Fluids and Barriers of the CNS (Oct 2024)

[11C]Metoclopramide PET can detect a seizure-induced up-regulation of cerebral P-glycoprotein in epilepsy patients

  • Myriam El Biali,
  • Louise Breuil,
  • Matthias Jackwerth,
  • Severin Mairinger,
  • Maria Weber,
  • Michael Wölfl-Duchek,
  • Karsten Bamminger,
  • Ivo Rausch,
  • Lukas Nics,
  • Marcus Hacker,
  • Sebastian Rodrigo,
  • Viviane Bouilleret,
  • Markus Zeitlinger,
  • Ekaterina Pataraia,
  • Nicolas Tournier,
  • Martin Bauer,
  • Oliver Langer

DOI
https://doi.org/10.1186/s12987-024-00588-8
Journal volume & issue
Vol. 21, no. 1
pp. 1 – 12

Abstract

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Abstract Background P-glycoprotein (P-gp) is an efflux transporter which is abundantly expressed at the blood-brain barrier (BBB) and which has been implicated in the pathophysiology of various brain diseases. The radiolabelled antiemetic drug [11C]metoclopramide is a P-gp substrate for positron emission tomography (PET) imaging of P-gp function at the BBB. To assess whether [11C]metoclopramide can detect increased P-gp function in the human brain, we employed drug-resistant temporal lobe epilepsy (TLE) as a model disease with a well characterised, regional P-gp up-regulation at the BBB. Methods Eight patients with drug-resistant (DRE) TLE, 5 seizure-free patients with drug-sensitive (DSE) focal epilepsy, and 15 healthy subjects underwent brain PET imaging with [11C]metoclopramide on a fully-integrated PET/MRI system. Concurrent with PET, arterial blood sampling was performed to generate a metabolite-corrected arterial plasma input function for kinetic modelling. The choroid plexus was outmasked on the PET images to remove signal contamination from the neighbouring hippocampus. Using a brain atlas, 10 temporal lobe sub-regions were defined and analysed with a 1-tissue-2-rate constant compartmental model to estimate the rate constants for radiotracer transfer from plasma to brain (K 1) and from brain to plasma (k 2), and the total volume of distribution (V T = K 1/k 2). Results DRE patients but not DSE patients showed significantly higher k 2 values and a trend towards lower V T values in several temporal lobe sub-regions located ipsilateral to the epileptic focus as compared to healthy subjects (k 2: hippocampus: +34%, anterior temporal lobe, medial part: +28%, superior temporal gyrus, posterior part: +21%). Conclusions [11C]Metoclopramide PET can detect a seizure-induced P-gp up-regulation in the epileptic brain. The efflux rate constant k 2 seems to be the most sensitive parameter to measure increased P-gp function with [11C]metoclopramide. Our study provides evidence that disease-induced alterations in P-gp expression at the BBB can lead to changes in the distribution of a central nervous system-active drug to the human brain, which could affect the efficacy and/or safety of drugs. [11C]Metoclopramide PET may be used to assess or predict the contribution of increased P-gp function to drug resistance and disease pathophysiology in various brain diseases. Trial registration EudraCT 2019-003137-42. Registered 28 February 2020.

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