Background: Diet induced weight loss represents an intervention for obesity to prevent associated diseases. However there is considerable inter-individual variation. Single nucleotide polymorphisms (SNPs) and plasma miRNA might be contributing factors. We therefore hypothesized that changes in the miRNA pattern during weight loss depend on the SNP genotype.
Methods: Plasma miRNA profiles from 12 patients were determined before and after a three month weight loss intervention by Illumina sequencing. 46 further patients were analyzed by qPCR. SNP genotypes were determined on the Sequenom iPLEX platform.
Results: Samples before and after weight loss were analyzed by miRNA-seq and delta miRNA levels ranked according to p-value. Levels of miRNAs 25, 93 and 106 that are expressed from a common genomic cluster were reduced after weight loss. Those results were substantiated in a qPCR analysis of 46 additional patients. This is in accordance with mouse data showing a functional involvement of this cluster in obesity. Correlation of the changes in miRNA abundance with SNP genotypes revealed a statistical association of all three miRNAs with known obesity susceptibility SNPs.
Conclusion: Diet induced weight loss leads to SNP dependent modulation of miRNAs from the miR 25/93/106 gene cluster in humans.
Keywords: MIR106B; MIR23A; MIR25; MIR451; MIR93; Next generation sequencing; Obesity; Single nucleotide polymorphism; miRNA.
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