α-Synuclein (αS) plays a key role in Parkinson's disease. Although Parkinson's disease is typically “sporadic,” inherited αS missense mutations provide crucial insights into molecular mechanisms. Here, we examine two clinical mutants, E46K and G51D, which are both in the conserved N-terminus that mediates transient αS-membrane interactions. However, E46K increases and G51D decreases αS-membrane interactions. Previously, we amplified E46K via the 11-residue repeat motifs, creating “3K” (E35K+E46K+E61K). Here, we engineered these motifs to amplify G51D (V40D+G51D+V66D = “3D”) and systematically compared E46K/3K versus G51D/3D. We found that G51D increased cytosolic αS in neural cells and 3D aggravates this. G51D, and 3D even more, reduced αS multimer-to-monomer (αS60:αS14) ratio. Both amplified variants caused cellular stress in rat primary neurons and reduced growth in human neuroblastoma cells. Importantly, both 3K- and 3D-induced stress was ameliorated by pharmacologically inhibiting stearoyl-CoA desatura...