Physiological regulation of neuronal Wnt activity is essential for TDP-43 localization and function

Nuclear exclusion of the RNA- and DNA-binding protein TDP-43 can induce neurodegeneration in different diseases. Diverse processes have been implicated to influence TDP-43 mislocalization, including disrupted nucleocytoplasmic transport (NCT); however, the physiological pathways that normally ensure TDP-43 nuclear localization are unclear. The six-transmembrane enzyme glycerophosphodiester phosphodiesterase 2 (GDE2 or GDPD5) cleaves the glycosylphosphatidylinositol (GPI) anchor that tethers some proteins to the membrane. Here we show that GDE2 maintains TDP-43 nuclear localization by regulating the dynamics of canonical Wnt signaling. Ablation of GDE2 causes aberrantly sustained Wnt activation in adult neurons, which is sufficient to cause NCT deficits, nuclear pore abnormalities, and TDP-43 nuclear exclusion. Disruption of GDE2 coincides with TDP-43 abnormalities in postmortem tissue from patients with amyotrophic lateral sclerosis (ALS). Further, GDE2 deficits are evident in human neural cell models of ALS, which display erroneous Wnt activation that, when inhibited, increases mRNA levels of genes regulated by TDP-43. Our study identifies GDE2 as a critical physiological regulator of Wnt signaling in adult neurons and highlights Wnt pathway activation as an unappreciated mechanism contributing to nucleocytoplasmic transport and TDP-43 abnormalities in disease. Synopsis Nuclear exclusion of TDP-43 is observed in various pathologies, but the physiological mechanisms that ensure its nuclear localization are not well-known. This work shows that inhibition of persistent Wnt activation in neurons by GDE2 prevents TDP-43 nuclear exclusion. GDE2 inhibits canonical Wnt signaling in adult postmitotic neurons. Sustained activation of canonical Wnt signaling in neurons disrupts the nuclear pore complex, impairs nucleocytoplasmic transport, and results in TDP-43 nuclear exclusion. iPS neurons from patients with C9orf72 ALS show decreased GDE2 expression and increased activation of canonical Wnt signaling. Inhibition of Wnt activation mitigates TDP-43 dysfunction in C9orf72 iPS neurons. GDE2 maintains TDP-43 nuclear localization by inhibiting Wnt activation in neurons.