Your search keyword '"Szymborska A"' showing total 19 results

1. Tyrosine-protein kinase Yes controls endothelial junctional plasticity and barrier integrity by regulating VE-cadherin phosphorylation and endocytosis.

Author

Jin Y, Ding Y, Richards M, Kaakinen M, Giese W, Baumann E, Szymborska A, Rosa A, Nordling S, Schimmel L, Akmeriç EB, Pena A, Nwadozi E, Jamalpour M, Holstein K, Sáinz-Jaspeado M, Bernabeu MO, Welsh M, Gordon E, Franco CA, Vestweber D, Eklund L, Gerhardt H, and Claesson-Welsh L

Abstract

Vascular endothelial (VE)-cadherin in endothelial adherens junctions is an essential component of the vascular barrier, critical for tissue homeostasis and implicated in diseases such as cancer and retinopathies. Inhibitors of Src cytoplasmic tyrosine kinase have been applied to suppress VE-cadherin tyrosine phosphorylation and prevent excessive leakage, edema and high interstitial pressure. Here we show that the Src-related Yes tyrosine kinase, rather than Src, is localized at endothelial cell (EC) junctions where it becomes activated in a flow-dependent manner. EC-specific Yes1 deletion suppresses VE-cadherin phosphorylation and arrests VE-cadherin at EC junctions. This is accompanied by loss of EC collective migration and exaggerated agonist-induced macromolecular leakage. Overexpression of Yes1 causes ectopic VE-cadherin phosphorylation, while vascular leakage is unaffected. In contrast, in EC-specific Src-deficiency, VE-cadherin internalization is maintained, and leakage is suppressed. In conclusion, Yes-mediated phosphorylation regulates constitutive VE-cadherin turnover, thereby maintaining endothelial junction plasticity and vascular integrity., Competing Interests: Competing Interest Statement The authors declare no competing interests.

Published

2022

2. Svep1 stabilises developmental vascular anastomosis in reduced flow conditions.

Author

Coxam B, Collins RT, Hußmann M, Huisman Y, Meier K, Jung S, Bartels-Klein E, Szymborska A, Finotto L, Helker CSM, Stainier DYR, Schulte-Merker S, and Gerhardt H

Subjects

Anastomosis, Surgical, Animals, Morphogenesis, Neovascularization, Physiologic genetics, Zebrafish metabolism, Zebrafish Proteins genetics, Zebrafish Proteins metabolism

Abstract

Molecular mechanisms controlling the formation, stabilisation and maintenance of blood vessel connections remain poorly defined. Here, we identify blood flow and the large extracellular protein Svep1 as co-modulators of vessel anastomosis during developmental angiogenesis in zebrafish embryos. Both loss of Svep1 and blood flow reduction contribute to defective anastomosis of intersegmental vessels. The reduced formation and lumenisation of the dorsal longitudinal anastomotic vessel (DLAV) is associated with a compensatory increase in Vegfa/Vegfr pERK signalling, concomittant expansion of apelin-positive tip cells, but reduced expression of klf2a. Experimentally, further increasing Vegfa/Vegfr signalling can rescue the DLAV formation and lumenisation defects, whereas its inhibition dramatically exacerbates the loss of connectivity. Mechanistically, our results suggest that flow and Svep1 co-regulate the stabilisation of vascular connections, in part by modulating the Vegfa/Vegfr signalling pathway., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2022. Published by The Company of Biologists Ltd.)

Published

2022

3. WASp controls oriented migration of endothelial cells to achieve functional vascular patterning.

Author

Rosa A, Giese W, Meier K, Alt S, Klaus-Bergmann A, Edgar LT, Bartels-Klein E, Collins RT, Szymborska A, Coxam B, Bernabeu MO, and Gerhardt H

Subjects

Actins genetics, Animals, Arteries growth & development, Arteries metabolism, Cell Movement genetics, Cell Proliferation genetics, Endothelial Cells metabolism, Gene Expression Regulation, Developmental genetics, Humans, Intercellular Junctions genetics, Veins growth & development, Veins metabolism, Zebrafish genetics, Zebrafish growth & development, Blood Vessels growth & development, Morphogenesis genetics, Platelet Endothelial Cell Adhesion Molecule-1 genetics, Wiskott-Aldrich Syndrome Protein genetics

