Sarah Bianchi scite author profile

Kinesin motor proteins play a fundamental role for normal neuronal development by controlling intracellular cargo transport and microtubule (MT) cytoskeleton organization. Regulating kinesin activity is important to ensure their proper functioning, and their misregulation often leads to severe human neurological disorders. Homozygous nonsense mutations in kinesin-binding protein (KBP)/KIAA1279 cause the neurological disorder Goldberg-Shprintzen syndrome (GOSHS), which is characterized by intellectual disability, microcephaly, and axonal neuropathy. Here, we show that KBP regulates kinesin activity by interacting with the motor domains of a specific subset of kinesins to prevent their association with the MT cytoskeleton. The KBP-interacting kinesins include cargo-transporting motors such as kinesin-3/KIF1A and MT-depolymerizing motor kinesin-8/KIF18A. We found that KBP blocks KIF1A/UNC-104-mediated synaptic vesicle transport in cultured hippocampal neurons and in C. elegans PVD sensory neurons. In contrast, depletion of KBP results in the accumulation of KIF1A motors and synaptic vesicles in the axonal growth cone. We also show that KBP regulates neuronal MT dynamics by controlling KIF18A activity. Our data suggest that KBP functions as a kinesin inhibitor that modulates MT-based cargo motility and depolymerizing activity of a subset of kinesin motors. We propose that misregulation of KBP-controlled kinesin motors may represent the underlying molecular mechanism that contributes to the neuropathological defects observed in GOSHS patients.

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Kinesin-4 KIF21B is a potent microtubule pausing factor

Riel

Rai

Bianchi

et al. 2017

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Microtubules are dynamic polymers that in cells can grow, shrink or pause, but the factors that promote pausing are poorly understood. Here, we show that the mammalian kinesin-4 KIF21B is a processive motor that can accumulate at microtubule plus ends and induce pausing. A few KIF21B molecules are sufficient to induce strong growth inhibition of a microtubule plus end in vitro. This property depends on non-motor microtubule-binding domains located in the stalk region and the C-terminal WD40 domain. The WD40-containing KIF21B tail displays preference for a GTP-type over a GDP-type microtubule lattice and contributes to the interaction of KIF21B with microtubule plus ends. KIF21B also contains a motor-inhibiting domain that does not fully block the interaction of the protein with microtubules, but rather enhances its pause-inducing activity by preventing KIF21B detachment from microtubule tips. Thus, KIF21B combines microtubule-binding and regulatory activities that together constitute an autonomous microtubule pausing factor.DOI: http://dx.doi.org/10.7554/eLife.24746.001

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A Direct and Versatile Assay Measuring Membrane Penetration of Adenovirus in Single Cells

Suomalainen

Luisoni

Boucke

et al. 2013

J Virol

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Endocytosis is the most prevalent entry port for viruses into cells, but viruses must escape from the lumen of endosomes to ensure that viral genomes reach a site for replication and progeny formation. Endosomal escape also helps viruses bypass endolysosomal degradation and presentation to certain Toll-like intrinsic immunity receptors. The mechanisms for cytosolic delivery of nonenveloped viruses or nucleocapsids from enveloped viruses are poorly understood, in part because no quantitative assays are readily available which directly measure the penetration of viruses into the cytosol. Following uptake by clathrin-mediated endocytosis or macropinocytosis, the nonenveloped adenoviruses penetrate from endosomes to the cytosol, and they traffic with cellular motors on microtubules to the nucleus for replication. In this report, we present a novel single-cell imaging assay which quantitatively measures individual cytosolic viruses and distinguishes them from endosomal viruses or viruses at the plasma membrane. Using this assay, we showed that the penetration of human adenoviruses of the species C and B occurs rapidly after virus uptake. Efficient penetration does not require acidic pH in endosomes. This assay is versatile and can be adapted to other adenoviruses and members of other nonenveloped and enveloped virus families.

