Your search keyword '"Urbach S"' showing total 115 results

1. The female genitalia

Author

Hageraats, E., Gijsen, A. P., Urbach, S. F., de Jongh MD, T.O.H., editor, Jongen-Hermus MSc, F.J., editor, Damen MD PhD, J., editor, Daelmans MD PhD, H.E.M., editor, Franssen MD PhD, R., editor, de Klerk-van der Wiel MSc, I., editor, Pieterse MD, A.D., editor, Schouwenberg MD PhD, B.J.J.W., editor, and Schuring MD, F., editor

Published

2023

2. De vrouwelijke genitaliën

Author

Hageraats, E., Gijsen, A. P., Urbach, S. F., de Jongh, T.O.H., editor, Jongen-Hermus, F.J., editor, Damen, J., editor, Daelmans, H.E.M., editor, Franssen, R., editor, de Klerk-van der Wiel, I., editor, Pieterse, A.D., editor, Schouwenberg, B.J.J.W., editor, and Schuring, F., editor

Published

2022

3. Focused Fields of given Power with Maximum Electric Field Components

Author

Pereira, H. P. Urbach S. F.

Subjects

Physics - Optics

Abstract

Closed formulas are derived for the field in the focal region of a diffraction limited lens, such that the electric field component in a given direction at the focal point is larger than that of all other focused fields with the same power in the entrance pupil of the lens. Furthermore, closed formulas are derived for the corresponding optimum field distribution in the lens pupil. Focused fields with maximum longitudinal or maximum transverse are considered in detail. The latter field is similar, but not identical, to the focused linearly polarized plane wave.

Published

2008

4. Identification of Differential Responses of Goat PBMCs to PPRV Virulence Using a Multi-Omics Approach

Author

Eloiflin, R., Auray, G., Python, S., Rodrigues, V., Seveno, M., Urbach, S., El Koulali, K., Holzmuller, P., Totte, P., Libeau, G., Bataille, A., & Summerfield, A

Abstract

Peste des petits ruminants (PPR) is an acute transboundary infectious viral disease of small ruminants, mainly sheep and goats. Host susceptibility varies considerably depending on the PPR virus (PPRV) strain, the host species and breed. The effect of strains with different levels of virulence on the modulation of the immune system has not been thoroughly compared in an experimental setting so far. In this study, we used a multi-omics approach to investigate the host cellular factors involved in different infection phenotypes. Peripheral blood mononuclear cells (PBMCs) from Saanen goats were activated with a T-cell mitogen and infected with PPRV strains of different virulence: Morocco 2008 (high virulence), Ivory Coast 1989 (low virulence) and Nigeria 75/1 (live attenuated vaccine strain). Our results showed that the highly virulent strain replicated better than the other two in PBMCs and rapidly induced cell death and a stronger inhibition of lymphocyte proliferation. However, all the strains affected lymphocyte proliferation and induced upregulation of key antiviral genes and proteins, meaning a classical antiviral response is orchestrated regardless of the virulence of the PPRV strain. On the other hand, the highly virulent strain induced stronger inflammatory responses and activated more genes related to lymphocyte migration and recruitment, and inflammatory processes. Both transcriptomic and proteomic approaches were successful in detecting viral and antiviral effectors under all conditions. The present work identified key immunological factors related to PPRV virulencein vitro. &nbsp

Published

2021

5. Wait Times in Pediatric Heart Transplant Candidates: Impact of Size and Blood Type Following the 2016 Allocation Policy Revision

Author

Williams, R., primary, Lu, M., additional, Sleeper, L., additional, Urbach, S., additional, and Daly, K., additional

Published

2021

6. Phosphoproteomic analysis of Syk kinase signaling in human cancer cells reveals its role in cell–cell adhesion

Author

Larive, R M, Urbach, S, Poncet, J, Jouin, P, Mascré, G, Sahuquet, A, Mangeat, P H, Coopman, P J, and Bettache, N

Published

2009

7. Cross-talk in host&8211;parasite associations : what do past and recent proteomics approaches tell us ?

Author

Chetouhi, C., Panek, J., Bonhomme, L., El Alaoui, H., Texier, C., Langin, T., De Bekker, C., Urbach, S., Demettre, E., Missé, Dorothée, Holzmuller, P., Hughes, D.P., Zanzoni, A., Brun, C., and Biron, D.G.

