Abstract
IntroductionCurrent markers of Parkinson’s disease (PD) fail to detect the early progression of disease state. Conversely, current omics techniques allow the investigation of hundreds of molecules potentially altered by disease conditions. Based on evidence previously collected by our group in a mouse model of PD, we speculated that a particular set of circulating lipids might be significantly altered by the pathology.ObjectivesThe aim of current study was to evaluate the potential of a particular set of N-acyl-phosphatidylethanolamines (NAPEs) as potential non-invasive plasma markers of ongoing neurodegeneration from Parkinson’s disease in human subjects.MethodsA panel of seven NAPEs were quantified by LC–MS/MS in the plasma of 587 individuals (healthy controls, n = 319; Parkinson’s disease, n = 268); Random Forest classification and statistical modeling was applied to compare Parkinson’s disease versus controls. All p-values obtained in different tests were corrected for multiplicity by controlling the false discovery rate (FDR).ResultsThe results indicate that this panel of NAPEs is able to distinguish female PD patients from the corresponding healthy controls. Further to this, the observed downregulation of these NAPEs is in line with the results in plasma of a mouse model of Parkinson’s (6-OHDA).ConclusionsIn the current study we have shown the downregulation of NAPEs in plasma of PD patients and we thus speculate that these lipids might serve as candidate biomarkers for PD. We also suggest a molecular mechanism, explaining our findings, which involves gut microbiota.
Highlights
Current markers of Parkinson’s disease (PD) fail to detect the early progression of disease state
While testing a new setup for untargeted lipidomics, we found that in a mouse model of PD, i.e. the striatal injection of 6 hydroxydopamine (6-OHDA), there is a strong upregulation of seven polyunsaturated phospholipids in the dorsal striatum as early as 48 h from disease induction (Basit et al 2016)
We observed a general trend for downregulation of these lipids in the 6-OHDA animals, with two NAPEs (16:0-22:6-N18:0 and 18:0-22:6-N16:0) being highly significantly downregulated in the plasma of 6-OHDA treated animals compared to the sham animals
Summary
Current markers of Parkinson’s disease (PD) fail to detect the early progression of disease state. Objectives The aim of current study was to evaluate the potential of a particular set of N-acyl-phosphatidylethanolamines (NAPEs) as potential non-invasive plasma markers of ongoing neurodegeneration from Parkinson’s disease in human subjects. No validated PD molecular biomarkers are currently available for the clinical practice, many have been proposed (Bolner et al 2016; Gabriel et al 2017; Pan et al 2014; Peran et al 2010). From this perspective, it would be highly beneficial to identify circulating molecules, easy to measure with a simple blood
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