Effect of Palmitoyl-Pentapeptide (Pal-KTTKS) on Wound Contractile Process in Relation with Connective Tissue Growth Factor and α-Smooth Muscle Actin Expression

To evaluate whether Palmitoyl-pentapeptide (Pal-KTTKS), a lipidated subfragment of type 1 pro-collagen (residues 212–216), plays a role in fibroblast contractility, the effect of Pal-KTTKS on the expression of pro-fibrotic mediators in hypertropic scarring were investigated in relation with trans-differentiation of fibroblast to myofibroblast, an icon of scar formation. α-SMA was visualized by immunofluorescence confocal microscopy with a Cy-3-conjugated monoclonal antibody. The extent of α-SMA-positive fibroblasts was determined in collagen lattices and in cell culture study. Pal-KTTKS (0–0.5 µM) induced CTGF and α-SMA protein levels were determined by western blot analysis and fibroblast contractility was assessed in three-dimensional collagen lattice contraction assay. In confocal analysis, fibroblasts were observed as elongated and spindle shapes while myofibroblast observed as squamous, enlarged cells with pronounced stress fibers. Without Pal-KTTKS treatment, three quarters of the fibroblasts differentiates into the myofibroblast; α-SMA-positive stress fibers per field decreased twofold with 0.1 µM Pal-KTTKS treatment (75 ± 7.1 vs 38.6 ± 16.1%, n = 3, p<0.05). The inhibitory effect was not significant in 0.5 µM Pal-KTTKS treatment. Stress fiber level and collagen contractility correlates with α-SMA expression level. In conclusion, Pal-KTTKS (0.1 µM) reduces α-SMA expression and trans-differentiation of fibroblasts to myofibroblast. The degree of reduction is dose-dependent. An abundance of myofibroblast and fibrotic scarring is correlated with excessive levels of α-SMA and collagen contractility. Delicate balance between the wound healing properties and pro-fibrotic abilities of pentapeptide KTTKS should be considered for selecting therapeutic dose for scar prevention.

Inhibition of Fibrotic Contraction by C-Phycocyanin through Modulation of Connective Tissue Growth Factor and α-Smooth Muscle Actin Expression

The effects of C-phycocyanin (C-pc), a phycobiliprotein, on the expression of pro-fibrotic mediators in hyper-tropic scarring such as connective tissue growth factor (CTGF) and α-smooth muscle actins (α-SMA) were investigated in relation to trans-differentiation of fibroblast to myo-fibroblast, an icon of scar formation. C-pc was isolated from Spirulina Platensis extract using sonication method and C-pc concentration was determined by Bennet and Bogorad equation. α-SMA and CTGF levels in wounded primary human dermal fibroblasts were determined by western blot analysis and immuno-fluorescence confocal microscope was employed. Fibroblast contractility was examined by three-dimensional collagen lattice contraction assay. There was an elevation of α-SMA (121%) and CTGF (143%) levels in wound cells as compared with non-wound cells. The does-response profiles of down regulation demonstrated that the maximum inhibitions of α-SMA by 63% (p<0.05) and CTGF by 50% (p<0.1) were achieved by C-pc (6 nM) treated cells. In confocal assay, non-wound fibroblasts exhibited basal level of α-SMA staining, while wounded cells without C-pc treatment showed strong up-regulation of α-SMA by 147% (p<0.05). C-pc (6 nM) inhibited α-SMA expression by 70% (p<0.05) and reduced collagen contraction by 29% (p<0.05). C-pc seemed to lessen the over expression of CTGF, α-SMA, subsequently alleviating the fibrotic contracture. This study suggests the potential application of C-pc to regulation of the expression of pro-fibrotic mediators in scarring process and its potential usage as an efficient means for anti-fibrosis therapy.