Secreted APP regulates the function of full-length APP in neurite outgrowth through interaction with integrin beta1

Background β-Amyloid precursor protein (APP) has been reported to play a role in the outgrowth of neurites from cultured neurons. Both cell-surface APP and its soluble, ectodomain cleavage product (APPs-α) have been implicated in regulating the length and branching of neurites in a variety of assays, but the mechanism by which APP performs this function is not understood. Results Here, we report that APP is required for proper neurite outgrowth in a cell autonomous manner, both in vitro and in vivo . Neurons that lack APP undergo elongation of their longest neurite. Deletion of APLP1 or APLP2, homologues of APP, likewise stimulates neurite lengthening. Intriguingly, wild-type neurons exposed to APPs-α, the principal cleavage product of APP, also undergo neurite elongation. However, APPs-α is unable to stimulate neurite elongation in the absence of cellular APP expression. The outgrowth-enhancing effects of both APPs-α and the deletion of APP are inhibited by blocking antibodies to Integrin β1 (Itgβ1). Moreover, full length APP interacts biochemically with Itgβ1, and APPs-α can interfere with this binding. Conclusion Our findings indicate that APPs-α regulates the function of APP in neurite outgrowth via the novel mechanism of competing with the binding of APP to Itgβ1.