Abnormal activity of various N-methyl-d-aspartate receptor (NMDAR) subtypes has been implicated in a wide variety of neurological disorders such as Alzheimer's disease, schizophrenia, and epilepsy. Imaging agents for PET and SPECT that target NMDARs in a subtype-selective fashion may enable better characterization of those disorders and enhance drug development. On the basis of a pyrazoline derivative that demonstrated neuroprotective effects in vivo, we synthesized a series of para-substituted analogues and measured their affinities to various NMDAR subtypes. Compounds 4a-c and 4e showed greater, nanomolar affinity for the GluN1/2A subtype versus GluN1/2B. Dicarbomethoxy (pro-drug) analogues of [(124/125)I]4d and [(11)C]4e (i.e., [(124/125)I]11d and [(11)C]11e) were generated and tested for NMDAR binding specificity in ex vivo autoradiography and brain biodistribution studies. Although NMDAR-specific binding could be demonstrated for [(125)I]11d and [(11)C]11e through autoradiography and biodistribution studies, imaging of neither [(124)I]11d nor [(11)C]11e could demonstrate brain penetration sufficient for detection by PET.
Development of Radiolabeled Ligands Targeting the Glutamate Binding Site of the N-Methyl-d-aspartate Receptor as Potential Imaging Agents for Brain / L. Tamborini, Y. Chen, C.A. Foss, A. Pinto, A.G. Horti, S.F. Traynelis, C. De Micheli, R.C. Mease, K.B. Hansen, P. Conti, M.G. Pomper. - In: JOURNAL OF MEDICINAL CHEMISTRY. - ISSN 0022-2623. - 59:24(2016 Dec 22), pp. 11110-11119. [10.1021/acs.jmedchem.6b01344]
Development of Radiolabeled Ligands Targeting the Glutamate Binding Site of the N-Methyl-d-aspartate Receptor as Potential Imaging Agents for Brain
L. TamboriniPrimo
;A. Pinto;C. De Micheli;P. ContiPenultimo
;
2016
Abstract
Abnormal activity of various N-methyl-d-aspartate receptor (NMDAR) subtypes has been implicated in a wide variety of neurological disorders such as Alzheimer's disease, schizophrenia, and epilepsy. Imaging agents for PET and SPECT that target NMDARs in a subtype-selective fashion may enable better characterization of those disorders and enhance drug development. On the basis of a pyrazoline derivative that demonstrated neuroprotective effects in vivo, we synthesized a series of para-substituted analogues and measured their affinities to various NMDAR subtypes. Compounds 4a-c and 4e showed greater, nanomolar affinity for the GluN1/2A subtype versus GluN1/2B. Dicarbomethoxy (pro-drug) analogues of [(124/125)I]4d and [(11)C]4e (i.e., [(124/125)I]11d and [(11)C]11e) were generated and tested for NMDAR binding specificity in ex vivo autoradiography and brain biodistribution studies. Although NMDAR-specific binding could be demonstrated for [(125)I]11d and [(11)C]11e through autoradiography and biodistribution studies, imaging of neither [(124)I]11d nor [(11)C]11e could demonstrate brain penetration sufficient for detection by PET.
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J. Med. Chem. 2016.pdf
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