Jens Rettig scite author profile

Structural and functional diversity of voltage-gated Kv1-type potassium channels in rat brain is enhanced by the association of two different types of subunits, the membrane-bound, poreforming alpha-subunits and a peripheral beta-subunit. We have cloned a beta-subunit (Kv beta 1) that is specifically expressed in the rat nervous system. Association of Kv beta 1 with alpha-subunits confers rapid A-type inactivation on non-inactivating Kv1 channels (delayed rectifiers) in expression systems in vitro. This effect is mediated by an inactivating ball domain in the Kv beta 1 amino terminus.

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Munc13-1 Is a Presynaptic Phorbol Ester Receptor that Enhances Neurotransmitter Release

Betz

Ashery

Rickmann

et al. 1998

Neuron

388

434

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Munc13-1, a mammalian homolog of C. elegans unc-13p, is thought to be involved in the regulation of synaptic transmission. We now demonstrate that Munc13-1 is a presynaptic high-affinity phorbol ester and diacylglycerol receptor with ligand affinities similar to those of protein kinase C. Munc13-1 associates with the plasma membrane in response to phorbol ester binding and acts as a phorbol ester-dependent enhancer of transmitter release when overexpressed presynaptically in the Xenopus neuromuscular junction. These observations establish Munc13-1 as a novel presynaptic target of the diacylglycerol second messenger pathway that acts in parallel with protein kinase C to regulate neurotransmitter secretion.

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Functional Interaction of the Active Zone Proteins Munc13-1 and RIM1 in Synaptic Vesicle Priming

Betz

Thakur

Junge

et al. 2001

Neuron

378

416

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Synaptic neurotransmitter release is restricted to active zones, where the processes of synaptic vesicle tethering, priming to fusion competence, and Ca2+-triggered fusion are taking place in a highly coordinated manner. We show that the active zone components Munc13-1, an essential vesicle priming protein, and RIM1, a Rab3 effector with a putative role in vesicle tethering, interact functionally. Disruption of this interaction causes a loss of fusion-competent synaptic vesicles, creating a phenocopy of Munc13-1-deficient neurons. RIM1 binding and vesicle priming are mediated by two distinct structural modules of Munc13-1. The Munc13-1/RIM1 interaction may create a functional link between synaptic vesicle tethering and priming, or it may regulate the priming reaction itself, thereby determining the number of fusion-competent vesicles.

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Munc18-1 Promotes Large Dense-Core Vesicle Docking

Voets

Toonen

Brian

et al. 2001

Neuron

345

372

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Secretory vesicles dock at the plasma membrane before Ca(2+) triggers their exocytosis. Exocytosis requires the assembly of SNARE complexes formed by the vesicle protein Synaptobrevin and the membrane proteins Syntaxin-1 and SNAP-25. We analyzed the role of Munc18-1, a cytosolic binding partner of Syntaxin-1, in large dense-core vesicle (LDCV) secretion. Calcium-dependent LDCV exocytosis was reduced 10-fold in mouse chromaffin cells lacking Munc18-1, but the kinetic properties of the remaining release, including single fusion events, were not different from controls. Concomitantly, mutant cells displayed a 10-fold reduction in morphologically docked LDCVs. Moreover, acute overexpression of Munc18-1 in bovine chromaffin cells increased the amount of releasable vesicles and accelerated vesicle supply. We conclude that Munc18-1 functions upstream of SNARE complex formation and promotes LDCV docking.