Subjects

RELATION HOTE PARASITE, BIOCHIMIE, COEVOLUTION, PROTEINE, PROTEOMIQUE, BIOLOGIE MOLECULAIRE, MECANISME DE DEFENSE, GENE, EXPRESSION DES GENES, PARASITOSE, EVOLUTION, IMMUNITE

Abstract

A cross-talk in host–parasite associations begins when a host encounters a parasite. For many host–parasite relationships, this cross-talk has been taking place for hundreds of millions of years. The co-evolution of hosts and parasites, the familiar ‘arms race’ results in fascinating adaptations. Over the years, host–parasite interactions have been studied extensively from both the host and parasitic point of view. Proteomics studies have led to new insights into host–parasite cross-talk and suggest that the molecular strategies used by parasites attacking animals and plants share many similarities. Likewise, animals and plants use several common molecular tactics to counter parasite attacks. Based on proteomics surveys undertaken since the post-genomic era, a synthesis is presented on the molecular strategies used by intra- and extracellular parasites to invade and create the needed habitat for growth inside the host, as well as strategies used by hosts to counter these parasite attacks. Pitfalls in deciphering host–parasite cross-talk are also discussed. To conclude, helpful advice is given with regard to new directions that are needed to discover the generic and specific molecular strategies used by the host against parasite invasion as well as by the parasite to invade, survive, and grow inside their hosts, and to finally discover parasitic molecular signatures associated with their development.

Published

2015

8. Chitinase 3-like proteins as diagnostic and prognostic biomarkers of multiple sclerosis

Author

Hinsinger, G, primary, Galéotti, N, additional, Nabholz, N, additional, Urbach, S, additional, Rigau, V, additional, Demattei, C, additional, Lehmann, S, additional, Camu, W, additional, Labauge, P, additional, Castelnovo, G, additional, Brassat, D, additional, Loussouarn, D, additional, Salou, M, additional, Laplaud, D, additional, Casez, O, additional, Bockaert, J, additional, Marin, P, additional, and Thouvenot, E, additional

Published

2015

9. Mediation of proliferating cell nuclear antigen (PCNA)-dependent DNA replication through a conserved p21(Cip1)-like PCNA-binding motif present in the third subunit of human DNA polymerase delta

Author

Ducoux, M, Urbach, S, Baldacci, G, Hübscher, U, Koundrioukoff, S, Christensen, J, Hughes, P, University of Zurich, and Hughes, P

Subjects

1307 Cell Biology, 1303 Biochemistry, 1312 Molecular Biology, 570 Life sciences, biology, 10226 Department of Molecular Mechanisms of Disease

Published

2001

10. Index of Suspicion

Author

Young, S., primary, Joseph-Griffin, M., additional, Mensah-Bonsu, N., additional, Hageman, J. R., additional, Schwartz, D., additional, Mikita, C., additional, Luca, P., additional, and Urbach, S., additional

Published

2013

11. School attendance in childhood cancer survivors.

Author

French, A. E., primary, Tsangaris, E., additional, Guger, S., additional, Barrera, M., additional, Brown, R., additional, Urbach, S., additional, Stephens, D., additional, and Nathan, P. C., additional

Published

2011

12. 74 LATE ENDOCRINE TOXICITY OF RADIATION THERAPY IN CHILDREN TREATED FOR MEDULLOBLASTOMA OR EPENDYMOMA

Author

Bahl, G., primary, Urbach, S., additional, Bartels, U., additional, Hodgson, D., additional, Millar, B.A., additional, Parent, A., additional, Le, L., additional, Awrey, S., additional, and Laperriere, N., additional

