Dietary Fat Quantity and Type Induce Transcriptome-Wide Effects on Alternative Splicing of Pre-mRNA in Rat Skeletal Muscle.
Study Goal
The researchers aimed to examine how high-fat diets induce changes in skeletal muscle gene expression, particularly through pre-mRNA alternative splicing, and whether these changes depend on dietary fat quantity and type.
Results Summary
High-fat diets (60% fat) caused alternative splicing of hundreds of pre-mRNAs in rat skeletal muscle, with Tnnt3 splicing changes observed even at lower fat levels (30%). These effects were dependent on fat type, occurring with saturated fats (lard) but not mono- or polyunsaturated fats, and were independent of obesity.
Population
Male obesity-prone Sprague-Dawley rats
Effective Dosage
10%, 30%, 45%, or 60% fat diets (lard or unsaturated fats)
Duration
1 to 8 weeks
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
60% fat (lard) diet for 2 wk | increase | pre-mRNAs | male obesity-prone Sprague-Dawley rats | 668 | resulted in alternative splicing of | #1 |
60% fat (lard) diet for 8 wk | increase | pre-mRNAs | male obesity-prone Sprague-Dawley rats | 726 | resulted in alternative splicing of | #2 |
60% fat diet for 2 wk | increase | Tnnt3 transcripts | male obesity-prone Sprague-Dawley rats | - | were alternatively spliced | #3 |
60% fat diet for 8 wk | increase | Tnnt3 transcripts | male obesity-prone Sprague-Dawley rats | - | were alternatively spliced | #4 |
30% fat diet across 1- to 8-wk treatment periods | increase | high-fat-diet-induced changes in Tnnt3 alternative splicing | rats | - | were observed | #5 |
45% fat diets enriched with lard | increase | Tnnt3 alternative splicing | rats | - | occurred in response to | #6 |
diets enriched with mono- or polyunsaturated fatty acids | no change | Tnnt3 alternative splicing | rats | - | did not occur in response to | #7 |
high-fat diet | no change | fat mass (a proxy for obesity as measured by NMR) | rats in any study | - | did not differ between groups | #8 |
Background: Fat-enriched diets produce metabolic changes in skeletal muscle, which in turn can mediate changes in gene regulation.Objective: We examined the high-fat-diet-induced changes in skeletal muscle gene expression by characterizing variations in pre-mRNA alternative splicing.Methods: Affymetrix Exon Array analysis was performed on the transcriptome of the gastrocnemius/plantaris complex of male obesity-prone Sprague-Dawley rats fed a 10% or 60% fat (lard) diet for 2 or 8 wk. The validation of exon array results was focused on troponin T (Tnnt3). Tnnt3 splice form analyses were extended in studies of rats fed 10% or 30% fat diets across 1- to 8-wk treatment periods and rats fed 10% or 45% fat diets with fat sources from lard or mono- or polyunsaturated fats for 2 wk. Nuclear magnetic resonance (NMR) was used to measure body composition.Results: Consumption of a 60% fat diet for 2 or 8 wk resulted in alternative splicing of 668 and 726 pre-mRNAs, respectively, compared with rats fed a 10% fat diet. Tnnt3 transcripts were alternatively spliced in rats fed a 60% fat diet for either 2 or 8 wk. The high-fat-diet-induced changes in Tnnt3 alternative splicing were observed in rats fed a 30% fat diet across 1- to 8-wk treatment periods. Moreover, this effect depended on fat type, because Tnnt3 alternative splicing occurred in response to 45% fat diets enriched with lard but not in response to diets enriched with mono- or polyunsaturated fatty acids. Fat mass (a proxy for obesity as measured by NMR) did not differ between groups in any study.Conclusions: Rat skeletal muscle responds to overconsumption of dietary fat by modifying gene expression through pre-mRNA alternative splicing. Variations in Tnnt3 alternative splicing occur independently of obesity and are dependent on dietary fat quantity and suggest a role for saturated fatty acids in the high-fat-diet-induced modifications in Tnnt3 alternative splicing.