Abstract

Endothelial cell migration and proliferation are essential for the establishment of a hierarchical organization of blood vessels and optimal distribution of blood. However, how these cellular processes are quantitatively coordinated to drive vascular network morphogenesis remains unknown. Here, using the zebrafish vasculature as a model system, we demonstrate that the balanced distribution of endothelial cells, as well as the resulting regularity of vessel calibre, is a result of cell migration from veins towards arteries and cell proliferation in veins. We identify the Wiskott-Aldrich Syndrome protein (WASp) as an important molecular regulator of this process and show that loss of coordinated migration from veins to arteries upon wasb depletion results in aberrant vessel morphology and the formation of persistent arteriovenous shunts. We demonstrate that WASp achieves its function through the coordination of junctional actin assembly and PECAM1 recruitment and provide evidence that this is conserved in humans. Overall, we demonstrate that functional vascular patterning in the zebrafish trunk is established through differential cell migration regulated by junctional actin, and that interruption of differential migration may represent a pathomechanism in vascular malformations., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2022. Published by The Company of Biologists Ltd.)

Published

2022

4. Three-dimensional superresolution fluorescence microscopy maps the variable molecular architecture of the nuclear pore complex.

Author

Sabinina VJ, Hossain MJ, Hériché JK, Hoess P, Nijmeijer B, Mosalaganti S, Kueblbeck M, Callegari A, Szymborska A, Beck M, Ries J, and Ellenberg J

Subjects

Animals, Cell Nucleus metabolism, Cytoplasm metabolism, Humans, Nuclear Pore metabolism, Nuclear Pore physiology, Nuclear Pore Complex Proteins metabolism, Microscopy, Fluorescence methods, Nuclear Pore ultrastructure, Nuclear Pore Complex Proteins ultrastructure

Abstract

Nuclear pore complexes (NPCs) are large macromolecular machines that mediate the traffic between the nucleus and the cytoplasm. In vertebrates, each NPC consists of ∼1000 proteins, termed nucleoporins, and has a mass of more than 100 MDa. While a pseudo-atomic static model of the central scaffold of the NPC has recently been assembled by integrating data from isolated proteins and complexes, many structural components still remain elusive due to the enormous size and flexibility of the NPC. Here, we explored the power of three-dimensional (3D) superresolution microscopy combined with computational classification and averaging to explore the 3D structure of the NPC in single human cells. We show that this approach can build the first integrated 3D structural map containing both central as well as peripheral NPC subunits with molecular specificity and nanoscale resolution. Our unbiased classification of more than 10,000 individual NPCs indicates that the nuclear ring and the nuclear basket can adopt different conformations. Our approach opens up the exciting possibility to relate different structural states of the NPC to function in situ.

Published

2021

5. Vasohibin 1 selectively regulates secondary sprouting and lymphangiogenesis in the zebrafish trunk.

Author

de Oliveira MB, Meier K, Jung S, Bartels-Klein E, Coxam B, Geudens I, Szymborska A, Skoczylas R, Fechner I, Koltowska K, and Gerhardt H

Subjects

Amino Acid Sequence, Animals, Cell Cycle Proteins chemistry, Cell Cycle Proteins metabolism, Conserved Sequence, Evolution, Molecular, Gene Expression Regulation, Developmental, Immunohistochemistry, Microtubules metabolism, Models, Biological, Cell Cycle Proteins genetics, Embryonic Development genetics, Lymphangiogenesis genetics, Zebrafish embryology, Zebrafish genetics

Abstract

Previous studies have shown that Vasohibin 1 (Vash1) is stimulated by VEGFs in endothelial cells and that its overexpression interferes with angiogenesis in vivo Recently, Vash1 was found to mediate tubulin detyrosination, a post-translational modification that is implicated in many cell functions, such as cell division. Here, we used the zebrafish embryo to investigate the cellular and subcellular mechanisms of Vash1 on endothelial microtubules during formation of the trunk vasculature. We show that microtubules within venous-derived secondary sprouts are strongly and selectively detyrosinated in comparison with other endothelial cells, and that this difference is lost upon vash1 knockdown. Vash1 depletion in zebrafish specifically affected secondary sprouting from the posterior cardinal vein, increasing endothelial cell divisions and cell number in the sprouts. We show that altering secondary sprout numbers and structure upon Vash1 depletion leads to defective lymphatic vessel formation and ectopic lymphatic progenitor specification in the zebrafish trunk., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2021. Published by The Company of Biologists Ltd.)

