Abstract
Nuclear pore complexes (NPCs) create large conduits for cargo transport between the nucleus and cytoplasm across the nuclear envelope (NE)1–3. These multi-megadalton structures are composed of about thirty different nucleoporins that are distributed in three main substructures (the inner, cytoplasmic and nucleoplasmic rings) around the central transport channel4–6. Here we use cryo-electron tomography on DLD-1 cells that were prepared using cryo-focused-ion-beam milling to generate a structural model for the human NPC in its native environment. We show that—compared with previous human NPC models obtained from purified NEs—the inner ring in our model is substantially wider; the volume of the central channel is increased by 75% and the nucleoplasmic and cytoplasmic rings are reorganized. Moreover, the NPC membrane exhibits asymmetry around the inner-ring complex. Using targeted degradation of Nup96, a scaffold nucleoporin of the cytoplasmic and nucleoplasmic rings, we observe the interdependence of each ring in modulating the central channel and maintaining membrane asymmetry. Our findings highlight the inherent flexibility of the NPC and suggest that the cellular environment has a considerable influence on NPC dimensions and architecture.
Highlights
Our current understanding of the human Nuclear pore complexes (NPCs) structure is based mainly on cryo-electron tomography studies of NPCs from purified nuclear envelope (NE) at 2–6 nm resolution[12,15,16]
Our study shows that the cellular environment substantially influences the diameter of the NPC central channel and emphasizes the modular, interdependent, architecture of the NPC and its role in shaping the NE
Cross-sections through the cryo-electron tomography (cryo-ET) map reveal that the NE at the NPC is asymmetric, with a steeper angle at the CR compared with at the NR, using the IR as a plane of reference (Fig. 2a)
Summary
Nuclear pore complexes (NPCs) create large conduits for cargo transport between the nucleus and cytoplasm across the nuclear envelope (NE)[1,2,3] These multi-megadalton structures are composed of about thirty different nucleoporins that are distributed in three main substructures (the inner, cytoplasmic and nucleoplasmic rings) around the central transport channel[4,5,6]. We use cryo-electron tomography on DLD-1 cells that were prepared using cryo-focused-ion-beam milling to generate a structural model for the human NPC in its native environment. We used cryo-FIB-milled lamellae of human DLD-1 cells containing an auxin-inducible degron (AID) tag at the NUP96 (HGNC symbol: NUP98) loci (homozygous NUP96::Neon-AID)[23] for the targeted depletion of Nup[96].
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