Published

2009

13. Endocrine complications in children treated for medulloblastoma or ependymoma using radiation therapy. Outcomes in the CT-planning era

Author

Bahl, G., primary, Urbach, S., additional, Bartels, U., additional, Hodgson, D. C., additional, Millar, B., additional, Parent, A., additional, Le, L., additional, Awrey, S., additional, and Laperriere, N., additional

Published

2009

14. Outcome after Bariatric Surgery in Two Adolescents with Hypothalamic Obesity Following Treatment of Craniopharyngioma

Author

Rottembourg, D., primary, O'Gorman, C.S., additional, Urbach, S., additional, Garneau, P.Y., additional, Langer, J.C., additional, Van Vliet, G., additional, Hamilton, J., additional, and Huot, C., additional

Published

2009

15. Assessing the degree of extracellular fluid volume contraction in a patient with a severe degree of hyperglycaemia

Author

Napolova, O., primary, Urbach, S., additional, Davids, M. R., additional, and Halperin, M. L., additional

Published

2003

16. CALCIPHYLAXIS

Author

Saved, M. A., primary, Dedina, P., additional, and Urbach, S., additional

Published

1998

17. A cross-sectional study of overweight in pediatric survivors of acute lymphoblastic leukemia (ALL)

Author

Love E, Schneiderman JE, Stephens D, Lee S, Barron M, Tsangaris E, Urbach S, Staneland P, Greenberg M, and Nathan PC

Published

2011

18. The TRANSFAC system on gene expression regulation.

Author

Wingender, E., Chen, X., Fricke, E., Geffers, R., Hehl, R., Liebich, I., Krull, M., Matys, V., Michael, H., Ohnhäuser, R., Prüß, M., Schacherer, F., Thiele, S., and Urbach, S.

Published

2001

19. Letters.

Author

Posch S, Robinson J, Niles E, Urbach S, and Abrams LJ

Published

2009

20. CD138 as a Specific CSF Biomarker of Multiple Sclerosis.

Author

Hinsinger G, Du Trieu De Terdonck L, Urbach S, Salvetat N, Rival M, Galoppin M, Ripoll C, Cezar R, Laurent-Chabalier S, Demattei C, Agherbi H, Castelnovo G, Lehmann S, Rigau V, Marin P, and Thouvenot E

Subjects

Humans, Adult, Female, Male, Middle Aged, Cohort Studies, Proteomics, Multiple Sclerosis cerebrospinal fluid, Multiple Sclerosis diagnosis, Oligodendroglia metabolism, Biomarkers cerebrospinal fluid, Multiple Sclerosis, Relapsing-Remitting cerebrospinal fluid, Multiple Sclerosis, Relapsing-Remitting diagnosis, Syndecan-1 cerebrospinal fluid

Abstract

Background and Objectives: The aim of this study was to identify novel biomarkers for multiple sclerosis (MS) diagnosis and prognosis, addressing the critical need for specific and prognostically valuable markers in the field., Methods: We conducted an extensive proteomic investigation, combining analysis of (1) CSF proteome from symptomatic controls, fast and slow converters after clinically isolated syndromes, and patients with relapsing-remitting MS (n = 10 per group) using label-free quantitative proteomics and (2) oligodendrocyte secretome changes under proinflammatory or proapoptotic conditions using stable isotope labeling by amino acids in cell culture. Proteins exhibiting differential abundance in both proteomic analyses were combined with other putative MS biomarkers, yielding a comprehensive list of 87 proteins that underwent quantification through parallel reaction monitoring (PRM) in a novel cohort, comprising symptomatic controls, inflammatory neurologic disease controls, and patients with MS at various disease stages (n = 10 per group). The 11 proteins that passed this qualification step were subjected to a new PRM assay within an expanded cohort comprising 158 patients with either MS at different disease stages or other inflammatory or noninflammatory neurologic disease controls., Results: This study unveiled a promising biomarker signature for MS, including previously established candidates, such as chitinase 3-like protein 1, chitinase 3-like protein 2, chitotriosidase, immunoglobulin kappa chain region C, neutrophil gelatinase-associated lipocalin, and CD27. In addition, we identified novel markers, namely cat eye syndrome critical region protein 1 (adenosine deaminase 2, a therapeutic target in multiple sclerosis) and syndecan-1, a proteoglycan, also known as plasma cell surface marker CD138 and acting as chitinase 3-like protein 1 receptor implicated in inflammation and cancer signaling. CD138 exhibited good diagnostic accuracy in distinguishing MS from inflammatory neurologic disorders (area under the curve [AUC] = 0.85, CI 0.75-0.95). CD138 immunostaining was also observed in the brains of patients with MS and cultured oligodendrocyte precursor cells but was absent in astrocytes., Discussion: These findings identify CD138 as a specific CSF biomarker for MS and suggest the selective activation of the chitinase 3-like protein 1/CD138 pathway within the oligodendrocyte lineage in MS. They offer promising prospects for improving MS diagnosis and prognosis by providing much-needed specificity and clinical utility., Classification of Evidence: This study provides Class II evidence that CD138 distinguishes multiple sclerosis from other inflammatory neurologic disorders with an AUC of 0.85 (95% CI 0.75-0.95).

