Abstract
Satellite cells represent a heterogeneous population of stem and progenitor cells responsible for muscle growth, repair and regeneration. We investigated whether c-Myb could play a role in satellite cell biology because our previous results using satellite cell-derived mouse myoblast cell line C2C12 showed that c-Myb was expressed in growing cells and downregulated during differentiation. We detected c-Myb expression in activated satellite cells of regenerating muscle. c-Myb was also discovered in activated satellite cells associated with isolated viable myofiber and in descendants of activated satellite cells, proliferating myoblasts. However, no c-Myb expression was detected in multinucleated myotubes originated from fusing myoblasts. The constitutive expression of c-Myb lacking the 3′ untranslated region (3′ UTR) strongly inhibited the ability of myoblasts to fuse. The inhibition was dependent on intact c-Myb transactivation domain as myoblasts expressing mutated c-Myb in transactivation domain were able to fuse. The absence of 3′ UTR of c-Myb was also important because the expression of c-Myb coding region with its 3′ UTR did not inhibit myoblast fusion. The same results were repeated in C2C12 cells as well. Moreover, it was documented that 3′ UTR of c-Myb was responsible for downregulation of c-Myb protein levels in differentiating C2C12 cells. DNA microarray analysis of C2C12 cells revealed that the expression of several muscle-specific genes was downregulated during differentiation of c-Myb-expressing cells, namely: ACTN2, MYH8, TNNC2, MYOG, CKM and LRRN1. A detailed qRT-PCR analysis of MYOG, TNNC2 and LRRN1 is presented. Our findings thus indicate that c-Myb is involved in regulating the differentiation program of myogenic progenitor cells as its expression blocks myoblast fusion.
Highlights
Adult skeletal muscle is a terminally differentiated tissue, it retains an exceptional regenerative capacity that has been attributed to satellite cells, a heterogeneous population of stem and progenitor cells [1] localized between the basal lamina and sarcolemma of each muscle fiber
We employed an experimental model that is based on the isolation of viable muscle fibers carrying satellite cells in their niche on the fiber which provides signals maintaining their stem cell specification
We identified c-Myb expression in activated satellite cells in their niche on the myofiber and in proliferating myoblasts, but not in multinucleated myotubes
Summary
Adult skeletal muscle is a terminally differentiated tissue, it retains an exceptional regenerative capacity that has been attributed to satellite cells, a heterogeneous population of stem and progenitor cells [1] localized between the basal lamina and sarcolemma of each muscle fiber. Normally quiescent satellite cells, characterized by the expression of transcription factor Pax, are activated and proliferate to create a pool of myoblasts which differentiate and fuse with the existing muscle fibers in order to repair the damaged segment or fuse together to create new muscle fiber. Skeletal muscle development is controlled by coordinated up- and downregulation of myogenic regulatory factors (MyoD, Myf, Myogenin and MRF4). Satellite cells leave their niche on the myofiber and move outside the basal lamina, re-enter cell cycle and express MyoD and Pax. The descendants of activated satellite cells, myoblasts, proliferate and most of them downregulate Pax and differentiate expressing the differentiation markers MRF4 and Myogenin. In the process of injury repair, the quiescent satellite cell pool is renewed
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