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T cell activation requires mitochondrial translocation to the immunological synapse

Quintana

Schwindling

Wenning

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

297

325

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T helper (Th) cell activation is required for the adaptive immune response. Formation of the immunological synapse (IS) between Th cells and antigen-presenting cells is essential for Th cell activation. IS formation induces the polarization and redistribution of many signaling molecules; however, very little is known about organelle redistribution during IS formation in Th cells. We show that formation of the IS induced cytoskeleton-dependent mitochondrial redistribution to the immediate vicinity of the IS. Using total internal reflection microscopy, we found that upon stimulation, the distance between the IS and mitochondria was decreased to values <200 nm. Consequently, mitochondria close to the IS took up more Ca 2؉ than the ones farther away from the IS. The redistribution of mitochondria to the IS was necessary to maintain Ca 2؉ influx across the plasma membrane and Ca 2؉ -dependent Th cell activation. Our results suggest that mitochondria are part of the signaling complex at the IS and that their localization close to the IS is required for Th cell activation.calcium ͉ lymphocyte ͉ mitochondria

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Identification of a syntaxin-binding site on N-Type calcium channels

Sheng

Rettig

Takahashi

et al. 1994

Neuron

413

332

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Munc13-1 acts as a priming factor for large dense-core vesicles in bovine chromaffin cells

et al. 2000

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In chromaf®n cells the number of large dense-core vesicles (LDCVs) which can be released by brief, intense stimuli represents only a small fraction of thè morphologically docked' vesicles at the plasma membrane. Recently, it was shown that Munc13-1 is essential for a post-docking step of synaptic vesicle fusion. To investigate the role of Munc13-1 in LDCV exocytosis, we overexpressed Munc13-1 in chromaf®n cells and stimulated secretion by¯ash photolysis of caged calcium. Both components of the exocytotic burst, which represent the fusion of release-competent vesicles, were increased by a factor of three. The sustained component, which represents vesicle maturation and subsequent fusion, was increased by the same factor. The response to a second¯ash, however, was greatly reduced, indicating a depletion of releasecompetent vesicles. Since there was no apparent change in the number of docked vesicles, we conclude that Munc13-1 acts as a priming factor by accelerating the rate constant of vesicle transfer from a pool of docked, but unprimed vesicles to a pool of releasecompetent, primed vesicles.

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Emerging Roles of Presynaptic Proteins in Ca ⁺⁺ -Triggered Exocytosis

Rettig

Neher

2002

Science

309

269

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The twinning of techniques from biophysics and molecular biology has led to remarkable progress in understanding the molecular mechanisms of synaptic transmission. Here we review the current picture of Ca++-triggered exocytosis, which has emerged from studies of a simple cellular model, the adrenal chromaffin cell. We discuss the molecular players that have been assigned a specific role in a particular step of this process and give a brief outlook on what these insights might tell us about mechanisms of short-term plasticity at classical synapses.

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Jens Rettig

Inactivation properties of voltage-gated K+ channels altered by presence of β-subunit

Munc13-1 Is a Presynaptic Phorbol Ester Receptor that Enhances Neurotransmitter Release

Functional Interaction of the Active Zone Proteins Munc13-1 and RIM1 in Synaptic Vesicle Priming

Munc18-1 Promotes Large Dense-Core Vesicle Docking

T cell activation requires mitochondrial translocation to the immunological synapse

Identification of a syntaxin-binding site on N-Type calcium channels

Munc13-1 acts as a priming factor for large dense-core vesicles in bovine chromaffin cells

Emerging Roles of Presynaptic Proteins in Ca ⁺⁺ -Triggered Exocytosis

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Jens Rettig

Inactivation properties of voltage-gated K+ channels altered by presence of β-subunit

Munc13-1 Is a Presynaptic Phorbol Ester Receptor that Enhances Neurotransmitter Release

Functional Interaction of the Active Zone Proteins Munc13-1 and RIM1 in Synaptic Vesicle Priming

Munc18-1 Promotes Large Dense-Core Vesicle Docking

T cell activation requires mitochondrial translocation to the immunological synapse

Identification of a syntaxin-binding site on N-Type calcium channels

Munc13-1 acts as a priming factor for large dense-core vesicles in bovine chromaffin cells

Emerging Roles of Presynaptic Proteins in Ca ++ -Triggered Exocytosis

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Product

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Emerging Roles of Presynaptic Proteins in Ca ⁺⁺ -Triggered Exocytosis