Published

2021

6. Gorham-Stout disease involving ipsilateral clavicle and scapula in a child - a case report focusing on imaging and histopathological features of this extremely rare condition.

Author

Duczkowski M, Palczewski P, Wagrodzki M, Duczkowska A, Klepacka T, Szymborska A, Raciborska A, Czubak J, and Bekiesinska-Figatowska M

Subjects

Child, Clavicle diagnostic imaging, Humans, Male, Scapula diagnostic imaging, Shoulder, Osteolysis, Essential diagnostic imaging

Abstract

Gorham-Stout disease (GSD) is a very rare entity of unknown etiology, characterized by excessive intra-osseous proliferation of blood or lymphatic vessels, resulting in progressive resorption of bone matrix and destruction of bone. To date we have found only seven published cases concerning fully confirmed GSD of the shoulder girdle bones in children. Our case concerns an 8-year-old boy with involvement of the left clavicle and scapula. The knowledge of imaging and histopathological features is crucial for establishing the diagnosis of GSD, therefore the exchange of experiences in this field is essential for improving the care of affected patients.

Published

2021

7. Intron with transgenic marker (InTraM) facilitates high-throughput screening of endogenous gene reporter lines.

Author

Collins RT, Coxam B, Fechner I, Unterweger I, Szymborska A, Meier K, and Gerhardt H

Subjects

Animals, CRISPR-Cas Systems, Transcription Factors genetics, Transgenes, Zebrafish, Zebrafish Proteins genetics, Gene Editing methods, Gene Knock-In Techniques methods, Genes, Reporter, High-Throughput Screening Assays methods

Abstract

The generation and maintenance of genome edited zebrafish lines is typically labor intensive due to the lack of an easy visual read-out for the modification. To facilitate this process, we have developed a novel method that relies on the inclusion of an artificial intron with a transgenic marker (InTraM) within the knock-in sequence of interest, which upon splicing produces a transcript with a precise and seamless modification. We have demonstrated this technology by replacing the stop codon of the zebrafish fli1a gene with a transcriptional activator KALTA4, using an InTraM that enables red fluorescent protein expression in the heart., (© 2020 The Authors. genesis published by Wiley Periodicals LLC    .)

Published

2020

8. Mutations in Disordered Regions Can Cause Disease by Creating Dileucine Motifs.

Author

Meyer K, Kirchner M, Uyar B, Cheng JY, Russo G, Hernandez-Miranda LR, Szymborska A, Zauber H, Rudolph IM, Willnow TE, Akalin A, Haucke V, Gerhardt H, Birchmeier C, Kühn R, Krauss M, Diecke S, Pascual JM, and Selbach M

Subjects

Amino Acid Motifs genetics, Amino Acid Sequence, Animals, Binding Sites, Calcium Channels, T-Type genetics, Calcium Channels, T-Type physiology, Carbohydrate Metabolism, Inborn Errors, Clathrin metabolism, Cytoplasm metabolism, Glucose Transporter Type 1 genetics, Glucose Transporter Type 1 metabolism, Humans, Inositol 1,4,5-Trisphosphate Receptors genetics, Inositol 1,4,5-Trisphosphate Receptors physiology, Intrinsically Disordered Proteins metabolism, Leucine metabolism, Membrane Proteins metabolism, Mice, Mice, Inbred C57BL, Monosaccharide Transport Proteins deficiency, Mutation genetics, Peptides, Protein Binding, Proteomics methods, Glucose Transporter Type 1 physiology, Intrinsically Disordered Proteins genetics, Intrinsically Disordered Proteins physiology

