Molecular Imaging Branch, National Institute of Mental Health, National Institutes of Health, Bethesda, Maryland; and.
Department of Psychiatry and Behavioral Health, Stony Brook University School of Medicine, Stony Brook, New York.
J Nucl Med. 2023 Jan;64(1):159-164. doi: 10.2967/jnumed.122.264061. Epub 2022 Jul 7.
Both cyclooxygenase-1 (COX-1) and cyclooxygenase-2 (COX-2) convert arachidonic acid to prostaglandin H, which has proinflammatory effects. The recently developed PET radioligand C-PS13 has excellent in vivo selectivity for COX-1 over COX-2 in nonhuman primates. This study sought to evaluate the selectivity of C-PS13 binding to COX-1 in humans and assess the utility of C-PS13 to measure the in vivo potency of nonsteroidal antiinflammatory drugs. Baseline C-PS13 whole-body PET scans were obtained for 26 healthy volunteers, followed by blocked scans with ketoprofen ( = 8), celecoxib ( = 8), or aspirin ( = 8). Ketoprofen is a highly potent and selective COX-1 inhibitor, celecoxib is a preferential COX-2 inhibitor, and aspirin is a selective COX-1 inhibitor with a distinct mechanism that irreversibly inhibits substrate binding. Because blood cells, including platelets and white blood cells, also contain COX-1, C-PS13 uptake inhibition from blood cells was measured in vitro and ex vivo (i.e., using blood obtained during PET scanning). High C-PS13 uptake was observed in major organs with high COX-1 density, including the spleen, lungs, kidneys, and gastrointestinal tract. Ketoprofen (1-75 mg orally) blocked uptake in these organs far more effectively than did celecoxib (100-400 mg orally). On the basis of the plasma concentration to inhibit 50% of the maximum radioligand binding in the spleen (in vivo ), ketoprofen (<0.24 μM) was more than 10-fold more potent than celecoxib (>2.5 μM) as a COX-1 inhibitor, consistent with the in vitro potencies of these drugs for inhibiting COX-1. Blockade of C-PS13 uptake from blood cells acquired during the PET scans mirrored that in organs of the body. Aspirin (972-1,950 mg orally) blocked such a small percentage of uptake that its in vivo could not be determined. C-PS13 selectively binds to COX-1 in humans and can measure the in vivo potency of nonsteroidal antiinflammatory drugs that competitively inhibit arachidonic acid binding to COX-1. These in vivo studies, which reflect the net effect of drug absorption and metabolism in all organs of the body, demonstrated that ketoprofen had unexpectedly high potency, that celecoxib substantially inhibited COX-1, and that aspirin acetylation of COX-1 did not block binding of the representative nonsteroidal inhibitor C-PS13.
环氧化酶-1(COX-1)和环氧化酶-2(COX-2)均可将花生四烯酸转化为前列腺素 H,从而产生促炎作用。最近开发的 PET 放射性配体 C-PS13 在非人类灵长类动物中对 COX-1 具有优异的体内选择性,而对 COX-2 则没有选择性。本研究旨在评估 C-PS13 与人类 COX-1 结合的选择性,并评估 C-PS13 测量非甾体抗炎药体内效力的效用。 为 26 名健康志愿者获得了基线 C-PS13 全身 PET 扫描,随后用酮洛芬(= 8)、塞来昔布(= 8)或阿司匹林(= 8)进行了阻断扫描。酮洛芬是一种高选择性和高选择性的 COX-1 抑制剂,塞来昔布是一种选择性 COX-2 抑制剂,而阿司匹林则是一种选择性 COX-1 抑制剂,其作用机制独特,可不可逆地抑制底物结合。由于血细胞(包括血小板和白细胞)也含有 COX-1,因此还在体外和离体(即在 PET 扫描期间获得的血液)中测量了 C-PS13 对血细胞摄取的抑制作用。 在含有高 COX-1 密度的主要器官中观察到高 C-PS13 摄取,包括脾脏、肺、肾脏和胃肠道。酮洛芬(1-75 mg 口服)比塞来昔布(100-400 mg 口服)更有效地阻断这些器官的摄取。基于抑制脾脏中最大放射性配体结合的 50%的血浆浓度(体内),酮洛芬(<0.24 μM)作为 COX-1 抑制剂的效力比塞来昔布(>2.5 μM)高 10 倍以上,与这些药物在体外抑制 COX-1 的效力一致。在 PET 扫描期间从血液中获得的 C-PS13 摄取的阻断与身体器官中的阻断相吻合。阿司匹林(972-1950 mg 口服)阻断了摄取的比例很小,以至于无法确定其体内作用。 C-PS13 在人体内选择性地与 COX-1 结合,并可测量竞争性抑制花生四烯酸与 COX-1 结合的非甾体抗炎药的体内效力。这些体内研究反映了全身所有器官中药物吸收和代谢的净效应,表明酮洛芬具有出人意料的高效力,塞来昔布明显抑制了 COX-1,而阿司匹林对 COX-1 的乙酰化并未阻止代表性非甾体抑制剂 C-PS13 的结合。
