Inhibition of carnitine palmitoyl-transferase 1 is a potential target in a mouse model of Parkinson’s disease

Author:

Trabjerg Michael SlothORCID,Andersen Dennis Christian,Huntjens Pam,Mørk Kasper,Warming NikolajORCID,Kullab Ulla Bismark,Skjønnemand Marie-Louise Nibelius,Oklinski Michal Krystian,Oklinski Kirsten Egelund,Bolther Luise,Kroese Lona J.,Pritchard Colin E. J.ORCID,Huijbers Ivo J.ORCID,Corthals AngeliqueORCID,Søndergaard Mads ToftORCID,Kjeldal Henrik Bech,Pedersen Cecilie Fjord MorreORCID,Nieland John Dirk VestergaardORCID

Abstract

AbstractGlucose metabolism is dysregulated in Parkinson’s disease (PD) causing a shift toward the metabolism of lipids. Carnitine palmitoyl-transferase 1A (CPT1A) regulates the key step in the metabolism of long-chain fatty acids. The aim of this study is to evaluate the effect of downregulating CPT1, either genetically with a Cpt1a P479L mutation or medicinally on PD using chronic rotenone mouse models using C57Bl/6J and Park2 knockout mice. We show that Cpt1a P479L mutant mice are resistant to rotenone-induced PD, and that inhibition of CPT1 is capable of restoring neurological function, normal glucose metabolism, and alleviate markers of PD in the midbrain. Furthermore, we show that downregulation of lipid metabolism via CPT1 alleviates pathological motor and non-motor behavior, oxidative stress, and disrupted glucose homeostasis in Park2 knockout mice. Finally, we confirm that rotenone induces gut dysbiosis in C57Bl/6J and, for the first time, in Park2 knockout mice. We show that this dysbiosis is alleviated by the downregulation of the lipid metabolism via CPT1.

Funder

Gangstedfonden

Svend Andersen Fonden

Publisher

Springer Science and Business Media LLC

Subject

Cellular and Molecular Neuroscience,Neurology (clinical),Neurology

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