Abstract

Many disease-causing missense mutations affect intrinsically disordered regions (IDRs) of proteins, but the molecular mechanism of their pathogenicity is enigmatic. Here, we employ a peptide-based proteomic screen to investigate the impact of mutations in IDRs on protein-protein interactions. We find that mutations in disordered cytosolic regions of three transmembrane proteins (GLUT1, ITPR1, and CACNA1H) lead to an increased clathrin binding. All three mutations create dileucine motifs known to mediate clathrin-dependent trafficking. Follow-up experiments on GLUT1 (SLC2A1), the glucose transporter causative of GLUT1 deficiency syndrome, revealed that the mutated protein mislocalizes to intracellular compartments. Mutant GLUT1 interacts with adaptor proteins (APs) in vitro, and knocking down AP-2 reverts the cellular mislocalization and restores glucose transport. A systematic analysis of other known disease-causing variants revealed a significant and specific overrepresentation of gained dileucine motifs in structurally disordered cytosolic domains of transmembrane proteins. Thus, several mutations in disordered regions appear to cause "dileucineopathies.", (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

9. Hold Me, but Not Too Tight-Endothelial Cell-Cell Junctions in Angiogenesis.

Author

Szymborska A and Gerhardt H

Subjects

Animals, Vertebrates, Endothelial Cells physiology, Intercellular Junctions physiology, Neovascularization, Physiologic physiology

Abstract

Endothelial cell-cell junctions must perform seemingly incompatible tasks during vascular development-providing stable connections that prevent leakage, while allowing dynamic cellular rearrangements during sprouting, anastomosis, lumen formation, and functional remodeling of the vascular network. This review aims to highlight recent insights into the molecular mechanisms governing endothelial cell-cell adhesion in the context of vascular development., (Copyright © 2018 Cold Spring Harbor Laboratory Press; all rights reserved.)

Published

2018

10. Primary cilia sensitize endothelial cells to BMP and prevent excessive vascular regression.

Author

Vion AC, Alt S, Klaus-Bergmann A, Szymborska A, Zheng T, Perovic T, Hammoutene A, Oliveira MB, Bartels-Klein E, Hollfinger I, Rautou PE, Bernabeu MO, and Gerhardt H

Subjects

Animals, Blood Vessels drug effects, Cell Movement drug effects, Cell Polarity drug effects, Embryo, Nonmammalian drug effects, Embryo, Nonmammalian metabolism, Endothelial Cells cytology, Endothelial Cells drug effects, Human Umbilical Vein Endothelial Cells drug effects, Human Umbilical Vein Endothelial Cells metabolism, Humans, Mice, Inbred C57BL, Mice, Knockout, Stress, Mechanical, Vascular Remodeling drug effects, Zebrafish embryology, Blood Vessels physiology, Bone Morphogenetic Proteins pharmacology, Cilia metabolism, Endothelial Cells metabolism

Abstract

Blood flow shapes vascular networks by orchestrating endothelial cell behavior and function. How endothelial cells read and interpret flow-derived signals is poorly understood. Here, we show that endothelial cells in the developing mouse retina form and use luminal primary cilia to stabilize vessel connections selectively in parts of the remodeling vascular plexus experiencing low and intermediate shear stress. Inducible genetic deletion of the essential cilia component intraflagellar transport protein 88 (IFT88) in endothelial cells caused premature and random vessel regression without affecting proliferation, cell cycle progression, or apoptosis. IFT88 mutant cells lacking primary cilia displayed reduced polarization against blood flow, selectively at low and intermediate flow levels, and have a stronger migratory behavior. Molecularly, we identify that primary cilia endow endothelial cells with strongly enhanced sensitivity to bone morphogenic protein 9 (BMP9), selectively under low flow. We propose that BMP9 signaling cooperates with the primary cilia at low flow to keep immature vessels open before high shear stress-mediated remodeling., (© 2018 Vion et al.)

Published

2018

11. YAP and TAZ regulate adherens junction dynamics and endothelial cell distribution during vascular development.

Author

Neto F, Klaus-Bergmann A, Ong YT, Alt S, Vion AC, Szymborska A, Carvalho JR, Hollfinger I, Bartels-Klein E, Franco CA, Potente M, and Gerhardt H

Subjects

Animals, Bone Morphogenetic Protein Receptors metabolism, Cadherins metabolism, Cell Cycle Proteins, Cell Movement, Mice, Trans-Activators, YAP-Signaling Proteins, Adaptor Proteins, Signal Transducing metabolism, Adherens Junctions metabolism, Cell Proliferation, Endothelial Cells physiology, Neovascularization, Physiologic, Phosphoproteins metabolism, Signal Transduction, Transcription Factors metabolism

