Eph receptors make guidance decisions for cell migration in cardiovascular and neuronal development, disease, and regeneration. Eph receptors are also involved with higher brain functions, memory and learning. A protein that has been associated with Alzheimer’s, Parkinson’s and other neuronal diseases and injuries is the Collapsin Response Mediator Protein (CRMP) which interacts with several kinases and becomes hyper-phosphorylated alongside increased activation of the kinases. The hyper- phosphorylated CRMP then disrupts the formation of actin and microtubule cytoskeletal structures and it thought to impede Aβ and tau clearance. Cytosolic Lyn kinase, a close homologue of Fyn kinase, is known to interact directly with EphA4 and here, for the first time, we show that an EphA family member and EphB2 directly interacts with CRMP. Analogous to another guidance and cell migration system, the Fyn-Plexin-CRMP complex, the Lyn-EphA4-CRMP association is likely to form a complex with Cdk5 and GSK3β kinases, each also involved in Alzheimer’s. The features of the Eph-CRMP and Eph-Lyn interacting interfaces need to be characterized, as they will be potential biomarkers and targets for therapeutic intervention. The proposal has two main aims. Aim 1) seeks to establish the in vitro phosphorylation patters of various kinases on the intracellular domains of EphA4 and –B2 in the presence and absence of CRMP and to further validate the formation of the complex in cells. Aim 2) The effect that the corresponding phosphomimetic/phospho-defective mutations have on the level of activity on these Eph receptor intracellular regions and of the kinases will be studied with purified proteins in vitro. Eventually, using the knowledge from this project, Antibodies or complex-disrupting-peptides may drive the future development of early detection diagnostics and/or therapeutics.