PT  - JOURNAL ARTICLE
AU  - Dick, Rachel
AU  - Cai, Lisheng
AU  - Yan, Xuefeng
AU  - Liow, Jeih-San
AU  - Morse, Cheryl
AU  - Zoghbi, Sami
AU  - Frankland, Michael
AU  - Gladding, Robert
AU  - Pike, Victor
AU  - Innis, Robert
TI  - &lt;strong&gt; &lt;/strong&gt;PET imaging of [&lt;sup&gt;11&lt;/sup&gt;C](R)(-)NR2B-Me, a novel radioligand for the NR2B subunit of the NMDA receptor, in rhesus macaques&lt;strong&gt; &lt;/strong&gt;
DP  - 2019 May 01
TA  - Journal of Nuclear Medicine
PG  - 115--115
VI  - 60
IP  - supplement 1
4099  - http://jnm.snmjournals.org/content/60/supplement_1/115.short
4100  - http://jnm.snmjournals.org/content/60/supplement_1/115.full
SO  - J Nucl Med2019 May 01; 60
AB  - 115Objectives: The NR2B subunit of the N-methyl-D-aspartate (NMDA) receptor is a potential therapeutic target in major depressive disorder, chronic pain, and other nervous system diseases. NR2B antagonists are thought to reduce glutamatergic signaling with fewer side effects than ion channel binding agents. However, previous attempts to develop NR2B radioligands have yielded compounds with high nonspecific binding, including possible binding to the sigma-1 receptor, high test-retest variability, and rapid metabolism. We recently developed a novel PET radioligand, [11C](R)(-)NR2B-Me, for imaging NR2B. Initial rodent studies have demonstrated a favorable pharmacokinetic profile, including extensive brain penetration, high specific binding, and low radiometabolism. In this study, we performed a kinetic evaluation of [11C](R)(-)NR2B-Me in rhesus macaques. Methods: 2 anaesthetized male monkeys underwent 4 dynamic PET scans at baseline and 3 scans after administration of one of three blockers: the cold parent compound; Co 101244, an NR2B antagonist (0.25 mg/kg); or FTC146, a sigma-1 antagonist (0.25 mg/kg). All imaging was conducted on a microPET Focus 220 scanner. Arterial blood samples were collected throughout the scan for the metabolite-corrected input function. Images were co-registered to an MRI template and a set of predefined volumes of interest were applied to generate regional brain time activity curves. Distribution volume (VT) was calculated using a two-tissue compartment model using PMOD software (v3.9). Blocking effect and non-displaceable binding potential (BPND) were determined via Lassen plot and normalized by the free plasma concentration (fP). Results: [11C](R)(-)NR2B-Me readily entered the brain, with good distribution across all regions (average baseline whole brain VT = 29.1). The amygdala and hippocampus showed the highest uptake, reflecting regional differences in NR2B distribution. Co 101244 produced a blocking effect of 96%, indicating that [11C](R)(-)NR2B-Me has high specific binding (non-displaceable distribution volume (VND) = 12.42, BPND = 1.6). A similar blocking effect of 93% was obtained after administration of the cold parent compound (VND = 13.65, BPND = 1.3). FTC146 produced a minimal blocking effect, which demonstrates that the radioligand likely has low affinity for sigma-1 receptors and therefore reduced off-target binding. [11C](R)(-)NR2B-Me showed strong time stability 80 minutes post-injection and slow washout in the baseline condition. Conclusions: Taken together, the high [11C](R)(-)NR2B-Me brain uptake, near-complete blockade by NR2B antagonists, and good time stability indicate that this radioligand is suitable for imaging NR2B distribution in the brain. Human NR2B studies are planned.