1. Academic Validation
  2. Fosmetpantotenate (RE-024), a phosphopantothenate replacement therapy for pantothenate kinase-associated neurodegeneration: Mechanism of action and efficacy in nonclinical models

Fosmetpantotenate (RE-024), a phosphopantothenate replacement therapy for pantothenate kinase-associated neurodegeneration: Mechanism of action and efficacy in nonclinical models

  • PLoS One. 2018 Mar 9;13(3):e0192028. doi: 10.1371/journal.pone.0192028.
Daniel Elbaum 1 Maria G Beconi 1 Edith Monteagudo 2 Annalise Di Marco 3 Maria S Quinton 1 Kathryn A Lyons 4 Andrew Vaino 1 Steven Harper 5
Affiliations

Affiliations

  • 1 Research and Development, Retrophin Inc., Cambridge, Massachusetts, United States of America.
  • 2 Preclinical Research, IRBM Science Park SpA, Pomezia, Rome, Italy.
  • 3 In-vitro Pharmacology, IRBM Science Park SpA, Pomezia, Rome, Italy.
  • 4 Independent consultant, Holland, New York, United States of America.
  • 5 Medicinal Chemistry, IRBM Science Park SpA, Pomezia, Rome, Italy.
Abstract

In cells, phosphorylation of pantothenic acid to generate phosphopantothenic acid by the pantothenate kinase Enzymes is the first step in coenzyme A synthesis. Pantothenate kinase 2, the isoform localized in neuronal cell mitochondria, is dysfunctional in patients with pantothenate kinase-associated neurodegeneration. Fosmetpantotenate is a phosphopantothenic acid prodrug in clinical development for treatment of pantothenate kinase-associated neurodegeneration, which aims to replenish phosphopantothenic acid in patients. Fosmetpantotenate restored coenzyme A in short-hairpin RNA pantothenate kinase 2 gene-silenced neuroblastoma cells and was permeable in a blood-brain barrier model. The rate of fosmetpantotenate metabolism in blood is species-dependent. Following up to 700 mg/kg orally, blood exposure to fosmetpantotenate was negligible in rat and mouse, but measurable in monkey. Consistent with the difference in whole blood half-life, fosmetpantotenate dosed orally was found in the brains of the monkey (striatal dialysate) but was absent in mice. Following administration of isotopically labeled-fosmetpantotenate to mice, ~40% of liver coenzyme A (after 500 mg/kg orally) and ~50% of brain coenzyme A (after 125 μg intrastriatally) originated from isotopically labeled-fosmetpantotenate. Additionally, 10-day dosing of isotopically labeled-fosmetpantotenate, 12.5 μg, intracerebroventricularly in mice led to ~30% of brain coenzyme A containing the stable isotopic labels. This work supports the hypothesis that fosmetpantotenate acts to replace reduced phosphopantothenic acid in pantothenate kinase 2-deficient tissues.

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