Synthesis and preliminary evaluation of (S)-[C-11]-exaprolol, a novel beta-adrenoceptor ligand for PET

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Abstract

Positron-emitting beta-adrenoceptor ligands for the CNS could allow determination of changes in P-adrenoceptor availability after treatment of patients with norepinephrine reuptake inhibitors or tricyclic antidepressants, and differential diagnosis between multiple sclerosis and other brain disorders in an early stage of the disease. No ligands suitable for this purpose are available for human use. In order to prepare a tracer for human studies, we labeled the biologically active enantiomer of the beta-blocker exaprolol with C-11. Exaprolol has the appropriate lipophilicity (log P + 1.6) for entry of the CNS and is claimed to be a very potent beta-adrenenoceptor antagonist. (S)-Desisopropyl-exaprolol was synthesized by reaction of 2-hexylphenol with (S)-glycidyl-nosylate followed by ring opening using ammonia gas. The desisopropyl precursor was reacted with C-11-acetone in methanol to produce (S)-[C-11]-exaprolol. Radiochemical purification was performed with RP-HPLC and was followed by Sep-Pak formulation. The labeled product was i.v. injected into male Wistar rats. Brain images were acquired using a microPET Focus 220 and the biodistribution of C-11 was assessed. The radiochemical yield of (S)-[C-11]-exaprolol was 7% with a total synthesis time of 30 min. Specific activities were >10 GBq/mu mol. Brain uptake of the tracer reached a maximum after 15 min. Standardized uptake values were moderate (0.5-0.9) but sufficient for imaging. However, beta-blockade (propranolol, 2.5 mg/kg body weight) did not lower tracer uptake in any CNS region and washout from the brain was not accelerated when propranolol was administered 40 min after injection of (S)-[C-11]-exaprolol. Tracer binding in lung, spleen and erythrocytes was lowered after beta-blockade, but the myocardial uptake of radioactivity was not affected. These data indicate that (S)-[C-11]-exaprolol is not a suitable P-adrenoceptor ligand for PET, probably because the in vivo affinity of exaprolol to beta-adrenoceptors is in the nM rather than the sub-nM range. The observed inhibition of tracer uptake in lung, spleen and erythrocytes seems due to an interaction of propranolol with amine transporters rather than beta-adrenoceptors. (C) 2007 Elsevier Ltd. All rights reserved.

Original languageEnglish
Pages (from-to)729-733
Number of pages5
JournalNeurochemistry International
Volume52
Issue number4-5
DOIs
Publication statusPublished - 2008

Keywords

  • receptors, adrenergic, beta
  • positron emission tomography (PET)
  • brain
  • rats
  • ligands
  • MULTIPLE-SCLEROSIS
  • ADRENERGIC-RECEPTORS
  • DOWN-REGULATION
  • BINDING-SITES
  • RAT-BRAIN
  • LUNG
  • PROPRANOLOL
  • CARAZOLOL
  • EXAPROLOL
  • BETA-1-ADRENOCEPTORS

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