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Dilation of fusion pores by crowding of SNARE proteins

Hormones and neurotransmitters are released through fluctuating exocytotic fusion pores that can flicker open and shut multiple times. Cargo release and vesicle recycling depend on the fate of the pore, which may reseal or dilate irreversibly. Pore nucleation requires zippering between vesicle-assoc...

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Published in:	eLife 2017-03, Vol.6
Main Authors:	Wu, Zhenyong, Bello, Oscar D, Thiyagarajan, Sathish, Auclair, Sarah Marie, Vennekate, Wensi, Krishnakumar, Shyam S, O'Shaughnessy, Ben, Karatekin, Erdem
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Language:	English
Subjects:	Biophysics and Structural Biology Cell Biology Crowding Energy Exocytosis fusion pore HeLa Cells Hormones Hormones - metabolism Humans Lipids membrane fusion Neurotransmitter Agents - metabolism Neurotransmitters Nucleation Pores protein crowding Proteins Secretory Vesicles - metabolism SNAP receptors SNARE proteins SNARE Proteins - metabolism
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creator	Wu, Zhenyong Bello, Oscar D Thiyagarajan, Sathish Auclair, Sarah Marie Vennekate, Wensi Krishnakumar, Shyam S O'Shaughnessy, Ben Karatekin, Erdem
description	Hormones and neurotransmitters are released through fluctuating exocytotic fusion pores that can flicker open and shut multiple times. Cargo release and vesicle recycling depend on the fate of the pore, which may reseal or dilate irreversibly. Pore nucleation requires zippering between vesicle-associated v-SNAREs and target membrane t-SNAREs, but the mechanisms governing the subsequent pore dilation are not understood. Here, we probed the dilation of single fusion pores using v-SNARE-reconstituted ~23-nm-diameter discoidal nanolipoprotein particles (vNLPs) as fusion partners with cells ectopically expressing cognate, 'flipped' t-SNAREs. Pore nucleation required a minimum of two v-SNAREs per NLP face, and further increases in v-SNARE copy numbers did not affect nucleation rate. By contrast, the probability of pore dilation increased with increasing v-SNARE copies and was far from saturating at 15 v-SNARE copies per face, the NLP capacity. Our experimental and computational results suggest that SNARE availability may be pivotal in determining whether neurotransmitters or hormones are released through a transient ('kiss and run') or an irreversibly dilating pore (full fusion).
doi_str_mv	10.7554/elife.22964
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subjects	Biophysics and Structural Biology Cell Biology Crowding Energy Exocytosis fusion pore HeLa Cells Hormones Hormones - metabolism Humans Lipids membrane fusion Neurotransmitter Agents - metabolism Neurotransmitters Nucleation Pores protein crowding Proteins Secretory Vesicles - metabolism SNAP receptors SNARE proteins SNARE Proteins - metabolism
title	Dilation of fusion pores by crowding of SNARE proteins
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