AI Article Synopsis
- Schizophrenia's molecular mechanisms remain unclear despite extensive studies in proteomics, metabolomics, and genome-wide associations; combining these advanced data can improve understanding of its pathogenesis.
- In this study, researchers identified 20 proteins, many of which are new to schizophrenia, and 18 metabolite compounds linking to steroid and tyrosine transformations, underscoring their role in the disorder.
- The integration of proteomic, metabolomic, and genomic data highlighted key factors like lipid transport, oxidative stress, and hormonal imbalances as crucial interconnected elements influencing schizophrenia pathology.
Article Abstract
Despite of multiple systematic studies of schizophrenia based on proteomics, metabolomics, and genome-wide significant loci, reconstruction of underlying mechanism is still a challenging task. Combination of the advanced data for quantitative proteomics, metabolomics, and genome-wide association study (GWAS) can enhance the current fundamental knowledge about molecular pathogenesis of schizophrenia. In this study, we utilized quantitative proteomic and metabolomic assay, and high throughput genotyping for the GWAS study. We identified 20 differently expressed proteins that were validated on an independent cohort of patients with schizophrenia, including ALS, A1AG1, PEDF, VTDB, CERU, APOB, APOH, FASN, GPX3, etc. and almost half of them are new for schizophrenia. The metabolomic survey revealed 18 group-specific compounds, most of which were the part of transformation of tyrosine and steroids with the prevalence to androgens (androsterone sulfate, thyroliberin, thyroxine, dihydrotestosterone, androstenedione, cholesterol sulfate, metanephrine, dopaquinone, etc.). The GWAS assay mostly failed to reveal significantly associated loci therefore 52 loci with the smoothened p < 10 were fractionally integrated into proteome-metabolome data. We integrated three omics layers and powered them by the quantitative analysis to propose a map of molecular events associated with schizophrenia psychopathology. The resulting interplay between different molecular layers emphasizes a strict implication of lipids transport, oxidative stress, imbalance in steroidogenesis and associated impartments of thyroid hormones as key interconnected nodes essential for understanding of how the regulation of distinct metabolic axis is achieved and what happens in the conditioned proteome and metabolome to produce a schizophrenia-specific pattern.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9901842 | PMC |
| http://dx.doi.org/10.1038/s41598-023-29117-7 | DOI Listing |
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