Joerg Nikolaus scite author profile

Flickering of fusion pores during exocytotic release of hormones and neurotransmitters is well documented, but without assays that use biochemically defined components and measure single-pore dynamics, the mechanisms remain poorly understood. We used total internal reflection fluorescence microscopy to quantify fusion-pore dynamics in vitro and to separate the roles of soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) proteins and lipid bilayer properties. When small unilamellar vesicles bearing neuronal v-SNAREs fused with planar bilayers reconstituted with cognate t-SNARES, lipid and soluble cargo transfer rates were severely reduced, suggesting that pores flickered. From the lipid release times we computed pore openness, the fraction of time the pore is open, which increased dramatically with cholesterol. For most lipid compositions tested, SNARE-mediated and nonspecifically nucleated pores had similar openness, suggesting that pore flickering was controlled by lipid bilayer properties. However, with physiological cholesterol levels, SNAREs substantially increased the fraction of fully open pores and fusion was so accelerated that there was insufficient time to recruit t-SNAREs to the fusion site, consistent with t-SNAREs being preclustered by cholesterol into functional docking and fusion platforms. Our results suggest that cholesterol opens pores directly by reducing the fusion-pore bending energy, and indirectly by concentrating several SNAREs into individual fusion events.

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Direct Visualization of Large and Protein-free Hemifusion Diaphragms

Nikolaus

Stoeckl

Langosch

et al. 2009

Biophysical Journal

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Fusion of cellular membranes is a ubiquitous biological process requiring remodeling of two phospholipid bilayers. We believe it is very likely that merging of membranes proceeds via similar sequential intermediates. Contacting membranes form a stalk between the proximal leaflets that expands radially into an hemifusion diaphragm (HD) and subsequently open to a fusion pore. Although considered to be a key intermediate in fusion, direct experimental verification of this structure is difficult due to its transient nature. Using confocal fluorescence microscopy we have investigated the fusion of giant unilamellar vesicles (GUVs) containing phosphatidylserine and fluorescent virus derived transmembrane peptides or membrane proteins in the presence of divalent cations. Time-resolved imaging revealed that fusion was preceded by displacement of peptides and fluorescent lipid analogs from the GUV-GUV adhesion region. A detailed analysis of this area being several mm in size revealed that peptides were completely sequestered as expected for an HD. Lateral distribution of lipid analogs was consistent with formation of an HD but not with the presence of two adherent bilayers. Formation and size of the HD were dependent on lipid composition and peptide concentration.

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Integrative molecular and clinical profiling of acral melanoma links focal amplification of 22q11.21 to metastasis

et al. 2022

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Acral melanoma, the most common melanoma subtype among non-White individuals, is associated with poor prognosis. However, its key molecular drivers remain obscure. Here, we perform integrative genomic and clinical profiling of acral melanomas from 104 patients treated in North America (n = 37) or China (n = 67). We find that recurrent, late-arising focal amplifications of cytoband 22q11.21 are a leading determinant of inferior survival, strongly associated with metastasis, and linked to downregulation of immunomodulatory genes associated with response to immune checkpoint blockade. Unexpectedly, LZTR1 – a known tumor suppressor in other cancers – is a key candidate oncogene in this cytoband. Silencing of LZTR1 in melanoma cell lines causes apoptotic cell death independent of major hotspot mutations or melanoma subtypes. Conversely, overexpression of LZTR1 in normal human melanocytes initiates processes associated with metastasis, including anchorage-independent growth, formation of spheroids, and an increase in MAPK and SRC activities. Our results provide insights into the etiology of acral melanoma and implicate LZTR1 as a key tumor promoter and therapeutic target.

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Retromer forms low order oligomers on supported lipid bilayers

Deatherage

Nikolaus

Karatekin

et al. 2020

Journal of Biological Chemistry

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Retromer orchestrates the selection and export of integral membrane proteins from the endosome via retrograde and plasma membrane recycling pathways. Long standing hypotheses regarding the Retromer sorting mechanism posit that oligomeric interactions between Retromer and associated accessory factors on the endosome membrane drives clustering of Retromer-bound integral membrane cargo prior to its packaging into a nascent transport carrier. To test this idea, we examined interactions between components of the Sorting Nexin 3 (SNX3)- Retromer sorting pathway using quantitative single particle fluorescence microscopy in a reconstituted system. This system includes a supported lipid bilayer, fluorescently labeled Retromer, SNX3, and two model cargo proteins, RAB7, and Retromer-binding segments of the WASHC2C subunit of the WASH complex. We found that the distribution of membrane-associated Retromer is predominantly comprised of monomer (~18%), dimer (~35%), trimer (~24%) and tetramer (~13%). Unexpectedly, neither the presence of membrane-associated cargo nor accessory factors substantially affected this distribution. The results indicate that Retromer has an intrinsic propensity to form low order oligomers on a supported lipid bilayer and that neither membrane association nor accessory factors potentiate oligomerization. The results support a model whereby SNX3-Retromer is a minimally concentrative coat protein complex adapted to bulk membrane trafficking from the endosomal system.

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Cardiac ultrastructure inspired matrix induces advanced metabolic and functional maturation of differentiated human cardiomyocytes

Afzal

Liu

et al. 2022

Cell Reports

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Joerg Nikolaus

Cholesterol Increases the Openness of SNARE-Mediated Flickering Fusion Pores

Direct Visualization of Large and Protein-free Hemifusion Diaphragms

Integrative molecular and clinical profiling of acral melanoma links focal amplification of 22q11.21 to metastasis

Retromer forms low order oligomers on supported lipid bilayers

Cardiac ultrastructure inspired matrix induces advanced metabolic and functional maturation of differentiated human cardiomyocytes

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