Johannes Fürst scite author profile

In alveolar type II cells, the release of surfactant is considerably delayed after the formation of exocytotic fusion pores, suggesting that content dispersal may be limited by fusion pore diameter and subject to regulation at a postfusion level. To address this issue, we used confocal FRAP and N-(3-triethylammoniumpropyl)-4-(4-[dibutylamino]styryl) pyridinium dibromide (FM 1-43), a dye yielding intense localized fluorescence of surfactant when entering the vesicle lumen through the fusion pore (Haller, T., J. Ortmayr, F. Friedrich, H. Volkl, and P. Dietl. 1998. Proc. Natl. Acad. Sci. USA. 95:1579–1584). Thus, we have been able to monitor the dynamics of individual fusion pores up to hours in intact cells, and to calculate pore diameters using a diffusion model derived from Fick's law. After formation, fusion pores were arrested in a state impeding the release of vesicle contents, and expanded at irregular times thereafter. The expansion rate of initial pores and the probability of late expansions were increased by elevation of the cytoplasmic Ca2+ concentration. Consistently, content release correlated with the occurrence of Ca2+ oscillations in ATP-treated cells, and expanded fusion pores were detectable by EM. This study supports a new concept in exocytosis, implicating fusion pores in the regulation of content release for extended periods after initial formation.

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Molecular and functional aspects of anionic channels activated during regulatory volume decrease in mammalian cells*

Fürst

Gschwentner

Ritter

et al. 2002

Pflügers Arch - Eur J Physiol

105

119

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Cell Swelling Stimulates Cytosol to Membrane Transposition of ICln

Ritter

Ravasio

Jakab

et al. 2003

Journal of Biological Chemistry

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ICln is a multifunctional protein that is essential for cell volume regulation. It can be found in the cytosol and is associated with the cell membrane. Besides its role in the splicing process, ICln is critically involved in the generation of ion currents activated during regulatory volume decrease after cell swelling (RVDC). If reconstituted in artificial bilayers, ICln can form ion channels with biophysical properties related to RVDC. We investigated (

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Functional reconstitution of ICln in lipid bilayers

Fürst¹,

Bazzini²,

Jakab³

et al. 2000

Pflügers Arch

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Electron cryomicroscopy structure of N-ethyl maleimide sensitive factor at 11 A resolution

Fürst

2003

The EMBO Journal

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and brunger@stanford.edu J.Furst and R.B.Sutton contributed equally to this work N-ethyl maleimide sensitive factor (NSF) belongs to the AAA family of ATPases and is involved in a number of cellular functions, including vesicle fusion and traf®cking of membrane proteins. We present the three-dimensional structure of the hydrolysis mutant E329Q of NSF complexed with an ATP±ADP mixture at 11 A Ê resolution by electron cryomicroscopy and single-particle averaging of NSF´a-SNAP´SNARE complexes. The NSF domains D1 and D2 form hexameric rings that are arranged in a double-layered barrel. Our structure is more consistent with an antiparallel orientation of the two rings rather than a parallel one. The crystal structure of the D2 domain of NSF was docked into the EM density map and shows good agreement, including details at the secondary structural level. Six protrusions corresponding to the N domain of NSF (NSF-N) emerge from the sides of the D1 domain ring. The density corresponding to a-SNAP and SNAREs is located on the 6-fold axis of the structure, near the NSF-N domains. The density of the N domain is weak, suggesting conformational variability in this part of NSF.

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Johannes Fürst

Fusion pore expansion is a slow, discontinuous, and Ca2+-dependent process regulating secretion from alveolar type II cells

Molecular and functional aspects of anionic channels activated during regulatory volume decrease in mammalian cells*

Cell Swelling Stimulates Cytosol to Membrane Transposition of ICln

Functional reconstitution of ICln in lipid bilayers

Electron cryomicroscopy structure of N-ethyl maleimide sensitive factor at 11 A resolution

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