonyl moiety resulting in [(99m)Tc(CO)(3) (L)] (L=N-(pyridin-2-yl-methyl)-N[2-(4-sulfamoylphenyl)-ethyl]aminoethyl acetate) complex, [(99m)Tc]-5.

Evaluation of (99m)Tc-labeled tropanes with alkyl substituents on the 3beta-phenyl ring as potential dopamine transporter tracers.

Technetium(V)-oxo-3beta-(4-chlorophenyl)-8-methyl-8-azabicyclo[3.2.1]oct-2-yl[N-(2-mercaptoethyl), N-(N'-(2-mercaptoethyl)-2-aminoethyl)]-aminomethyl ((99m)Tc-TRODAT-1) and three derivatives with one or two substituents on the 3beta-phenyl ring (4-methylphenyl, 4-ethylphenyl and 2,4-dimethylphenyl) were prepared and evaluated as potential imaging agents for the central nervous dopamine transporter (DAT).

Biological evaluation of a technetium-99m-labeled integrated tropane-BAT and its piperidine congener as potential dopamine transporter imaging agents.

Introduction: Recently, we have reported modification of (99m)Tc-TRODAT-1 by integrating the N2S2 metal chelating unit and the tropane skeleton. Results of a preliminary biodistribution study in rats were promising with respect to brain uptake. The present report deals with the further biological characterization of the (99m)Tc-labelled integrated TRODAT derivatives ((99m)Tc-TropaBAT and (99m)Tc-norchloro-TropaBAT) and with the synthesis and biological evaluation of a novel (99m)Tc-labelled piperidine-based derivative ((99m)Tc-PipBAT).

Synthesis and biological evaluation of a technetium-99m(I)-tricarbonyl-labelled phenyltropane derivative.

A new tropane derivative was synthesized by combining a tridentate ligand, N-(2-picolylamine)-N-acetic acid (2-PAA), and a phenyltropane derivative. It was labelled with a [(99m)Tc(CO)(3)](+) moiety, resulting in the formation of two stable and neutral lipophilic isomers. Their identity was confirmed using radio-LC-MS.

Development and biological evaluation of 99mTc-BAT-tropane esters.

Two (99m)Tc-BAT-tropane conjugates, i.e., technetium(V)-oxo-3-[N-(2-mercaptoethyl), N-(N'-(2-mercaptoethyl)-2-aminoethyl)]-aminopropyl 3beta-(4-chlorophenyl)-8-methyl-8-azabicyclo [3.

Technetium-99m labelled integrated tropane-BAT as a potential dopamine transporter tracer.

To reduce the molecular weight of 99mTc-labelled tropanes with the aim to enhance the passage over the blood-brain barrier, a so-called integrated tropane-BAT construct was developed. For this purpose a mercaptoethyl substituent was attached to the amine nitrogen atom of a nortropane precursor and the methyl carboxylate in 2beta-position was converted to a 2-mercaptoethylaminomethylene substituent. This integrated tropane-BAT construct could be labelled efficiently (85-90%) with technetium-99m.