- Silver(I)-catalyzed iodination of arenes: Tuning the lewis acidity of N-iodosuccinimide activation
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A mild and rapid method for the iodination of arenes that utilizes silver(I) triflimide as a catalyst for activation of N-iodosuccinimide has been developed. The transformation was found to be general for a wide range of anisole, aniline, acetanilide, and phenol derivatives and allowed the late-stage iodination of biologically active compounds such as PIMBA, a SPECT imaging agent of breast cancer, and (a?)-IBZM, a dopamine D2 receptor antagonist. The method was also modified for the radioiodination of arenes using a one-pot procedure involving the in situ generation of [125I]-N-iodosuccinimide followed by the silver(I)-catalyzed iodination.
- Racys, Daugirdas T.,Sharif, Salaheddin A. I.,Pimlott, Sally L.,Sutherland, Andrew
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p. 772 - 780
(2016/02/18)
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- Highly Regioselective Iodination of Arenes via Iron(III)-Catalyzed Activation of N-Iodosuccinimide
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An iron(III)-catalyzed method for the rapid and highly regioselective iodination of arenes has been developed. Use of the powerful Lewis acid, iron(III) triflimide, generated in situ from iron(III) chloride and a readily available triflimide-based ionic liquid allowed activation of N-iodosuccinimide (NIS) and efficient iodination under mild conditions of a wide range of substrates including biologically active compounds and molecular imaging agents.
- Racys, Daugirdas T.,Warrilow, Catherine E.,Pimlott, Sally L.,Sutherland, Andrew
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p. 4782 - 4785
(2015/10/12)
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- RADIOTRACER PRECURSOR AND METHOD FOR PREPARING THE SAME
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A precursor SnBZM for a dopamine receptor radiotracer and a method for preparing the same are revealed. The precursor includes a tributyltin group (Bu3Sn) that is easy to be replaced. Thus a dopamine receptor radiotracer 123I-IBZM ca
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Paragraph 0042; 0043; 0044
(2014/03/25)
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- Dopamine D-2 receptor imaging radiopharmaceuticals: Synthesis, radiolabeling, and in vitro binding of (R)-(+)- and (S)-(-)-3-iodo-2-hydroxy-6 methoxy-N-[(1-ethyl-2-pyrrolidinyl)methyl]benzamide
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In developing central nervous system (CNS) dopamine D-2 receptor imaging agents, enantiomers, R-(+) and S-(-) isomers, of 3-[125I]iodo-2-hydroxy-6-methoxy-N-[(1-ethyl-2-pyrrolidinyl)methyl]d benzamide, [125I]IBZM, were synthesized, and their in vitro binding characteristics were evaluated in rat striatum tissue preparation. The (S)-(-)-[125I]IBZM showed high specific dopamine D-2 receptor binding (K(d) = 0.43 nM, B(max) = 0.48 pmol/mg of protein). Competition data of various ligands for IBZM binding displayed the following rank order of potency: spiperone > (S)-(-)-IBZM > (+)-butaclamol >> (R)-(+)-IBZM > (S)-(-)-BZM > dopamine > ketanserin > SCH23390 >> propranolol. The results indicate that [125I]IBZM binds specifically to the dopamine D-2 receptor with stereospecificity. The [123I][IBZM is potentially useful as an imaging agent for the investigation of dopamine D-2 receptors in humans.
- Kung,Kasliwal,Pan,Kung,Mach,Guo
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p. 1039 - 1043
(2007/10/02)
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- Potential neuroleptic agents. 3. Chemistry and antidopaminergic properties of substituted 6-methoxysalicylamides
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A series of substituted 6-methoxysalicylamides were synthesized from their corresponding 2,6-dimethoxybenzamides by demethylation of one methoxy group with boron tribromide. Substituted 6-methoxysalicylamides having a lipophilic aromatic substituent in the 3-position para with respect to the methoxy group, e.g. a bromo or an iodo atom or an ethyl or a propyl group, and having an (S)-N-(1-alkyl-2-pyrrolidinyl)methyl moiety as the side chain were found to be potent blockers of [3H]spiperone binding in vitro and potent inhibitors of the apomorphine syndrome in the rat. Similar to remoxipride but in contrast to haloperidol, some of the substituted salicylamides show a 10-20 fold separation between the dose that inhibits hyperactivity and that which inhibits stereotypy. It was concluded that, besides the requirement of a lipophilic substitutent in the position para to the methoxy group for antidopamine activity in vivo, the formation of a coplanar six-membered pseudoring involving the amide moiety and the methoxy group is a structural requirement for activity in vitro.
- de Paulis,Kumar,Johansson,Raemsby,Florvall,Hall,Angeby-Moeller,Ogren
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p. 1263 - 1269
(2007/10/02)
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