Updated project metadata. Intronic hexanucleotide expansions in C9ORF72 are common in ALS and FTLD, but it is unknown whether loss of function, toxicity by the expanded RNA or dipeptides from non ATG-initiated translation are responsible for the pathophysiology. We determined the interactome of C9ORF72 in motoneurons and found that C9ORF72 is present in a complex with cofilin and other actin binding proteins. Phosphorylation of cofilin is enhanced in C9ORF72 depleted motoneurons, in patient derived lymphoblastoid cells, iPS cell derived motoneurons and post-mortem brain samples from ALS patients. C9ORF72 modulates the activity of the small GTPases Arf6 and Rac1, resulting in enhanced activity of LIMK1/2. This results in reduced axonal actin dynamics in C9ORF72 depleted motoneurons. Dominant negative Arf6 rescues this defect, suggesting that C9ORF72 acts as a modulator of small GTPases in a pathway that regulates axonal actin dynamics.