Integrated analyses of microbiome and longitudinal metabolome data reveal microbial-host interactions on sulfur metabolism in Parkinson's disease.
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Date
2019-11-12Author
Hertel, Johannes
Harms, Amy C.
Heinken, Almut
Baldini, Federico
Thinnes, Cyrille C
Glaab, Enrico
Vasco, Daniel A.
Pietzner, Maik
Stewart, Isobel D.
Wareham, Nicholas J.
Langenberg, Claudia
Trenkwalder, Claudia
Krüger, Rejko
Hankemeier, Thomas
Fleming, Ronan M. T.
Mollenhauer, Brit
Thiele, Ines
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Hertel, Johannes, Harms, Amy C., Heinken, Almut, Baldini, Federico, Thinnes, Cyrille C., Glaab, Enrico, Vasco, Daniel A., Pietzner, Maik, Stewart, Isobel D.,Wareham, Nicholas J.,Langenberg, Claudia, Trenkwalder, Claudia, Krüger, Rejko, Hankemeier, Thomas, Fleming, Ronan M. T., Mollenhauer, Brit, Thiele, Ines. (2019). Integrated Analyses of Microbiome and Longitudinal Metabolome Data Reveal Microbial-Host Interactions on Sulfur Metabolism in Parkinson’s Disease. Cell Reports, 29(7), 1767-1777.e1768. doi: https://doi.org/10.1016/j.celrep.2019.10.035
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Abstract
Parkinson's disease (PD) exhibits systemic effects on the human metabolism, with emerging roles for the gut microbiome. Here, we integrate longitudinal metabolome data from 30 drug-naive, de novo PD patients and 30 matched controls with constraint-based modeling of gut microbial communities derived from an independent, drug-naive PD cohort, and prospective data from the general population. Our key results are (1) longitudinal trajectory of metabolites associated with the interconversion of methionine and cysteine via cystathionine differed between PD patients and controls; (2) dopaminergic medication showed strong lipidomic signatures; (3) taurine-conjugated bile acids correlated with the severity of motor symptoms, while low levels of sulfated taurolithocholate were associated with PD incidence in the general population; and (4) computational modeling predicted changes in sulfur metabolism, driven by A. muciniphila and B. wadsworthia, which is consistent with the changed metabolome. The multi-omics integration reveals PD-specific patterns in microbial-host sulfur co-metabolism that may contribute to PD severity.
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