Cell Mechanics by Yusuke Toyoda
Papers by Yusuke Toyoda
Open Biology
Mitochondria are essential for regulation of cellular respiration, energy production, small molec... more Mitochondria are essential for regulation of cellular respiration, energy production, small molecule metabolism, anti-oxidation and cell ageing, among other things. While the mitochondrial genome contains a small number of protein-coding genes, the great majority of mitochondrial proteins are encoded by chromosomal genes. In the fission yeast Schizosaccharomyces pombe , 770 proteins encoded by chromosomal genes are located in mitochondria. Of these, 195 proteins, many of which are implicated in translation and transport, are absolutely essential for viability. We isolated and characterized eight temperature-sensitive ( ts ) strains with mutations in essential mitochondrial proteins. Interestingly, they are also sensitive to limited nutrition (glucose and/or nitrogen), producing low-glucose-sensitive and ‘super-housekeeping' phenotypes. They fail to produce colonies under low-glucose conditions at the permissive temperature or lose cell viability under nitrogen starvation at the ...
The 195 S. pombe genes encoding mitochondrial proteins essential for viability in regular culture... more The 195 S. pombe genes encoding mitochondrial proteins essential for viability in regular culture medium. These genes are categorized by the terms used in Figure 5.
Journal of Cell Science, 2021
In the fission yeast, Schizosaccharomyces pombe, the high-affinity hexose transporter, Ght5, must... more In the fission yeast, Schizosaccharomyces pombe, the high-affinity hexose transporter, Ght5, must be transcriptionally upregulated and localized to the cell surface for cell division under limited glucose. Although cell-surface localization of Ght5 depends on Target of rapamycin complex 2 (TORC2), the molecular mechanisms by which TORC2 ensures proper localization of Ght5 remain unknown. We performed genetic screening for gene mutations that restore Ght5 localization on the cell surface in TORC2-deficient mutant cells, and identified a gene encoding an uncharacterized α-arrestin-like protein, Aly3/SPCC584.15c. α-arrestins are thought to recruit a ubiquitin ligase to membrane-associated proteins. Consistently, Ght5 is ubiquitylated in TORC2-deficient cells, and this ubiquitylation is dependent on Aly3. TORC2 supposedly enables cell-surface localization of Ght5 by preventing Aly3-dependent ubiquitylation and subsequent ubiquitylation-dependent translocation of Ght5 to vacuoles. Surpri...
Biomolecules, 2021
Target of rapamycin (TOR) kinases form two distinct complexes, TORC1 and TORC2, which are evoluti... more Target of rapamycin (TOR) kinases form two distinct complexes, TORC1 and TORC2, which are evolutionarily conserved among eukaryotes. These complexes control intracellular biochemical processes in response to changes in extracellular nutrient conditions. Previous studies using the fission yeast, Schizosaccharomyces pombe, showed that the TORC2 signaling pathway, which is essential for cell proliferation under glucose-limited conditions, ensures cell-surface localization of a high-affinity hexose transporter, Ght5, by downregulating its endocytosis. The TORC2 signaling pathway retains Ght5 on the cell surface, depending on the presence of nitrogen sources in medium. Ght5 is transported to vacuoles upon nitrogen starvation. In this review, we discuss the molecular mechanisms underlying this regulation to cope with nutritional stress, a response which may be conserved from yeasts to mammals.
FEBS Letters, 2018
Many human-cultured cell lines survive glucose starvation, but the underlying mechanisms remain u... more Many human-cultured cell lines survive glucose starvation, but the underlying mechanisms remain unclear. Here, we searched for proteins required for cellular adaptation to glucose-limited conditions and identified several endoplasmic reticulum chaperones in the glucose-regulated protein (GRP) family as proteins enriched in the cellular membrane. Surprisingly, these proteins, which are required for cell surface localization of GLUT1 under high-glucose conditions, become dispensable for targeting GLUT1 to the surface upon glucose starvation. In marked contrast, cell surface localization of single-pass transmembrane proteins, such as epidermal growth factor receptor and CD98, is not disturbed by GRP78 depletion regardless of the extracellular glucose level. These results indicate that the extracellular glucose level regulates dependence on the GRPs for cell surface localization of multipass transmembrane proteins.
