Browsing by Author "Olguín, Valeria"
Now showing 1 - 2 of 2
Results Per Page
Sort Options
Item A Mouse Systems Genetics Approach Reveals Common and Uncommon Genetic Modifiers of Hepatic Lysosomal Enzyme Activities and Glycosphingolipids(2023) Durán, Anyelo; Priestman, David; Las Heras, Macarena; Rebolledo, Boris; Olguín, Valeria; Calderón, Juan; Zanlungo, Silvana; Gutiérrez, Jaime; Platt, Frances; Klein, AndrésIdentification of genetic modulators of lysosomal enzyme activities and glycosphingolipids (GSLs) may facilitate the development of therapeutics for diseases in which they participate, including Lysosomal Storage Disorders (LSDs). To this end, we used a systems genetics approach: we measured 11 hepatic lysosomal enzymes and many of their natural substrates (GSLs), followed by modifier gene mapping by GWAS and transcriptomics associations in a panel of inbred strains. Unexpectedly, most GSLs showed no association between their levels and the enzyme activity that catabolizes them. Genomic mapping identified 30 shared predicted modifier genes between the enzymes and GSLs, which are clustered in three pathways and are associated with other diseases. Surprisingly, they are regulated by ten common transcription factors, and their majority by miRNA-340p. In conclusion, we have identified novel regulators of GSL metabolism, which may serve as therapeutic targets for LSDs and may suggest the involvement of GSL metabolism in other pathologies.Item Genetic Background Matters: Population-Based Studies in Model Organisms for Translational Research(2022) Olguín, Valeria; Durán, Anyelo; Las Heras, Macarena; Rubilar, Juan; Cubillos, Francisco; Olguín, Patricio; Klein, AndrésWe are all similar but a bit different. These differences are partially due to variations in our genomes and are related to the heterogeneity of symptoms and responses to treatments that patients exhibit. Most animal studies are performed in one single strain with one manipulation. However, due to the lack of variability, therapies are not always reproducible when treatments are translated to humans. Panels of already sequenced organisms are valuable tools for mimicking human phenotypic heterogeneities and gene mapping. This review summarizes the current knowledge of mouse, fly, and yeast panels with insightful applications for translational research.