Your search keyword '"Dorothea Brandhorst"' showing total 3 results

1. Homotypic fusion of early endosomes: SNAREs do not determine fusion specificity

Author

Dorothea Brandhorst, Silvio O. Rizzoli, Reinhard Jahn, Thorsten Lang, Daniel Zwilling, and Undine Lippert

Subjects

Fusion, Multidisciplinary, Endosome, Lipid bilayer fusion, Endosomes, Biological Sciences, Biology, Membrane Fusion, PC12 Cells, Exocytosis, Rats, Cell biology, Animals, Syntaxin, biological phenomena, cell phenomena, and immunity, Organelle fusion, SNARE Proteins, Receptor, Secretory pathway

Abstract

Membrane fusion in the secretory pathway is mediated by soluble N -ethylmaleimide-sensitive factor attachment receptor (SNARE) proteins. Different fusion steps are thought to be effected by independent sets of SNAREs, but it is unclear whether specificity is determined by an intrinsic specificity of SNARE pairing or by upstream factors. Using a newly developed microscopy-based assay, we have investigated the SNARE specificity of homotypic early endosomal fusion. We show that early endosomes contain multiple sets of SNAREs, including, in addition to the putative early endosomal SNAREs, those involved in exocytosis and in fusion of late endosomes. We demonstrate that fusion is largely mediated by a complex formed by syntaxin 13, syntaxin 6, vti1a, and VAMP4, whereas the exocytic and late endosomal SNAREs play little or no role in the reaction. In contrast, proteoliposomes reconstituted with early endosomal SNAREs promiscuously fuse with liposomes containing exocytotic or late endosomal SNAREs. We conclude that the specificity of SNARE pairing does not suffice to determine the specificity of organelle fusion.

Published

2006

2. Endosome Fusion

Author

Dorothea Brandhorst and Reinhard Jahn

Published

2008

3. Evidence for early endosome-like fusion of recently endocytosed synaptic vesicles

Author

Reinhard Jahn, Dorothea Brandhorst, Tabrez J. Siddiqui, Daniel Zwilling, Silvio O. Rizzoli, Ioanna Bethani, and Dirk Wenzel

Subjects

Vesicle fusion, Endosome, Vesicle, Cell Biology, Endosomes, Biology, Endocytosis, Biochemistry, Synaptic vesicle, PC12 Cells, Exocytosis, Cell biology, Rats, Endocytic vesicle, Structural Biology, Genetics, Synaptic vesicle recycling, Animals, Synaptic Vesicles, SNARE Proteins, Molecular Biology

Abstract

Early endosomes are well-established acceptor compartments of endocytic vesicles in many cell types. Little evidence of their existence or function has been obtained in synapses, and it is generally believed that synaptic vesicles recycle without passing through an endosomal intermediate. We show here that the early endosomal SNARE proteins are enriched in synaptic vesicles. To investigate their function in the synapse, we isolated synaptic nerve terminals (synaptosomes), stimulated them in presence of different fluorescent markers to label the recycling vesicles and used these vesicles in in vitro fusion assays. The recently endocytosed vesicles underwent homotypic fusion. They also fused with endosomes from PC12 and BHK cells. The fusion process was dependent upon NSF activity. Moreover, fusion was dependent upon the early endosomal SNAREs but not upon the SNAREs involved in exocytosis. Our results thus show that at least a fraction of the vesicles endocytosed during synaptic activity are capable of fusing with early endosomes and lend support to an involvement of endosomal intermediates during recycling of synaptic vesicles.

Published

2006