Acute Exercise Regulates Htert Alternative Splicing In Contractile Tissues Of Htert-bac Mice

Abstract

Full length human telomerase reverse transcriptase (FL hTERT) is the rate-limiting, catalytic component necessary for telomerase enzyme activity and telomere length maintenance. Unlike rodents, humans evolved elongated introns with cis-elements that when bound by specific RNA binding proteins (RNAbp) splice hTERT to FL transcripts or produce inactive variants through alternative splicing (AS). Our working hypothesis is that hTERT AS regulates the amount of active telomerase. Evidence from human studies have shown that aerobic exercise maintains telomere length through increased hTERT expression and telomerase enzyme activity, however the impact of acute exercise on hTERT AS is unknown. PURPOSE: To examine hTERT AS regulation in response to acute treadmill running. METHODS: A bacterial artificial chromosome mouse model containing the full hTERT gene (5' and 3' regulatory elements; 16 exons and 15 introns) inserted into its genome (hTERT-BAC) was utilized. Gastrocnemius (Gas.) and heart (Hrt.) were excised from 10-week old hTERT-BAC mice prior to (PRE), upon cessation (POST), and during recovery (1, 24, 48, and 72H; n = 5/time point) from 30 min. of treadmill running (60% max. speed). Primers specific to hTERT were utilized to measure FL and the most common AS variant minus beta (-β, which skips exons 7 and 8) by two different RT-PCR methods - gel based and droplet digital PCR. Gene expression of the RNAbp PTBP1 was also measured. RESULTS: The expected human patterns of hTERT AS was recapitulated across all tissues examined. Compared to PRE, FL hTERT gene expression increased at POST before decreasing in the Gas. (48 and 72H; p ≤ 0.001) and Hrt. (24H; p = 0.004). Acute exercise also increased the percentage of FL hTERT in the Gas. at 1 and 72H (p ≤ 0.017), whereas a decrease was observed in the Hrt. at 1, 24, and 48H (p ≤ 0.041). Finally, Ptbp1 decreased at POST (Gas.) and at 1, 24, 48, and 72H (Gas. and Hrt.; p ≤ 0.05). CONCLUSIONS: Evolutionarily conserved mouse splicing machinery (RNAbp) recognize hTERT cis-elements to recapitulate human AS patterns and highlight the importance of the intronic elements in regulating hTERT splicing choice in humans. The hTERT-BAC mouse is a valuable resource to study the exercise-induced adaptive mechanisms that maintain telomere lengths in endurance trained individuals across the lifespan.