Nature communications, Nov 2, 2017
To divide, most animal cells drastically change shape and round up against extracellular confinem... more To divide, most animal cells drastically change shape and round up against extracellular confinement. Mitotic cells facilitate this process by generating intracellular pressure, which the contractile actomyosin cortex directs into shape. Here, we introduce a genome-scale microcantilever- and RNAi-based approach to phenotype the contribution of > 1000 genes to the rounding of single mitotic cells against confinement. Our screen analyzes the rounding force, pressure and volume of mitotic cells and localizes selected proteins. We identify 49 genes relevant for mitotic rounding, a large portion of which have not previously been linked to mitosis or cell mechanics. Among these, depleting the endoplasmic reticulum-localized protein FAM134A impairs mitotic progression by affecting metaphase plate alignment and pressure generation by delocalizing cortical myosin II. Furthermore, silencing the DJ-1 gene uncovers a link between mitochondria-associated Parkinson's disease and mitotic pr...
Biophysical journal, Jan 9, 2016
The cell cortex is a key structure for the regulation of cell shape and tissue organization. To r... more The cell cortex is a key structure for the regulation of cell shape and tissue organization. To reach a better understanding of the mechanics and dynamics of the cortex, we study here HeLa cells in mitosis as a simple model system. In our assay, single rounded cells are dynamically compressed between two parallel plates. Our measurements indicate that the cortical layer is the dominant mechanical element in mitosis as opposed to the cytoplasmic interior. To characterize the time-dependent rheological response, we extract a complex elastic modulus that characterizes the resistance of the cortex against area dilation. In this way, we present a rheological characterization of the cortical actomyosin network in the linear regime. Furthermore, we investigate the influence of actin cross linkers and the impact of active prestress on rheological behavior. Notably, we find that cell mechanics values in mitosis are captured by a simple rheological model characterized by a single timescale on...
Biomolecular concepts, Jan 29, 2015
The cell must utilise nutrients to generate energy as a means of sustaining its life. As the envi... more The cell must utilise nutrients to generate energy as a means of sustaining its life. As the environment is not necessarily abundant in nutrients and oxygen, the cell must be able to regulate energy metabolism to adapt to changes in extracellular and intracellular conditions. Recently, several key regulators of energy metabolism have been reported. This review describes the recent advances in molecular regulation of energy metabolism, focusing mainly on glycolysis and its shunt pathways. Human diseases, such as cancer and neurodegenerative disorders, are also discussed in relation to failure of energy metabolism regulation.
Nature communications, Jan 25, 2015
Little is known about how mitotic cells round against epithelial confinement. Here, we engineer m... more Little is known about how mitotic cells round against epithelial confinement. Here, we engineer micropillar arrays that subject cells to lateral mechanical confinement similar to that experienced in epithelia. If generating sufficient force to deform the pillars, rounding epithelial (MDCK) cells can create space to divide. However, if mitotic cells cannot create sufficient space, their rounding force, which is generated by actomyosin contraction and hydrostatic pressure, pushes the cell out of confinement. After conducting mitosis in an unperturbed manner, both daughter cells return to the confinement of the pillars. Cells that cannot round against nor escape confinement cannot orient their mitotic spindles and more likely undergo apoptosis. The results highlight how spatially constrained epithelial cells prepare for mitosis: either they are strong enough to round up or they must escape. The ability to escape from confinement and reintegrate after mitosis appears to be a basic prope...
Cell, 2015
Highlights d Human interactome dataset connecting 5,400 proteins with 28,500 interactions d Three... more Highlights d Human interactome dataset connecting 5,400 proteins with 28,500 interactions d Three quantitative dimensions measure specificities, stoichiometries, and abundances d Stable complexes are rare but stand out by a signature of balanced stoichiometries d Weak interactions dominate the network and have critical topological properties
Biophysical Journal, 2014
a confined environment, what are the cell tension fields in the epithelial monolayer under these ... more a confined environment, what are the cell tension fields in the epithelial monolayer under these conditions, how the cells adapt to the pressure and the shape and rigidity of the confinement, and how the whole monolayer react to the accumulated lateral pressure due to cell proliferation. These will let me decipher how epithelium deformation is driven by cell proliferation and tension during development.