Published

2024

21. The nucleolar protein GNL3 prevents resection of stalled replication forks.

Author

Lebdy R, Canut M, Patouillard J, Cadoret JC, Letessier A, Ammar J, Basbous J, Urbach S, Miotto B, Constantinou A, Abou Merhi R, and Ribeyre C

Subjects

Humans, Nuclear Proteins genetics, Nuclear Proteins metabolism, DNA Damage, DNA, DNA Replication, GTP-Binding Proteins genetics

Abstract

Faithful DNA replication requires specific proteins that protect replication forks and so prevent the formation of DNA lesions that may damage the genome. Identification of new proteins involved in this process is essential to understand how DNA lesions accumulate in cancer cells and how they tolerate them. Here, we show that human GNL3/nucleostemin, a GTP-binding protein localized mostly in the nucleolus and highly expressed in cancer cells, prevents nuclease-dependent resection of nascent DNA in response to replication stress. We demonstrate that inhibiting origin firing reduces resection. This suggests that the heightened replication origin activation observed upon GNL3 depletion largely drives the observed DNA resection probably due to the exhaustion of the available RPA pool. We show that GNL3 and DNA replication initiation factor ORC2 interact in the nucleolus and that the concentration of GNL3 in the nucleolus is required to limit DNA resection. We propose that the control of origin firing by GNL3 through the sequestration of ORC2 in the nucleolus is critical to prevent nascent DNA resection in response to replication stress., (© 2023 The Authors. Published under the terms of the CC BY NC ND 4.0 license.)

Published

2023

22. A family of carboxypeptidases catalyzing α- and β-tubulin tail processing and deglutamylation.

Author

Nicot S, Gillard G, Impheng H, Joachimiak E, Urbach S, Mochizuki K, Wloga D, Juge F, and Rogowski K

Subjects

Microtubules, Amino Acids, Centrioles, Tubulin, Carboxypeptidases

Abstract

Tubulin posttranslational modifications represent an important mechanism involved in the regulation of microtubule functions. The most widespread among them are detyrosination, α∆2-tubulin, and polyglutamylation. Here, we describe a family of tubulin-modifying enzymes composed of two closely related proteins, KIAA0895L and KIAA0895, which have tubulin metallocarboxypeptidase activity and thus were termed TMCP1 and TMCP2, respectively. We show that TMCP1 (also known as MATCAP) acts as α-tubulin detyrosinase that also catalyzes α∆2-tubulin. In contrast, TMCP2 preferentially modifies βI-tubulin by removing three amino acids from its C terminus, generating previously unknown βI∆3 modification. We show that βI∆3-tubulin is mostly found on centrioles and mitotic spindles and in cilia. Moreover, we demonstrate that TMCPs also remove posttranslational polyglutamylation and thus act as tubulin deglutamylases. Together, our study describes the identification and comprehensive biochemical analysis of a previously unknown type of tubulin-modifying enzymes involved in the processing of α- and β-tubulin C-terminal tails and deglutamylation.