Abstract

Formation of blood vessel networks by sprouting angiogenesis is critical for tissue growth, homeostasis and regeneration. How endothelial cells arise in adequate numbers and arrange suitably to shape functional vascular networks is poorly understood. Here we show that YAP/TAZ promote stretch-induced proliferation and rearrangements of endothelial cells whilst preventing bleeding in developing vessels. Mechanistically, YAP/TAZ increase the turnover of VE-Cadherin and the formation of junction associated intermediate lamellipodia, promoting both cell migration and barrier function maintenance. This is achieved in part by lowering BMP signalling. Consequently, the loss of YAP/TAZ in the mouse leads to stunted sprouting with local aggregation as well as scarcity of endothelial cells, branching irregularities and junction defects. Forced nuclear activity of TAZ instead drives hypersprouting and vascular hyperplasia. We propose a new model in which YAP/TAZ integrate mechanical signals with BMP signaling to maintain junctional compliance and integrity whilst balancing endothelial cell rearrangements in angiogenic vessels., Competing Interests: FN, AK, YO, SA, AV, AS, JC, IH, EB, CF, MP No competing interests declared, HG Reviewing editor, eLife, (© 2018, Neto et al.)

Published

2018

12. Tumour ischaemia by interferon-γ resembles physiological blood vessel regression.

Author

Kammertoens T, Friese C, Arina A, Idel C, Briesemeister D, Rothe M, Ivanov A, Szymborska A, Patone G, Kunz S, Sommermeyer D, Engels B, Leisegang M, Textor A, Fehling HJ, Fruttiger M, Lohoff M, Herrmann A, Yu H, Weichselbaum R, Uckert W, Hübner N, Gerhardt H, Beule D, Schreiber H, and Blankenstein T

Subjects

Animals, Blood Vessels immunology, Blood Vessels metabolism, Cell Line, Tumor, Endothelial Cells immunology, Endothelial Cells metabolism, Female, Interferon-gamma biosynthesis, Intravital Microscopy, Ischemia metabolism, Ischemia pathology, Male, Mice, Necrosis, Neoplasms metabolism, Neoplasms pathology, Receptors, Interferon metabolism, Stromal Cells immunology, Stromal Cells metabolism, Substrate Specificity, Wound Healing, Interferon gamma Receptor, Blood Vessels growth & development, Cell Hypoxia immunology, Interferon-gamma immunology, Ischemia immunology, Neoplasms blood supply, Neoplasms immunology, Vascular Remodeling

Abstract

The relative contribution of the effector molecules produced by T cells to tumour rejection is unclear, but interferon-γ (IFNγ) is critical in most of the analysed models. Although IFNγ can impede tumour growth by acting directly on cancer cells, it must also act on the tumour stroma for effective rejection of large, established tumours. However, which stroma cells respond to IFNγ and by which mechanism IFNγ contributes to tumour rejection through stromal targeting have remained unknown. Here we use a model of IFNγ induction and an IFNγ-GFP fusion protein in large, vascularized tumours growing in mice that express the IFNγ receptor exclusively in defined cell types. Responsiveness to IFNγ by myeloid cells and other haematopoietic cells, including T cells or fibroblasts, was not sufficient for IFNγ-induced tumour regression, whereas responsiveness of endothelial cells to IFNγ was necessary and sufficient. Intravital microscopy revealed IFNγ-induced regression of the tumour vasculature, resulting in arrest of blood flow and subsequent collapse of tumours, similar to non-haemorrhagic necrosis in ischaemia and unlike haemorrhagic necrosis induced by tumour necrosis factor. The early events of IFNγ-induced tumour ischaemia resemble non-apoptotic blood vessel regression during development, wound healing or IFNγ-mediated, pregnancy-induced remodelling of uterine arteries. A better mechanistic understanding of how solid tumours are rejected may aid the design of more effective protocols for adoptive T-cell therapy.

