Abstract

Background: Abdominal fat elevates while lower-body (LB) fat diminishes cardiovascular risk. However, molecular mechanisms differentiating the two fat depots are not completely understood. MicroRNA (miRNA) are important regulators of gene expression with widespread effects on several proteins. Objective: To explore miRNA differences between the two fat depots using unbiased next-generation sequencing (NGS) approach. Methods: Total RNA isolated from paired subcutaneous (sc) fat tissue obtained from abdomen (ABD) and LB (femoral) region of 12 healthy subjects (7 male; age: 27 ± 5 years; BMI: 23.5 ± 3.2 kg/m 2 ) was used to quantify miRNA expression. Body fat distribution was determined using dual-energy X-ray absorptiometry and abdominal computed tomography scans. RNA was prepped using the NEBNext small RNA library prep kit and sequenced using Illumina HiSeq 2000. Raw sequence data were processed using CAP-miRSeq pipeline. miRNA expression between the two depots was evaluated using EdgeR. Relationship between miRNA and regional fat depots were examined using Spearman’s correlation. Adjusted or unadjusted P value <0.05 was considered significant. Results: Using NGS, 383 ± 55 known miRNA with ≥5 raw reads were detected in the study samples. Principal component analysis including all miRNAs showed no any clear separation between ABD or LB fat tissue. However, 37 miRNAs were found to have altered expression in the two depots. miR-196a-5p (log2FC=1.138, p<0.001), miR-146b-5p ( log2FC=1.388, p<0.001), miR-1287 ( log2FC=1.059, p<0.001), miR-1247-5p (1.002, p<0.001), and miR-346 (log2FC =-1.240, p=0.002) were among the top five differentially expressed miRNA in ABD Vs. LB fat. Interestingly, ABD fat tissue expression of miR196a-5p (rho=-0.58, p=0.047) and miR146b-5p (rho=0.76, p=0.004) correlated with visceral fat while miR146b-5p (rho=0.66, p=0.02) and miR1287 (rho=0.79, p=0.002) correlated with ABD sc fat. Conclusions: Several miRNAs are differentially expressed between ABD and LB fat tissue which may partly contribute to depot specific alterations in adipose tissue function and consequent cardiometabolic risk. Furthermore, the associations between miRNA and regional fat depots suggest a functional role of these miRNA in fat distribution.

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