Neurobiology of Disease (Dec 2006)

Determinants of drug brain uptake in a rat model of seizure-associated malformations of cortical development

  • Nicola Marchi,
  • Giovanna Guiso,
  • Silvio Caccia,
  • Massimo Rizzi,
  • Barbara Gagliardi,
  • Francesco Noé,
  • Teresa Ravizza,
  • Stefania Bassanini,
  • Stefano Chimenti,
  • Giorgio Battaglia,
  • Annamaria Vezzani

Journal volume & issue
Vol. 24, no. 3
pp. 429 – 442

Abstract

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We examined the blood–brain barrier (BBB) function in methylazoxymethanol acetate (MAM)-treated rats, a model of human developmental brain malformations. We found aberrant vessels morphology and serum albumin leakage in the heterotopic (malformed) hippocampus; these changes were associated with a significant increase in endothelial P-glycoprotein (P-gp) expression. Seizures exacerbated BBB leakage and greatly augmented P-gp expression in vessels and additionally in perivascular/parenchymal astrocytes. The effects of seizures were observed to a much larger extent in malformed than in normal brain tissue. The intrinsic changes in BBB function in MAM-exposed rats were associated with increased blood-to-brain penetration of ondansetron, a P-gp substrate. However, a marked reduction in drug brain levels was provoked by seizures, and this effect was reversed by selective blockade of P-gp activity with tariquidar. Changes in BBB function may critically contribute to determine the brain uptake and distribution of P-gp substrates in epileptic tissue associated with developmental malformations.

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