Differential Effects of 3,5,3′-Triiodothyronine on Control andmdxMyoblasts and Fibroblasts: Analysis by Flow Cytometry

The possibility of differential effects of triiodothyronine (T3) treatmentin vivoon myoblast and fibroblast cell proliferation was examined in control andmdxmuscle cultures. Cell isolates were purified in a Percoll gradient, sorted by flow cytometry (light scatter), and characterized as myoblasts and fibroblasts using anti-skeletal muscle myosin fluorescence. The two cell types were grown separately or remixed (1:1). Cultures were incubated with or without T3 (10⁻⁹M) for 19 h. Cells were either exposed to ³H]thymidine for 1 h and DNA prepared for scintillation counts or stained with propidium iodide for cell cycle analysis by flow cytometry. Overall ³H]thymidine uptake per cell was greater inmdxthan control cells (mainly fibroblasts and mixed cells) and was decreased by T3 only in myoblast and mixed cultures. Cell cycle data showed that the effects of T3 originated primarily at the G₀/G₁phase. There were moremdxthan control myoblasts at G₀/G₁without T3. After T3 treatment, more control fibroblasts than myoblasts were at G₀/G₁, but moremdxmyoblasts than fibroblasts were at G₀/G₁. In the absence of T3, there were also fewermdxthan control myoblasts in S. After T3, only the proportion ofmdxmyoblasts in S phase was reduced. Results are consistent with distinct T3 effects on muscle regenerationin vivoand support the hypothesis that cycling and proliferation ofmdxand control myoblasts are differentially modulated by T3. As control andmdxfibroblasts also showed distinct responses to T3, muscle regeneration likely occurs by a complex regulation of gene expression endogenous to specific cell types as well as interactions between cells of different lineage.