Published

2023

23. Compartmentalization of the SUMO/RNF4 pathway by SLX4 drives DNA repair.

Author

Alghoul E, Paloni M, Takedachi A, Urbach S, Barducci A, Gaillard PH, Basbous J, and Constantinou A

Subjects

Ubiquitination, DNA metabolism, Chromatin, DNA Repair, Ubiquitin metabolism

Abstract

SLX4, disabled in the Fanconi anemia group P, is a scaffolding protein that coordinates the action of structure-specific endonucleases and other proteins involved in the replication-coupled repair of DNA interstrand cross-links. Here, we show that SLX4 dimerization and SUMO-SIM interactions drive the assembly of SLX4 membraneless compartments in the nucleus called condensates. Super-resolution microscopy reveals that SLX4 forms chromatin-bound clusters of nanocondensates. We report that SLX4 compartmentalizes the SUMO-RNF4 signaling pathway. SENP6 and RNF4 regulate the assembly and disassembly of SLX4 condensates, respectively. SLX4 condensation per se triggers the selective modification of proteins by SUMO and ubiquitin. Specifically, SLX4 condensation induces ubiquitylation and chromatin extraction of topoisomerase 1 DNA-protein cross-links. SLX4 condensation also induces the nucleolytic degradation of newly replicated DNA. We propose that the compartmentalization of proteins by SLX4 through site-specific interactions ensures the spatiotemporal control of protein modifications and nucleolytic reactions during DNA repair., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

24. The organizer of chromatin topology RIF1 ensures cellular resilience to DNA replication stress.

Author

Lebdy R, Patouillard J, Larroque M, Urbach S, Abou Merhi R, Larroque C, and Ribeyre C

Subjects

Aphidicolin pharmacology, DNA metabolism, DNA Replication genetics, Chromatin genetics, Telomere-Binding Proteins genetics, Telomere-Binding Proteins metabolism

Abstract

Eukaryotic genomes are duplicated from thousands of replication origins that fire sequentially forming a defined spatiotemporal pattern of replication clusters. The temporal order of DNA replication is determined by chromatin architecture and, more specifically, by chromatin contacts that are stabilized by RIF1. Here, we show that RIF1 localizes near newly synthesized DNA. In cells exposed to the DNA replication inhibitor aphidicolin, suppression of RIF1 markedly decreased the efficacy of isolation of proteins on nascent DNA, suggesting that the isolation of proteins on nascent DNA procedure is biased by chromatin topology. RIF1 was required to limit the accumulation of DNA lesions induced by aphidicolin treatment and promoted the recruitment of cohesins in the vicinity of nascent DNA. Collectively, the data suggest that the stabilization of chromatin topology by RIF1 limits replication-associated genomic instability., (© 2023 Lebdy et al.)

Published

2023

25. An apical membrane complex for triggering rhoptry exocytosis and invasion in Toxoplasma.

Author

Sparvoli D, Delabre J, Penarete-Vargas DM, Kumar Mageswaran S, Tsypin LM, Heckendorn J, Theveny L, Maynadier M, Mendonça Cova M, Berry-Sterkers L, Guérin A, Dubremetz JF, Urbach S, Striepen B, Turkewitz AP, Chang YW, and Lebrun M

Subjects

Protozoan Proteins metabolism, Organelles metabolism, Exocytosis, Membrane Proteins metabolism, Host-Parasite Interactions, Toxoplasma genetics, Toxoplasma metabolism

