Abstract
SummaryX-linked adrenoleukodystrophy (X-ALD) is a rare, genetic disease in which increased very long chain fatty acids (VLCFAs) in the central nervous system (CNS) cause demyelination and axonal degeneration, leading to severe neurological deficits. Sobetirome, a potent thyroid hormone agonist, has been shown to lower VLCFA levels in the periphery and CNS. In this study, two pharmacological strategies for enhancing the effects of thyromimetics were tested in Abcd1 KO mice, a murine model that has the same inborn error in metabolism as X-ALD patients. First, a sobetirome prodrug (Sob-AM2) with increased CNS penetration lowered CNS VLCFAs more potently than sobetirome, and was better tolerated with lower peripheral exposure, but was unable to unable to break the efficacy threshold of CNS VLCFA lowering in Abcd1 KO mice. Second, co-administration of thyroid hormone with sobetirome enhanced VLCFA lowering in the periphery compared to sobetirome alone but did not produce greater lowering in the CNS. These data suggest that the extent of CNS VLCFA lowering in Abcd1 KO mice is limited by a mechanistic threshold related to slow turnover kinetics, potentially related to the lack of frank X-ALD disease in this model. However, Sob-AM2 has improved potency at correcting the lipid abnormality associated with X-ALD in the CNS with better tolerance than the parent drug sobetirome.
Publisher
Cold Spring Harbor Laboratory