Medical Image Analysis, 2014
With the widespread use of time-lapse data to understand cellular function, there is a need for t... more With the widespread use of time-lapse data to understand cellular function, there is a need for tools which facilitate high-throughput analysis of data. Fluorescence microscopy of genetically engineered cell lines in culture can be used to visualise the progression of these cells through the cell cycle, including distinctly identifiable sequential stages of cell division (mitotic phases). We present a system for automated segmentation and mitotic phase labelling using temporal models. This work takes the novel approach of using temporal features evaluated over the whole of the mitotic phases rather than over single frames, thereby capturing the distinctive behaviour over the phases. We compare and contrast three different temporal models: Dynamic Time Warping, Hidden Markov Models, and Semi Markov Models. A new loss function is proposed for the Semi Markov model to make it more robust to inconsistencies in data annotation near transition boundaries. The models are tested under two different experimental conditions to explore robustness to changes in biological conditions.
2012 9th IEEE International Symposium on Biomedical Imaging (ISBI), 2012
With the widespread use of time-lapse data to understand cellular function, there is a need for t... more With the widespread use of time-lapse data to understand cellular function, there is a need for tools which facilitate highthroughput analysis of data. We present a system for automated segmentation and mitotic phase labelling based on a wide margin discriminative Semi-Markov Model. This work takes the novel approach of using temporal features evaluated over the whole of the mitotic phases rather than over single frames, thereby capturing the distinctive behaviour over the phases. This approach extends and substantially improves on our previous approach of using dynamic time warping to align temporal feature signals to a reference.
The EMBO journal, Jan 13, 2015
The cell surface is the cellular compartment responsible for communication with the environment. ... more The cell surface is the cellular compartment responsible for communication with the environment. The interior of mammalian cells undergoes dramatic reorganization when cells enter mitosis. These changes are triggered by activation of the CDK1 kinase and have been studied extensively. In contrast, very little is known of the cell surface changes during cell division. We undertook a quantitative proteomic comparison of cell surface-exposed proteins in human cancer cells that were tightly synchronized in mitosis or interphase. Six hundred and twenty-eight surface and surface-associated proteins in HeLa cells were identified; of these, 27 were significantly enriched at the cell surface in mitosis and 37 in interphase. Using imaging techniques, we confirmed the mitosis-selective cell surface localization of protocadherin PCDH7, a member of a family with anti-adhesive roles in embryos. We show that PCDH7 is required for development of full mitotic rounding pressure at the onset of mitosis...
Biology open, Jan 25, 2014
Parkinson's disease is associated with mitochondrial decline in dopaminergic neurons of the s... more Parkinson's disease is associated with mitochondrial decline in dopaminergic neurons of the substantia nigra. One of the genes linked with the onset of Parkinson's disease, DJ-1/PARK7, belongs to a novel glyoxalase family and influences mitochondrial activity. It has been assumed that glyoxalases fulfill this task by detoxifying aggressive aldehyde by-products of metabolism. Here we show that supplying either D-lactate or glycolate, products of DJ-1, rescues the requirement for the enzyme in maintenance of mitochondrial potential. We further show that glycolic acid and D-lactic acid can elevate lowered mitochondrial membrane potential caused by silencing PINK-1, another Parkinson's related gene, as well as by paraquat, an environmental toxin known to be linked with Parkinson's disease. We propose that DJ-1 and consequently its products are components of a novel pathway that stabilizes mitochondria during cellular stress. We go on to show that survival of cultured mes...
Trends in Biochemical Sciences, 2011
Uploads
Cell Mechanics by Yusuke Toyoda
Papers by Yusuke Toyoda