Abstract
Peptide YY (PYY) is considered a gut peptide with roles in post-prandial appetite and glucose regulation. Circulating PYY protein levels increase during aerobic exercise. Furthermore, people who have greater increases in muscle progenitor cells (hMPCs), the adult stem cell population responsible for skeletal muscle (SkM) repair, after resistance training have higher PYY transcript levels in SkM prior to training. Currently, examination of PYY expression patterns in SkM and/or hMPCs is lacking. Our objective was to identify the expression patterns of PYY in SkM and hMPCs. PYY and the associated Y receptors were analyzed in SkM biopsy tissue and cultured hMPCs from young and old human participants. Additional experiments to assess the role and regulation of PYY in hMPCs were performed. In SkM, PYY and one of the three Y receptors (Y1r) were detectable, but expression patterns were not affected by age. In expanding hMPCs, PYY and all three Y receptor (Y1r, Y2r, and Y5r) proteins were expressed in a temporal fashion with young hMPCs having greater levels of Y receptors at various time points. Exogenous PYY did not affect hMPC population expansion. hMPC PYY levels increased following the metabolic stimulus, 5-Aminoimidazole-4-carboxamide ribonucleotide (AICAR), but were not affected by the inflammatory stimulus, tumor necrosis factor alpha (TNFα). In conclusion, PYY and Y receptor expression are not impacted by age in SkM tissue but are reduced in old vs. young expanding hMPCs. Furthermore, endogenous PYY production is stimulated by low energy states and thus may be integral for skeletal muscle and hMPC responses to metabolic stimuli.
Highlights
Peptide YY (PYY), a gut peptide released after food intake (De Silva et al, 2011), increases during aerobic exercise (Broom et al, 2008)
Compared to old human muscle progenitor cells (MPCs) (hMPCs), young hMPCs expressed greater levels of Y5r protein at 72 h (p < 0.05) and 192 h after seeding (p < 0.01, Figure 1I). These data demonstrate that skeletal muscle (SkM) tissue PYY levels do not differ between young and old; PYY and the Y receptors are higher in young compared with old hMPCs
This age difference between SkM and cultured hMPCs may be related to differences only observed during dynamic conditions
Summary
Peptide YY (PYY), a gut peptide released after food intake (De Silva et al, 2011), increases during aerobic exercise (Broom et al, 2008). Post-exercise increases in PYY are posited to be from pancreatic or intestinal secretion via an PYY in Human Skeletal Muscle undescribed mechanism (Hazell et al, 2016). There is evidence, skeletal muscle (SkM) may be a source of PYY. Basal PYY gene expression in SkM is greater in extreme hypertrophic responders to resistance exercise training compared to nonresponders who displayed no/minimal hypertrophy (ThalackerMercer et al, 2013). The extreme responders have more muscle progenitor cells (MPCs), the adult stem cell population responsible for SkM repair (Petrella et al, 2008). PYY acts through the Y family of Gαi-protein coupled receptors (Y1r, Y2r, and Y5r). Expression of the Y receptors is documented in rodent myoblasts (Zhang et al, 2010) but, to our knowledge, their expression in human MPCs (hMPCs) and SkM has not been identified
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