Published

2017

13. Correction: Quantitative Localization Microscopy: Effects of Photophysics and Labeling Stoichiometry.

Author

Nieuwenhuizen RP, Bates M, Szymborska A, Lidke KA, Rieger B, and Stallinga S

Published

2015

14. Quantitative localization microscopy: effects of photophysics and labeling stoichiometry.

Author

Nieuwenhuizen RP, Bates M, Szymborska A, Lidke KA, Rieger B, and Stallinga S

Subjects

Animals, Calibration, Chlorocebus aethiops, Cluster Analysis, Fluorescent Dyes chemistry, Rats, Vero Cells, Light, Microscopy, Fluorescence methods, Staining and Labeling

Abstract

Quantification in localization microscopy with reversibly switchable fluorophores is severely hampered by the unknown number of switching cycles a fluorophore undergoes and the unknown stoichiometry of fluorophores on a marker such as an antibody. We overcome this problem by measuring the average number of localizations per fluorophore, or generally per fluorescently labeled site from the build-up of spatial image correlation during acquisition. To this end we employ a model for the interplay between the statistics of activation, bleaching, and labeling stoichiometry. We validated our method using single fluorophore labeled DNA oligomers and multiple-labeled neutravidin tetramers where we find a counting error of less than 17% without any calibration of transition rates. Furthermore, we demonstrated our quantification method on nanobody- and antibody-labeled biological specimens.

Published

2015

15. Engineering synthetic antibody binders for allosteric inhibition of prolactin receptor signaling.

Author

Rizk SS, Kouadio JL, Szymborska A, Duguid EM, Mukherjee S, Zheng J, Clevenger CV, and Kossiakoff AA

Subjects

Human Growth Hormone chemistry, Human Growth Hormone genetics, Humans, Prolactin chemistry, Prolactin genetics, Protein Structure, Tertiary, Epitopes chemistry, Epitopes genetics, Receptors, Prolactin chemistry, Receptors, Prolactin genetics, Signal Transduction, Single-Chain Antibodies chemistry, Single-Chain Antibodies genetics

Abstract

Background: Many receptors function by binding to multiple ligands, each eliciting a distinct biological output. The extracellular domain of the human prolactin receptor (hPRL-R) uses an identical epitope to bind to both prolactin (hPRL) and growth hormone (hGH), yet little is known about how each hormone binding event triggers the appropriate response., Findings: Here, we utilized a phage display library to generate synthetic antibodies (sABs) that preferentially modulate hPRL-R function in a hormone-dependent fashion. We determined the crystal structure of a sAB-hPRL-R complex, which revealed a novel allosteric mechanism of antagonism, whereby the sAB traps the receptor in a conformation more suitable for hGH binding than hPRL. This was validated by examining the effect of the sABs on hormone internalization via the hPRL-R and its downstream signaling pathway., Conclusions: The findings suggest that subtle structural changes in the extracellular domain of hPRL-R induced by each hormone determine the biological output triggered by hormone binding. We conclude that sABs generated by phage display selection can detect these subtle structural differences, and therefore can be used to dissect the structural basis of receptor-ligand specificity.

Published

2015

16. Imaging the assembly, structure, and function of the nuclear pore inside cells.

Author

Otsuka S, Szymborska A, and Ellenberg J

Subjects

Animals, Biological Transport, Cell Line, Tumor, Green Fluorescent Proteins, HeLa Cells, Humans, Mitosis, Rats, S Phase Cell Cycle Checkpoints, Microscopy methods, Multiprotein Complexes analysis, Nuclear Pore metabolism, Nuclear Pore Complex Proteins analysis

Abstract

The nuclear pore complex (NPC) mediates selective transport across the nuclear envelope (NE) and plays crucial roles in several additional cellular functions. In higher eukaryotes, the NPC and the NE disassemble and reassemble during cell division and live-cell imaging has been a powerful tool to analyze these dynamic processes. Here, we present a method for the kinetic analysis of postmitotic NPC assembly and reestablishment of transport competence in intact cells by multicolor 4D imaging and photoswitching. By applying the methods we have established previously using normal rat kidney to HeLa cells, we demonstrate the conservation of NPC assembly in different mammalian cells. We recently showed that the molecular organization of the NPC can be studied by combining stochastic super-resolution microscopy with single-particle averaging and present this method here in detail., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