Abstract

Apicomplexan parasites possess secretory organelles called rhoptries that undergo regulated exocytosis upon contact with the host. This process is essential for the parasitic lifestyle of these pathogens and relies on an exocytic machinery sharing structural features and molecular components with free-living ciliates. However, how the parasites coordinate exocytosis with host interaction is unknown. Here, we performed a Tetrahymena-based transcriptomic screen to uncover novel exocytic factors in Ciliata and conserved in Apicomplexa. We identified membrane-bound proteins, named CRMPs, forming part of a large complex essential for rhoptry secretion and invasion in Toxoplasma. Using cutting-edge imaging tools, including expansion microscopy and cryo-electron tomography, we show that, unlike previously described rhoptry exocytic factors, TgCRMPs are not required for the assembly of the rhoptry secretion machinery and only transiently associate with the exocytic site-prior to the invasion. CRMPs and their partners contain putative host cell-binding domains, and CRMPa shares similarities with GPCR proteins. Collectively our data imply that the CRMP complex acts as a host-molecular sensor to ensure that rhoptry exocytosis occurs when the parasite contacts the host cell., (© 2022 The Authors. Published under the terms of the CC BY 4.0 license.)

Published

2022

26. Structure of the vasopressin hormone-V2 receptor-β-arrestin1 ternary complex.

Author

Bous J, Fouillen A, Orcel H, Trapani S, Cong X, Fontanel S, Saint-Paul J, Lai-Kee-Him J, Urbach S, Sibille N, Sounier R, Granier S, Mouillac B, and Bron P

Abstract

Arrestins interact with G protein-coupled receptors (GPCRs) to stop G protein activation and to initiate key signaling pathways. Recent structural studies shed light on the molecular mechanisms involved in GPCR-arrestin coupling, but whether this process is conserved among GPCRs is poorly understood. Here, we report the cryo-electron microscopy active structure of the wild-type arginine-vasopressin V2 receptor (V2R) in complex with β-arrestin1. It reveals an atypical position of β-arrestin1 compared to previously described GPCR-arrestin assemblies, associated with an original V2R/β-arrestin1 interface involving all receptor intracellular loops. Phosphorylated sites of the V2R carboxyl terminus are clearly identified and interact extensively with the β-arrestin1 N-lobe, in agreement with structural data obtained with chimeric or synthetic systems. Overall, these findings highlight a notable structural variability among GPCR-arrestin signaling complexes.

Published

2022

27. Bidirectional genome-wide CRISPR screens reveal host factors regulating SARS-CoV-2, MERS-CoV and seasonal HCoVs.

Author

Rebendenne A, Roy P, Bonaventure B, Chaves Valadão AL, Desmarets L, Arnaud-Arnould M, Rouillé Y, Tauziet M, Giovannini D, Touhami J, Lee Y, DeWeirdt P, Hegde M, Urbach S, Koulali KE, de Gracia FG, McKellar J, Dubuisson J, Wencker M, Belouzard S, Moncorgé O, Doench JG, and Goujon C

Subjects

Caco-2 Cells, Clustered Regularly Interspaced Short Palindromic Repeats genetics, Humans, SARS-CoV-2 genetics, Seasons, COVID-19 genetics, Middle East Respiratory Syndrome Coronavirus genetics

Abstract

CRISPR knockout (KO) screens have identified host factors regulating severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) replication. Here, we conducted a meta-analysis of these screens, which showed a high level of cell-type specificity of the identified hits, highlighting the necessity of additional models to uncover the full landscape of host factors. Thus, we performed genome-wide KO and activation screens in Calu-3 lung cells and KO screens in Caco-2 colorectal cells, followed by secondary screens in four human cell lines. This revealed host-dependency factors, including AP1G1 adaptin and ATP8B1 flippase, as well as inhibitors, including mucins. Interestingly, some of the identified genes also modulate Middle East respiratory syndrome coronavirus (MERS-CoV) and seasonal human coronavirus (HCoV) (HCoV-NL63 and HCoV-229E) replication. Moreover, most genes had an impact on viral entry, with AP1G1 likely regulating TMPRSS2 activity at the plasma membrane. These results demonstrate the value of multiple cell models and perturbational modalities for understanding SARS-CoV-2 replication and provide a list of potential targets for therapeutic interventions., (© 2022. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published

2022

28. Differentiated glioma cell-derived fibromodulin activates integrin-dependent Notch signaling in endothelial cells to promote tumor angiogenesis and growth.

