The simultaneous expression of MyoD and PPARγ in MSCs does not generate hybrid cells
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MyoD protein is degraded in adipocytes through the ubiquitin proteasome system
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In myotubes expressing PPARγ, PPARγ itself is not downregulated
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PPARγ-dependent histone hyperacetylation is inhibited in adipogenic gene loci
Summary
The discreteness of cell fates is an inherent and fundamental feature of multicellular organisms. Here we show that cross-antagonistic mechanisms of actions of MyoD and PPARγ, which are the master regulators of muscle and adipose differentiation, respectively, confer robustness to the integrity of cell differentiation. Simultaneous expression of MyoD and PPARγ in mesenchymal stem/stromal cells led to the generation of a mixture of multinucleated myotubes and lipid-filled adipocytes. Interestingly, hybrid cells (i.e., lipid-filled myotubes) were not generated, suggesting that these differentiation programs are mutually exclusive. Mechanistically, although exogenously expressed MyoD was rapidly degraded in adipocytes through ubiquitin-proteasome pathways, exogenously expressed PPARγ was not downregulated in myotubes. In PPARγ-expressing myotubes, PPARγ-dependent histone hyperacetylation was inhibited in a subset of adipogenic gene loci, including that of C/EBPα, an essential effector of PPARγ. Thus, the cross-repressive interactions between MyoD- and PPARγ-induced differentiation programs ensure discrete cell-fate decisions.