scarring, fibrosis, adhesions, keloids AND tanning.....
:-)
(just parking, and I don't see a good place)
Pigment Cell Melanoma Res. 2008 Apr;21(2):172-83.
LIGR, a protease-activated receptor-2-derived peptide, enhances skin pigmentation without inducing inflammatory processes.
Lin CB, Chen N, Scarpa R, Guan F, Babiarz-Magee L, Liebel F, Li WH, Kizoulis M, Shapiro S, Seiberg M.
The Johnson & Johnson Skin Research Center, Consumer Product Worldwide, A division of Johnson & Johnson Consumer Companies, Inc., 199 Grandview Rd., Skillman, NJ 08558, USA.
The protease-activated receptor-2 (PAR-2) is a seven transmembrane G-protein-coupled receptor that could be activated by serine protease cleavage or by synthetic peptide agonists. We showed earlier that activation of PAR-2 with Ser-Leu-Ile-Gly-Arg-Leu-NH(2) (SLIGRL), a known PAR-2 activating peptide, induces keratinocyte phagocytosis and increases skin pigmentation, indicating that PAR-2 regulates pigmentation by controlling phagocytosis of melanosomes. Here, we show that Leu-Ile-Gly-Arg-NH(2) (LIGR) can also induce skin pigmentation. Both SLIGRL and LIGR increased melanin deposition in vitro and in vivo, and visibly darkened human skins grafted onto severe combined immuno-deficient (SCID) mice. Both SLIGRL and LIGR stimulated Rho-GTP activation resulting in keratinocyte phagocytosis. Interestingly, LIGR activates only a subset of the PAR-2 signaling pathways, and unlike SLIGRL, it does not induce inflammatory processes. LIGR did not affect many PAR-2 signaling pathways, including [Ca(2+)] mobilization, cAMP induction, the induction of cyclooxgenase-2 (COX-2) expression and the secretion of prostaglandin E2, interleukin-6 and -8. PAR-2 siRNA inhibited LIGR-induced phagocytosis, indicating that LIGR signals via PAR-2. Our data suggest that LIGR is a more specific regulator of PAR-2-induced pigmentation relative to SLIGRL. Therefore, enhancing skin pigmentation by topical applications of LIGR may result in a desired tanned-like skin color, without enhancing inflammatory processes, and without the need of UV exposure.
J Recept Signal Transduct Res. 2008;28(1):29-37.
Protease signaling to g protein-coupled receptors: implications for inflammation and pain.
Dale C, Vergnolle N.
Université Toulouse III Paul Sabatier, Toulouse, France.
Proteases, like thrombin, trypsin, cathepsins, or tryptase, can signal to cells by cleaving in a specific manner, a family of G protein-coupled receptors, the protease-activated receptors (PARs). Proteases cleave the extracellular N-terminal domain of PARs to reveal tethered ligand domains that bind to and activate the receptors. Recent evidence has supported the involvement of PARs in inflammation and pain. Activation of PAR(1), PAR(2), and PAR(4) either by proteinases or by selective agonists causes inflammation inducing most of the cardinal signs of inflammation: swelling, redness, and pain. Recent studies suggest a crucial role for the different PARs in innate immune response. The role of PARs in the activation of pain pathways appears to be dual. Subinflammatory doses of PAR(2) agonists induce hyperalgesia and allodynia, and PAR(2) activation has been implicated in the generation of inflammatory hyperalgesia. In contrast, subinflammatory doses of PAR(1) or PAR(4) increase nociceptive threshold, inhibiting inflammatory hyperalgesia, thereby acting as analgesic mediators. PARs have to be considered as an additional subclass of G protein-coupled receptors that are active participants to inflammation and pain responses and that could constitute potential novel therapeutic targets. |