Author

Sengupta S, Mondal M, Prasasvi KR, Mukherjee A, Magod P, Urbach S, Friedmann-Morvinski D, Marin P, and Somasundaram K

Subjects

Animals, Fibromodulin metabolism, Integrins metabolism, Mice, Neoplastic Stem Cells metabolism, Neovascularization, Pathologic metabolism, Proteomics, Endothelial Cells metabolism, Glioma pathology

Abstract

Cancer stem cells (CSCs) alone can initiate and maintain tumors, but the function of non-cancer stem cells (non-CSCs) that form the tumor bulk remains poorly understood. Proteomic analysis showed a higher abundance of the extracellular matrix small leucine-rich proteoglycan fibromodulin (FMOD) in the conditioned medium of differentiated glioma cells (DGCs), the equivalent of glioma non-CSCs, compared to that of glioma stem-like cells (GSCs). DGCs silenced for FMOD fail to cooperate with co-implanted GSCs to promote tumor growth. FMOD downregulation neither affects GSC growth and differentiation nor DGC growth and reprogramming in vitro. DGC-secreted FMOD promotes angiogenesis by activating integrin-dependent Notch signaling in endothelial cells. Furthermore, conditional silencing of FMOD in newly generated DGCs in vivo inhibits the growth of GSC-initiated tumors due to poorly developed vasculature and increases mouse survival. Collectively, these findings demonstrate that DGC-secreted FMOD promotes glioma tumor angiogenesis and growth through paracrine signaling in endothelial cells and identifies a DGC-produced protein as a potential therapeutic target in glioma., Competing Interests: SS, MM, KP, AM, PM, SU, DF, PM, KS No competing interests declared, (© 2022, Sengupta et al.)

Published

2022

29. Pediatric heart transplant waiting times in the United States since the 2016 allocation policy change.

Author

Williams RJ, Lu M, Sleeper LA, Blume ED, Esteso P, Fynn-Thompson F, Vanderpluym CJ, Urbach S, and Daly KP

Subjects

Child, Humans, Policy, Tissue Donors, United States, Waiting Lists, Heart Defects, Congenital, Heart Transplantation, Tissue and Organ Procurement

Abstract

We describe waiting times for pediatric heart transplant (HT) candidates after the 2016 revision to the US allocation policy. The OPTN database was queried for pediatric HT candidates listed between 7/2016 and 4/2019. Of the 1789 included candidates, 65% underwent HT, 14% died/deteriorated, 8% were removed for improvement, and 13% were still waiting at the end of follow-up. Most candidates were status 1A at HT (81%). Median wait times differ substantially by listing status, blood type, and recipient weight. The likelihood of HT was lower in candidates <25 kg and in those with blood type O; The <25 kg, blood type O subgroup experiences longer wait times and higher wait list mortality. For status 1A candidates, median wait times were 108 days (≤25 kg, blood type O), 80 days (≤25 kg, non-O), 47 days (>25 kg, O), and 24 days (>25 kg, non-O). We found that centers with more selective organ acceptance practices, based on a lower median Pediatric Heart Donor Assessment Tool (PH-DAT) score for completed transplants, experience longer status 1A wait times for their listed patients. These data can be used to counsel families and to select appropriate advanced heart failure therapies to support patients to transplant., (© 2022 The American Society of Transplantation and the American Society of Transplant Surgeons.)

