This chapter discusses the relationship between tau, RNA binding proteins and stress granules, which exhibit an intimate bidirectional relationship affecting the functions of both tau and the translational stress response. We describe how tau becomes hyperphosphorylated and oligomerized as part of an endogenous mechanism to promote the translational stress response through interaction with RNA binding proteins. Prior studies demonstrate that dysfunction of RNA binding proteins biology is sufficient to cause neurodegenerative diseases, such as amyotrophic lateral sclerosis and frontotemporal dementia. Emerging evidence indicates that tau-mediated neurodegeneration also occurs through a mechanism that is mediated by RNA binding proteins and the translational stress response. Discovery of the role of RNA metabolism in tauopathy opens a wide variety of novel therapeutic approaches. Multiple studies have already shown that approaches reducing the levels of selected RNA binding proteins or inhibiting the translational stress response can intervene in the pathophysiology of motoneuron diseases. Emerging studies show that reducing the levels of selected RNA binding proteins or inhibiting the translational stress response also reduces neurodegeneration in models of tauopathy and Aβ mediated degeneration. The combined impact of these studies indicate that RNA binding proteins and RNA metabolism represent a valuable new frontier for the investigation and treatment tauopathies.