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Engineering Synthetic Control over Rho GTPases using Ca2+ and Calmodulin Signaling

Engineered protein systems have been created to impart new functions, or “re-program” mammalian cells for applications including cancer and HIV/AIDS therapies. The successful development of mammalian cells for re-programming will depend on having well-defined, modular systems. Migration is a particularly important cell function that will determine the efficiency and efficacy of many re-programming applications in vivo, and Rho proteins are responsible for regulation of cell migration natively. While there have been several reports of photo-activated Rho proteins, no strategy has been developed such that Rho proteins and cell migration can be controlled by a variety of extracellular stimuli that may be compatible with signaling in large organisms. Here, several methods are described for engineering Ca2+-sensitive Rho proteins so that the large, natural toolbox of Ca2+-mobilizing proteins can use the Ca2+ intermediate to activate Rho proteins in response to a variety of exogenous stimuli, including chemicals, growth factors, and light.
First, an unreported calmodulin binding site was identified in RhoA. This knowledge was used to create a tandem fusion of RhoA and calmodulin that mediated Ca2+-sensitive bleb retraction in response to a variety of Ca2+-elevating chemicals. Ca2+-mobilizing modules including channelrhodopsin-2 and nicotinic acetylcholine receptor α4 were used for light- and acetylcholine-dependent bleb retraction.
Second, a more robust morphology switch was created by embedding a calmodulin binding site into RhoA to enable Ca2+-responsive bleb formation. A wider range of Ca2+-mobilizing modules were also used here including LOVS1K/Orai1 and vascular endothelial growth factor 2. Combining Ca2+-mobilizing and Ca2+-responsive modules increased amoeboid-like cell migration in wound closure and transwell assays.
Finally, the embedded peptide design was applied to Rac1 and Cdc42 to enable control of new morphologies and migration modes. The modular Ca2+ control over Rho proteins developed here is an important contribution to cell re-programming because it shows that control over cell migration can be rewired in a way that is flexible and tunable.

Identiferoai:union.ndltd.org:LACETR/oai:collectionscanada.gc.ca:OTU.1807/34811
Date18 December 2012
CreatorsMills, Evan
ContributorsTruong, Kevin
Source SetsLibrary and Archives Canada ETDs Repository / Centre d'archives des thèses électroniques de Bibliothèque et Archives Canada
Languageen_ca
Detected LanguageEnglish
TypeThesis

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