Real-time visualization of perforin nanopore assembly.
Carl LeungAdrian W HodelAmelia J BrennanNatalya LukoyanovaSharon TranColin M HouseStephanie C KondosJames C WhisstockMichelle A DunstoneJoseph A TrapaniIlia VoskoboinikHelen R SaibilBart W HoogenboomPublished in: Nature nanotechnology (2017)
Perforin is a key protein of the vertebrate immune system. Secreted by cytotoxic lymphocytes as soluble monomers, perforin can self-assemble into oligomeric pores of 10-20 nm inner diameter in the membranes of virus-infected and cancerous cells. These large pores facilitate the entry of pro-apoptotic granzymes, thereby rapidly killing the target cell. To elucidate the pathways of perforin pore assembly, we carried out real-time atomic force microscopy and electron microscopy studies. Our experiments reveal that the pore assembly proceeds via a membrane-bound prepore intermediate state, typically consisting of up to approximately eight loosely but irreversibly assembled monomeric subunits. These short oligomers convert to more closely packed membrane nanopore assemblies, which can subsequently recruit additional prepore oligomers to grow the pore size.
Keyphrases
- atomic force microscopy
- electron microscopy
- single molecule
- single cell
- induced apoptosis
- high speed
- cell death
- cell cycle arrest
- anti inflammatory
- genome wide
- photodynamic therapy
- peripheral blood
- cell therapy
- stem cells
- solid state
- gene expression
- high resolution
- dna methylation
- cell proliferation
- mass spectrometry
- small molecule
- amino acid
- bone marrow
- pi k akt
- oxidative stress