cn3c00040_si_001.pdf (1.63 MB)
Intrinsic Disorder in α‑Synuclein Regulates the Exocytotic Fusion Pore Transition
journal contributionposted on 2023-05-16, 19:36 authored by Ary Lautaro Di Bartolo, Marcelo Caparotta, Diego Masone
Today, it is widely accepted that intrinsic disorder is strongly related to the cell cycle, during mitosis, differentiation, and apoptosis. Of particular interest are hybrid proteins possessing both structured and unstructured domains that are critical in human health and disease, such as α-synuclein. In this work, we describe how α-synuclein interacts with the nascent fusion pore as it evolves toward expansion. We unveil the key role played by its intrinsically disordered region as a thermodynamic regulator of the nucleation-expansion energy barrier. By analyzing a truncated variant of α-synuclein that lacks the disordered region, we find that the landscape of protein interactions with PIP2 and POPS lipids is highly altered, ultimately increasing the energy cost for the fusion pore to transit from nucleation to expansion. We conclude that the intrinsically disordered region in full-length α-synuclein recognizes and allocates pivotal protein:lipid interactions during membrane remodeling in the first stages of the fusion pore.
key role playedhybrid proteins possessingallocates pivotal proteinevolves toward expansionnascent fusion poreintrinsically disordered region2 subexpansion energy barrierfusion poredisordered regionprotein interactionsenergy costwidely acceptedunstructured domainsultimately increasingtruncated variantthermodynamic regulatorstrongly relatedpops lipidsparticular interestmembrane remodelinglipid interactionsintrinsic disorderhuman healthhighly alteredfirst stagescell cycle