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Ultraviolet Plasmonic Chirality from Colloidal Aluminum Nanoparticles Exhibiting Charge‐Selective Protein Detection

et al. 2015

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Structural basis for misregulation of kinesin KIF21A autoinhibition by CFEOM1 disease mutations

Bianchi

Riel

Kraatz

et al. 2016

Sci Rep

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Tight regulation of kinesin activity is crucial and malfunction is linked to neurological diseases. Point mutations in the KIF21A gene cause congenital fibrosis of the extraocular muscles type 1 (CFEOM1) by disrupting the autoinhibitory interaction between the motor domain and a regulatory region in the stalk. However, the molecular mechanism underlying the misregulation of KIF21A activity in CFEOM1 is not understood. Here, we show that the KIF21A regulatory domain containing all disease-associated substitutions in the stalk forms an intramolecular antiparallel coiled coil that inhibits the kinesin. CFEOM1 mutations lead to KIF21A hyperactivation by affecting either the structural integrity of the antiparallel coiled coil or the autoinhibitory binding interface, thereby reducing its affinity for the motor domain. Interaction of the KIF21A regulatory domain with the KIF21B motor domain and sequence similarities to KIF7 and KIF27 strongly suggest a conservation of this regulatory mechanism in other kinesin-4 family members.

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Interaction between theCaenorhabditis eleganscentriolar protein SAS-5 and microtubules facilitates organelle assembly

Bianchi

Rogala

Dynes

et al. 2018

MBoC

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Centrioles are microtubule-based organelles that organize the microtubule network and seed the formation of cilia and flagella. New centrioles assemble through a stepwise process dependent notably on the centriolar protein SAS-5 in Caenorhabditis elegans. SAS-5 and its functional homologues in other species form oligomers that bind the centriolar proteins SAS-6 and SAS-4, thereby forming an evolutionarily conserved structural core at the onset of organelle assembly. Here, we report a novel interaction of SAS-5 with microtubules. Microtubule binding requires SAS-5 oligomerization and a disordered protein segment that overlaps with the SAS-4 binding site. Combined in vitro and in vivo analysis of select mutants reveals that the SAS-5–microtubule interaction facilitates centriole assembly in C. elegans embryos. Our findings lead us to propose that the interdependence of SAS-5 oligomerization and microtubule binding reflects an avidity mechanism, which also strengthens SAS-5 associations with other centriole components and, thus, promotes organelle assembly.

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Combinatorial use of disulfide bridges and native sulfur-SAD phasing for rapid structure determination of coiled-coils

Kraatz

Bianchi

Steinmetz

2018

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Coiled-coils are ubiquitous protein–protein interaction motifs found in many eukaryotic proteins. The elongated, flexible and often irregular nature of coiled-coils together with their tendency to form fibrous arrangements in crystals imposes challenges on solving the phase problem by molecular replacement. Here, we report the successful combinatorial use of native and rational engineered disulfide bridges together with sulfur-SAD phasing as a powerful tool to stabilize and solve the structure of coiled-coil domains in a straightforward manner. Our study is a key example of how modern sulfur SAD combined with mutagenesis can help to advance and simplify the structural study of challenging coiled-coil domains by X-ray crystallography.

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Vom ‚Scham-Ersparen’. Über Nietzsches fragiles Verständnis von Anerkennung in Abgrenzung zur französischen Verkennungslinie

Bianchi¹

2017

ZfPP

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distance to the French strand. This thesis will be explored by considering the social practice of "shame" as a distinct example of recognition-based relation in concrete human life. The point of departure is Jean Paul Sartre's chapter on the gaze in "Being and Nothing" in order to better examine his understanding of shame as a concrete form of recognition. Different from Sartre, Nietzsche's understanding of shame can be interpreted as a fragile form of recognition in the concrete mode of living. Thereby, I aim to show that Nietzsche's understanding of recognition does not take Sartre's path in which the other is always reifying me, thus the other makes my freedom impossible. Such a process is so fragile that it is basically at risk of changing into a form of vulnerability. Nietzsche, however, basically makes room for its success, even though it is very difficult -recognition in the eye of its mutual vulnerability.

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Sarah Bianchi

Kinesin-Binding Protein Controls Microtubule Dynamics and Cargo Trafficking by Regulating Kinesin Motor Activity

Kinesin-4 KIF21B is a potent microtubule pausing factor

A Direct and Versatile Assay Measuring Membrane Penetration of Adenovirus in Single Cells

Ultraviolet Plasmonic Chirality from Colloidal Aluminum Nanoparticles Exhibiting Charge‐Selective Protein Detection

Structural basis for misregulation of kinesin KIF21A autoinhibition by CFEOM1 disease mutations

Interaction between theCaenorhabditis eleganscentriolar protein SAS-5 and microtubules facilitates organelle assembly

Combinatorial use of disulfide bridges and native sulfur-SAD phasing for rapid structure determination of coiled-coils

Vom ‚Scham-Ersparen’. Über Nietzsches fragiles Verständnis von Anerkennung in Abgrenzung zur französischen Verkennungslinie

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