Transglutaminase II (TG2) is a complex protein with five different reported activities. Increases in TG2 expression and TGase activity have previously been observed during wound healing in rat studies; however, it has been unclear whether these phenomena were directly involved in the healing process or if they were simply a by-product of it. The aims of this thesis were, thus, to determine if TG2 plays a role in wound healing in vivo and to elucidate the mechanism of any effects TG2 may have at the cellular level. TG2 ablation resulted in delayed wound healing. To gain mechanistic insight into this abnormality, primary fibroblast cultures from TG2-knockout and wildtype mouse embryos were analysed. TG2-null fibroblasts displayed decreased adhesion and integrin signalling during initial stages of adhesion. Intriguingly, TG2-null cells showed faster activation of Rac1 and RhoA in response to adhesion. Long-term adhesion of TG2-null fibroblasts resulted in increased basal phosphorylation of FAK and number of paxillin-stained focal adhesions, enhanced PI3-kinase signalling, faster actin dynamics and altered activation of p44/42 MAPK. These results are indicative of futile cycling of intracellular signalling pathways resulting from reduced focal adhesion turnover in the TG2-knockout fibroblasts. Rescue experiments demonstrated that TG2-mediated effects on cell adhesion occurred in the extracellular environment and that neither GTP-binding nor TGase activity is required for these effects. Results further showed that a ???compact??? conformation of TG2 was not required for this role of TG2. Interestingly, addition of recombinant TG2 to the extracellular environment increased cell spreading of TG2-null cells to a level far greater than that seen in wildtype cells, which did not increase their spreading in response to exogenous TG2. Demonstration of faster activation of the small GTPases in the TG2-null MEFs, and the apparent inhibition of exogenous TG2???s extracellular effects on cell spreading by endogenous protein in the wildtype cells, provide tantalising evidence for a role for intracellular TG2 in regulating activation of the small GTPases to promote efficient fibroblast migration. This work identifies TG2 as a facilitator of efficient wound closure through extracellular effects on integrin-mediated signalling and intracellular effects on activation of the small GTPases.
Identifer | oai:union.ndltd.org:ADTP/220594 |
Date | January 2006 |
Creators | Mearns, Bryony Megan, BABS, UNSW |
Publisher | Awarded by:University of New South Wales. BABS |
Source Sets | Australiasian Digital Theses Program |
Language | English |
Detected Language | English |
Rights | Copyright Bryony Megan Mearns, http://unsworks.unsw.edu.au/copyright |
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