Characterization of Small-Molecule-Induced Changes in Parkinson's-Related Trafficking via the Nedd4 Ubiquitin Signaling Cascade.

The benzdiimidazole NAB2 rescues α-synuclein-associated trafficking defects associated with early onset Parkinson's disease in a Nedd4-dependent manner. Despite identification of E3 ubiquitin ligase Nedd4 as a putative target of NAB2, its molecular mechanism of action has not been elucidated. As such, the effect of NAB2 on Nedd4 activity and specificity was interrogated through biochemical, biophysical, and proteomic analyses. NAB2 was found to bind Nedd4 (KDapp = 42 nM), but this binding is side chain mediated and does not alter its conformation or ubiquitination kinetics in vitro. Nedd4 co-localizes with trafficking organelles, and NAB2 exposure did not alter its co-localization. Ubiquitin enrichment coupled proteomics revealed that NAB2 stimulates ubiquitination of trafficking-associated proteins, most likely through modulating the substrate specificity of Nedd4, providing a putative protein network involved in the NAB2 mechanism and revealing trafficking scaffold protein TFG as a Nedd4 substrate.

Robust and facile purification of full-length, untagged human Nedd4 as a recombinant protein from Escherichia coli.

Nedd4 is an E3 ubiquitin ligase that has received increased attention due to its role in the maintenance of proteostasis and in cellular stress responses. Investigation of Nedd4 enzymology has revealed a complex enzymatic mechanism that involves intermolecular interactions with upstream E2 conjugating enzymes and with substrates and intramolecular interactions that serve to regulate Nedd4 function. Thus, it is imperative that investigations of Nedd4 enzymology that employ recombinant enzyme be conducted with Nedd4 in its native, untagged form. We report herein an optimized, facile method for purification of recombinant human Nedd4 in its full-length form as a stable and active recombinant enzyme. Specifically, Nedd4 can be purified through a two-step purification which employs glutathione-S-transferase and hexahistidine sequences as orthogonal affinity tags. Proteolytic cleavage of Nedd4 was optimized to enable removal of the affinity tags with TEV protease, providing access to the untagged enzyme in yields of 2-3 mg/L. Additionally, investigation of Nedd4 storage conditions reveal that the enzyme is not stable through freeze-thaw cycles, and storage conditions should be carefully considered for preservation of enzyme stability. Finally, Nedd4 activity was validated through three activity assays which measure ubiquitin chain formation, Nedd4 autoubiquitination, and monoubiquitin consumption, respectively. Comparison of the method described herein with previously reported purification methods reveal that our optimized purification strategy enables access to Nedd4 in fewer chromatographic steps and eliminates reagents and materials that are potentially cost-prohibitive. This method, therefore, is more efficient and provides a more accessible route for purifying recombinant full-length Nedd4.