Synthesis and preclinical evaluation of [11C]uPSEM792 for PSAM4-GlyR based chemogenetics

Chemogenetic tools are designed to control neuronal signaling. These tools have the potential to contribute to the understanding of neuropsychiatric disorders and to the development of new treatments. One such chemogenetic technology comprises modified Pharmacologically Selective Actuator Modules (P...

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Published in	Scientific reports Vol. 14; no. 1; pp. 1886 - 13
Main Authors	Nerella, Sridhar Goud, Telu, Sanjay, Liow, Jeih-San, Jenkins, Madeline D., Zoghbi, Sami S., Gomez, Juan L., Michaelides, Michael, Eldridge, Mark A. G., Richmond, Barry J., Innis, Robert B., Pike, Victor W.
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 22.01.2024 Nature Publishing Group Nature Portfolio
Subjects	631/378/3920 639/638/903 Blood-brain barrier Humanities and Social Sciences Iodomethane Ligands Mental disorders multidisciplinary Positron emission tomography Radioactivity Science Science (multidisciplinary) Serotonin S3 receptors
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Abstract	Chemogenetic tools are designed to control neuronal signaling. These tools have the potential to contribute to the understanding of neuropsychiatric disorders and to the development of new treatments. One such chemogenetic technology comprises modified Pharmacologically Selective Actuator Modules (PSAMs) paired with Pharmacologically Selective Effector Molecules (PSEMs). PSAMs are receptors with ligand-binding domains that have been modified to interact only with a specific small-molecule agonist, designated a PSEM. PSAM 4 is a triple mutant PSAM derived from the α7 nicotinic receptor (α7 L131G,Q139L,Y217F ). Although having no constitutive activity as a ligand-gated ion channel, PSAM 4 has been coupled to the serotonin 5-HT 3 receptor (5-HT 3 R) and to the glycine receptor (GlyR). Treatment with the partner PSEM to activate PSAM 4 -5-HT 3 or PSAM 4 -GlyR, causes neuronal activation or silencing, respectively. A suitably designed radioligand may enable selective visualization of the expression and location of PSAMs with positron emission tomography (PET). Here, we evaluated uPSEM792, an ultrapotent PSEM for PSAM 4 -GlyR, as a possible lead for PET radioligand development. We labeled uPSEM792 with the positron-emitter, carbon-11 ( t 1/2 = 20.4 min), in high radiochemical yield by treating a protected precursor with [ 11 C]iodomethane followed by base deprotection. PET experiments with [ 11 C]uPSEM792 in rodents and in a monkey transduced with PSAM 4 -GlyR showed low peak radioactivity uptake in brain. This low uptake was probably due to high polarity of the radioligand, as evidenced by physicochemical measurements, and to the vulnerability of the radioligand to efflux transport at the blood–brain barrier. These findings can inform the design of a more effective PSAM 4 based PET radioligand, based on the uPSEM792 chemotype.
AbstractList	Chemogenetic tools are designed to control neuronal signaling. These tools have the potential to contribute to the understanding of neuropsychiatric disorders and to the development of new treatments. One such chemogenetic technology comprises modified Pharmacologically Selective Actuator Modules (PSAMs) paired with Pharmacologically Selective Effector Molecules (PSEMs). PSAMs are receptors with ligand-binding domains that have been modified to interact only with a specific small-molecule agonist, designated a PSEM. PSAM 4 is a triple mutant PSAM derived from the α7 nicotinic receptor (α7 L131G,Q139L,Y217F ). Although having no constitutive activity as a ligand-gated ion channel, PSAM 4 has been coupled to the serotonin 5-HT 3 receptor (5-HT 3 R) and to the glycine receptor (GlyR). Treatment with the partner PSEM to activate PSAM 4 -5-HT 3 or PSAM 4 -GlyR, causes neuronal activation or silencing, respectively. A suitably designed radioligand may enable selective visualization of the expression and location of PSAMs with positron emission tomography (PET). Here, we evaluated uPSEM792, an ultrapotent PSEM for PSAM 4 -GlyR, as a possible lead for PET radioligand development. We labeled uPSEM792 with the positron-emitter, carbon-11 ( t 1/2 = 20.4 min), in high radiochemical yield by treating a protected precursor with [ 11 C]iodomethane followed by base deprotection. PET experiments with [ 11 C]uPSEM792 in rodents and in a monkey transduced with PSAM 4 -GlyR showed low peak radioactivity uptake in brain. This low uptake was probably due to high polarity of the radioligand, as evidenced by physicochemical measurements, and to the vulnerability of the radioligand to efflux transport at the blood–brain barrier. These findings can inform the design of a more effective PSAM 4 based PET radioligand, based on the uPSEM792 chemotype. Chemogenetic tools are designed to control neuronal signaling. These tools have the potential to contribute to the understanding of neuropsychiatric disorders and to the development of new treatments. One such chemogenetic technology comprises modified Pharmacologically Selective Actuator Modules (PSAMs) paired with Pharmacologically Selective Effector Molecules (PSEMs). PSAMs are receptors with ligand-binding domains that have been modified to interact only with a specific small-molecule agonist, designated a PSEM. PSAM4 is a triple mutant PSAM derived from the α7 nicotinic receptor (α7L131G,Q139L,Y217F). Although having no constitutive activity as a ligand-gated ion channel, PSAM4 has been coupled to the serotonin 5-HT3 receptor (5-HT3R) and to the glycine receptor (GlyR). Treatment with the partner PSEM to activate PSAM4-5-HT3 or PSAM4-GlyR, causes neuronal activation or silencing, respectively. A suitably designed radioligand may enable selective visualization of the expression and location of PSAMs with positron emission tomography (PET). Here, we evaluated