17. Nuclear pore scaffold structure analyzed by super-resolution microscopy and particle averaging.

Author

Szymborska A, de Marco A, Daigle N, Cordes VC, Briggs JA, and Ellenberg J

Subjects

Cell Line, Tumor, Fluorescent Dyes chemistry, Humans, Microscopy, Confocal methods, Nanoparticles chemistry, Nuclear Pore Complex Proteins immunology, Particle Size, Single-Domain Antibodies chemistry, Microscopy methods, Nuclear Matrix ultrastructure, Nuclear Pore ultrastructure, Nuclear Pore Complex Proteins chemistry

Abstract

Much of life's essential molecular machinery consists of large protein assemblies that currently pose challenges for structure determination. A prominent example is the nuclear pore complex (NPC), for which the organization of its individual components remains unknown. By combining stochastic super-resolution microscopy, to directly resolve the ringlike structure of the NPC, with single particle averaging, to use information from thousands of pores, we determined the average positions of fluorescent molecular labels in the NPC with a precision well below 1 nanometer. Applying this approach systematically to the largest building block of the NPC, the Nup107-160 subcomplex, we assessed the structure of the NPC scaffold. Thus, light microscopy can be used to study the molecular organization of large protein complexes in situ in whole cells.

Published

2013

18. The quantitative proteome of a human cell line.

Author

Beck M, Schmidt A, Malmstroem J, Claassen M, Ori A, Szymborska A, Herzog F, Rinner O, Ellenberg J, and Aebersold R

Subjects

Cell Line, Tumor, Humans, Mass Spectrometry, Proteomics methods, Systems Biology methods, Gene Expression Profiling, Proteome genetics, Proteome metabolism

Abstract

The generation of mathematical models of biological processes, the simulation of these processes under different conditions, and the comparison and integration of multiple data sets are explicit goals of systems biology that require the knowledge of the absolute quantity of the system's components. To date, systematic estimates of cellular protein concentrations have been exceptionally scarce. Here, we provide a quantitative description of the proteome of a commonly used human cell line in two functional states, interphase and mitosis. We show that these human cultured cells express at least -10 000 proteins and that the quantified proteins span a concentration range of seven orders of magnitude up to 20 000 000 copies per cell. We discuss how protein abundance is linked to function and evolution.

Published

2011

19. New technique of surgical treatment of malignant calcaneal tumours. Preliminary report.

Author

Woźniak W, Raciborska A, Walenta T, Szafrański A, Szymborska A, and Bajor M

Subjects

Adolescent, Bone Neoplasms drug therapy, Bone Transplantation methods, Chemotherapy, Adjuvant, Chondrosarcoma drug therapy, Female, Humans, Male, Sarcoma, Ewing drug therapy, Sarcoma, Synovial drug therapy, Treatment Outcome, Bone Neoplasms surgery, Calcaneus surgery, Chondrosarcoma surgery, Sarcoma, Ewing surgery, Sarcoma, Synovial surgery

Abstract

Background: Malignant tumours of the calcaneus are very rare among children, constituting up to 3% of all bone tumours. This paper presents the outcome of a new technique of surgical treatment of malignant calcaneal tumours in the paediatric population involving the use of a large frozen allogeneic graft of the head of femur with a fragment of the femoral neck., Material and Methods: Three patients were treated for primary malignant tumours of bone at our Department. The surgery was preceded by induction chemotherapy. A skin incision was made on the medial aspect of the foot. After the dissection of the calcaneus together with the tumour (Ennecking's wide resection), the defect was reconstructed with a frozen allogeneic bone graft. The graft was modelled and attached to the tarsal bone using metal clasps (arthrodesis). The Achilles tendon was also attached to the graft with metal clasps. A Redon suture was left in the floor of the wound. Single-layer sutures were placed in subcutaneous tissue and skin. The limb was immobilized in thigh plaster with the foot in 900 dorsiflexion., Results: The wound healed by first intention. Early post-operative complications were not observed, except for transient oedema of the surrounding tissues. The flexion and dorsiflexion movements were partially preserved. Local radical excision of the tumour was achieved in all the children. The graft healed into place. The patients are able to move without aid., Conclusions: The use of a large allogeneic bone graft of the head of femur after excision of the calcaneus can assure very good long-term functional outcomes.

Published

2007