Recent advances in the synthesis of (99mTechnetium) based radio-pharmaceuticals

Technetium radionuclide (99mTc) has excellent extent of disintegration properties and occupies a special place in the field of nuclear medicinal chemistry and other health disciplines. Current review describes recent approaches of synthesis in detailed ways for radio-pharmaceuticals of technetium which have been developed to treat and diagnose the biotic disorders. These technetium labeled radio-pharmaceuticals have been established to apply in the field of diagnostic nuclear medicine especially for imaging of different body parts such as brain, heart, kidney, bones and so on, through single photon emission computed tomography (SPECT) that is thought to be difficult to image such organs by using common X-ray and MRI (Magnetic Resonance Imaging) techniques. This review highlights and accounts an inclusive study on the various synthetic routes of technetium labeled radio-pharmaceuticals using ligands with various donor atoms such as carbon, nitrogen, sulphur, phosphorus etc. These compounds can be utilized as next generation radio-pharmaceuticals.

Enhanced cytotoxicity of indenyl molybdenum(ii) compounds bearing a thiophene function

New indenyl molybdenum(ii) compounds with improved cytotoxic properties were synthesized and evaluated in lung cancer cells A549.

Cyclic-RGD penta-peptides cRGDyK derivatized with cyclopentadienyl complexes of technetium and rhenium as radiopharmaceutical probes

The present study reports the syntheses of half-sandwich complexes of the type [M(η⁵ -C₅ H₄ CONH-R)(CO)₃ ] (M═Re,^99m Tc;R═cyclic RGD peptide (cRGDyK) for potential imaging of α_v β₃ integrin expression. The ^99m Tc complex was prepared directly from the reaction of [^99m Tc(OH₂ )₃ (CO)₃ ]⁺ with cRGDyK, doubly conjugated to Thiele's acid [(C₅ H₅ COOH)₂ ] in water. This approach extends the viability of metal-mediated retro Diels-Alder reactions for the preparation of small molecules such as linear tripeptides to a more complex cyclic peptide carrying a [(η⁵ -C₅ H₄ )^99m Tc(CO)₃ ] tag. The Diels-Alder product [(C₅ H₅ CONH-cRGDyK)₂ ] was prepared from Thiele's acid via double peptide coupling. The Re-complex [Re(η⁵ -C₅ H₄ CONH-cRGDyK)(CO)₃ ] was obtained by attaching [Re(η⁵ -C₅ H₄ COOH)(CO)₃ ] directly to the N-terminus of cRGDyK. The identity of the ^99m Tc-complex is confirmed by chromatographic comparison with the corresponding rhenium complex, fully characterized by spectroscopic techniques.

Captides: rigid junctions between beta sheets and small molecules

An extensive series of covalently linked small molecule-peptide adducts based on a terminally capped-beta hairpin motif is reported. The constructs can be prepared by standard solid-phase Fmoc chemistry with one to four peptide chains linked to small molecule hubs bearing carboxylic acid moieties. The key feature of interest is the precise, buried environment of the small molecule, and its rigid orientation relative to one or more short but fully structured peptide chain(s). Most of this study employs a minimalist nine residue 'captide', a capped β-turn, but we illustrate general applicability to peptides which can terminate in a beta strand. The non-peptide portion of these adducts can include nearly any molecule bearing one or more carboxylic acid groups. Fold-dependent rigidity sets this strategy apart from the currently available bioconjugation methods, which typically engender significant flexibility between peptide and tag. Applications to catalyst enhancement, drug design, higher-order assembly, and FRET calibration rulers are discussed.