The identification of RhoA inhibition as a therapeutic target in neurodegenerative diseases and traumatic central nervous system (CNS) injuries has introduced a need to develop tools that effectively modulate intracellular RhoA-dependent signaling. In neurons, the bacterial exoenzyme C3 transferase irreversibly inactivates RhoA GTPase signaling to promote neuritogenesis and axon regeneration following an injury. Thus, we have adopted a gene therapy approach for the targeted inhibition of RhoA activity in the CNS by expressing C3 transferase. Herein we describe the construction of adeno-associated viral vectors for the expression of cell-permeable-C3 transferase and their functional characterization in vitro.
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