uPSEM792, an ultrapotent PSEM for PSAM4-GlyR, as a possible lead for PET radioligand development. We labeled uPSEM792 with the positron-emitter, carbon-11 (t1/2 = 20.4 min), in high radiochemical yield by treating a protected precursor with [11C]iodomethane followed by base deprotection. PET experiments with [11C]uPSEM792 in rodents and in a monkey transduced with PSAM4-GlyR showed low peak radioactivity uptake in brain. This low uptake was probably due to high polarity of the radioligand, as evidenced by physicochemical measurements, and to the vulnerability of the radioligand to efflux transport at the blood–brain barrier. These findings can inform the design of a more effective PSAM4 based PET radioligand, based on the uPSEM792 chemotype. Abstract Chemogenetic tools are designed to control neuronal signaling. These tools have the potential to contribute to the understanding of neuropsychiatric disorders and to the development of new treatments. One such chemogenetic technology comprises modified Pharmacologically Selective Actuator Modules (PSAMs) paired with Pharmacologically Selective Effector Molecules (PSEMs). PSAMs are receptors with ligand-binding domains that have been modified to interact only with a specific small-molecule agonist, designated a PSEM. PSAM4 is a triple mutant PSAM derived from the α7 nicotinic receptor (α7L131G,Q139L,Y217F). Although having no constitutive activity as a ligand-gated ion channel, PSAM4 has been coupled to the serotonin 5-HT3 receptor (5-HT3R) and to the glycine receptor (GlyR). Treatment with the partner PSEM to activate PSAM4-5-HT3 or PSAM4-GlyR, causes neuronal activation or silencing, respectively. A suitably designed radioligand may enable selective visualization of the expression and location of PSAMs with positron emission tomography (PET). Here, we evaluated uPSEM792, an ultrapotent PSEM for PSAM4-GlyR, as a possible lead for PET radioligand development. We labeled uPSEM792 with the positron-emitter, carbon-11 (t 1/2 = 20.4 min), in high radiochemical yield by treating a protected precursor with [11C]iodomethane followed by base deprotection. PET experiments with [11C]uPSEM792 in rodents and in a monkey transduced with PSAM4-GlyR showed low peak radioactivity uptake in brain. This low uptake was probably due to high polarity of the radioligand, as evidenced by physicochemical measurements, and to the vulnerability of the radioligand to efflux transport at the blood–brain barrier. These findings can inform the design of a more effective PSAM4 based PET radioligand, based on the uPSEM792 chemotype.
ArticleNumber	1886
Author	Zoghbi, Sami S. Nerella, Sridhar Goud Michaelides, Michael Liow, Jeih-San Jenkins, Madeline D. Eldridge, Mark A. G. Innis, Robert B. Gomez, Juan L. Richmond, Barry J. Pike, Victor W. Telu, Sanjay
Author_xml	– sequence: 1 givenname: Sridhar Goud surname: Nerella fullname: Nerella, Sridhar Goud organization: Molecular Imaging Branch, National Institute of Mental Health, National Institutes of Health – sequence: 2 givenname: Sanjay surname: Telu fullname: Telu, Sanjay email: sanjay.telu@nih.gov organization: Molecular Imaging Branch, National Institute of Mental Health, National Institutes of Health – sequence: 3 givenname: Jeih-San surname: Liow fullname: Liow, Jeih-San organization: Molecular Imaging Branch, National Institute of Mental Health, National Institutes of Health – sequence: 4 givenname: Madeline D. surname: Jenkins fullname: Jenkins, Madeline D. organization: Molecular Imaging Branch, National Institute of Mental Health, National Institutes of Health – sequence: 5 givenname: Sami S. surname: Zoghbi fullname: Zoghbi, Sami S. organization: Molecular Imaging Branch, National Institute of Mental Health, National Institutes of Health – sequence: 6 givenname: Juan L. surname: Gomez fullname: Gomez, Juan L. organization: Biobehavioral Imaging and Molecular Neuropsychopharmacology Unit, National Institute on Drug Abuse, National Institutes of Health – sequence: 7 givenname: Michael orcidid: 0000-0003-0398-4917 surname: Michaelides fullname: Michaelides, Michael organization: Biobehavioral Imaging and Molecular Neuropsychopharmacology Unit, National Institute on Drug Abuse, National Institutes of Health – sequence: 8 givenname: Mark A. G. surname: Eldridge fullname: Eldridge, Mark A. G. organization: Laboratory of Neuropsychology, National Institute of Mental Health, National Institutes of Health – sequence: 9 givenname: Barry J. surname: Richmond fullname: Richmond, Barry J. organization: Laboratory of Neuropsychology, National Institute of Mental Health, National Institutes of Health – sequence: 10 givenname: Robert B. surname: Innis fullname: Innis, Robert B. organization: Molecular Imaging Branch, National Institute of Mental Health, National Institutes of Health – sequence: 11 givenname: Victor W. orcidid: 0000-0001-9032-2553 surname: Pike fullname: Pike, Victor W. email: pikev@mail.nih.gov organization: Molecular Imaging Branch, National Institute of Mental Health, National Institutes of Health
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Snippet	Chemogenetic tools are designed to control neuronal signaling. These tools have the potential to contribute to the understanding of neuropsychiatric disorders... Abstract Chemogenetic tools are designed to control neuronal signaling. These tools have the potential to contribute to the understanding of neuropsychiatric...
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SubjectTerms	631/378/3920 639/638/903 Blood-brain barrier Humanities and Social Sciences Iodomethane Ligands Mental disorders multidisciplinary Positron emission tomography Radioactivity Science Science (multidisciplinary) Serotonin S3 receptors
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Title	Synthesis and preclinical evaluation of [11C]uPSEM792 for PSAM4-GlyR based chemogenetics
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