FGF5 stimulates expansion of connective tissue fibroblasts and inhibits skeletal muscle development in the limb

Abstract

FGF5 is expressed in the mesenchyme and skeletal muscle of developing and adult mouse limbs. However, the function of FGF5 during development of the limb and limb musculature is unknown. To elucidate the inherent participation of FGF5 during limb organogenesis, a retroviral delivery system (RCAS) was used to overexpress human FGF5 throughout developing hind limb of chicken embryos. Misexpression of the soluble growth factor severely inhibited the formation of mature myocytes. Limbs infected with RCAS-FGF5 contained smaller presumptive muscle masses as evidenced by a decrease in MyoD and myosin heavy chain expressing cells. In contrast, ectopic expression of FGF5 significantly stimulated proliferation and expansion of the tenascin-expressing, connective-tissue fibroblast lineage throughout the developing limb. Histological analysis demonstrated that the increase in tenascin immunostaining surrounding the femur, ileum, and pubis in the FGF5 infected limbs corresponded to the fibroblasts forming the stacked-cell perichondrium. Furthermore, pulse labeling experiments with the thymidine analog, BrdU, revealed that the increased size of the perichondrium was attributable to enhanced cell proliferation. These results support a model whereby FGF5 acts as a mitogen to stimulate the proliferation of mesenchymal fibroblasts that contribute to the formation of connective tissues such as the perichondrium, and inhibits the development of differentiated skeletal muscle. These results also contend that FGF5 is a candidate mediator of the exclusive spatial patterning of the hind limb connective tissue and skeletal muscle.