Electron microscopic immunochemical localization of actin in fibroblasts in healing skin and palate wounds of beagle dog.

Wound contraction in soft tissue has been attributed to the activity of contractile fibroblasts containing actin microfilaments. Immunochemical staining at the electron microscopic level was used to demonstrate the presence of such cells in healing wounds from skin and oral mucosa. Biopsies of granulation tissue from 10 and 16 day old excision wounds in beagle palate mucoperiosteum and skin were fixed and 10 micrometer sections were treated with antiactin serum, peroxidase-anti peroxidase (PAP) and then incubated to reveal the localization of actin. Controls were prepared using non-immune serum or preabsorbed immune serum. Thin sections examined with the electron microscope revealed the presence of PAP particles associated with microfilament bundles beneath the plasma membrane and in processes of fibroblasts. Reaction was also associated with micropinocytotic vesicles at the cell surface. More reactive cells were seen in 16 day than in 10 day old wounds and there were greater numbers of these cells in skin than in oral mucoperiosteum. The results indicate that actin containing cells with the ultrastructural characteristics of contractile fibroblasts (myofibroblasts) are present in the granulation tissue of healing skin and oral mucosal wounds. Such cells may be responsible for the wound contraction observed clinically in the healing palatal mucoperiosteum.