Published

2022

30. SHED-Dependent Oncogenic Signaling of the PEAK3 Pseudo-Kinase.

Author

Ounoughene Y, Fourgous E, Boublik Y, Saland E, Guiraud N, Recher C, Urbach S, Fort P, Sarry JE, Fesquet D, and Roche S

Abstract

The PEAK1 and Pragmin/PEAK2 pseudo-kinases have emerged as important components of the protein tyrosine kinase pathway implicated in cancer progression. They can signal using a scaffolding mechanism that involves a conserved split helical dimerization (SHED) module. We recently identified PEAK3 as a novel member of this family based on structural homology; however, its signaling mechanism remains unclear. In this study, we found that, although it can self-associate, PEAK3 shows higher evolutionary divergence than PEAK1/2. Moreover, the PEAK3 protein is strongly expressed in human hematopoietic cells and is upregulated in acute myeloid leukemia. Functionally, PEAK3 overexpression in U2OS sarcoma cells enhanced their growth and migratory properties, while its silencing in THP1 leukemic cells reduced these effects. Importantly, an intact SHED module was required for these PEAK3 oncogenic activities. Mechanistically, through a phosphokinase survey, we identified PEAK3 as a novel inducer of AKT signaling, independent of growth-factor stimulation. Then, proteomic analyses revealed that PEAK3 interacts with the signaling proteins GRB2 and ASAP1/2 and the protein kinase PYK2, and that these interactions require the SHED domain. Moreover, PEAK3 activated PYK2, which promoted PEAK3 tyrosine phosphorylation, its association with GRB2 and ASAP1, and AKT signaling. Thus, the PEAK1-3 pseudo-kinases may use a conserved SHED-dependent mechanism to activate specific signaling proteins to promote oncogenesis.

Published

2021

31. The Beta-Tubulin Isotype TUBB6 Controls Microtubule and Actin Dynamics in Osteoclasts.

Author

Maurin J, Morel A, Guérit D, Cau J, Urbach S, Blangy A, and Bompard G

Abstract

Osteoclasts are bone resorbing cells that participate in the maintenance of bone health. Pathological increase in osteoclast activity causes bone loss, eventually resulting in osteoporosis. Actin cytoskeleton of osteoclasts organizes into a belt of podosomes, which sustains the bone resorption apparatus and is maintained by microtubules. Better understanding of the molecular mechanisms regulating osteoclast cytoskeleton is key to understand the mechanisms of bone resorption, in particular to propose new strategies against osteoporosis. We reported recently that β-tubulin isotype TUBB6 is key for cytoskeleton organization in osteoclasts and for bone resorption. Here, using an osteoclast model CRISPR/Cas9 KO for Tubb6, we show that TUBB6 controls both microtubule and actin dynamics in osteoclasts. Osteoclasts KO for Tubb6 have reduced microtubule growth speed with longer growth life time, higher levels of acetylation, and smaller EB1-caps. On the other hand, lack of TUBB6 increases podosome life time while the belt of podosomes is destabilized. Finally, we performed proteomic analyses of osteoclast microtubule-associated protein enriched fractions. This highlighted ARHGAP10 as a new microtubule-associated protein, which binding to microtubules appears to be negatively regulated by TUBB6. ARHGAP10 is a negative regulator of CDC42 activity, which participates in actin organization in osteoclasts. Our results suggest that TUBB6 plays a key role in the control of microtubule and actin cytoskeleton dynamics in osteoclasts. Moreover, by controlling ARHGAP10 association with microtubules, TUBB6 may participate in the local control of CDC42 activity to ensure efficient bone resorption., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Maurin, Morel, Guérit, Cau, Urbach, Blangy and Bompard.)

Published

2021

32. Δ133p53β isoform pro-invasive activity is regulated through an aggregation-dependent mechanism in cancer cells.

Author

Arsic N, Slatter T, Gadea G, Villain E, Fournet A, Kazantseva M, Allemand F, Sibille N, Seveno M, de Rossi S, Mehta S, Urbach S, Bourdon JC, Bernado P, Kajava AV, Braithwaite A, and Roux P

Subjects

Animals, Cell Line, Tumor, Humans, MCF-7 Cells, Mice, Models, Molecular, Mutation, Neoplasm Invasiveness, Neoplasms metabolism, Neoplasms pathology, Protein Aggregates, Protein Conformation, Protein Isoforms chemistry, Protein Isoforms genetics, Protein Isoforms metabolism, Protein Unfolding, Tumor Suppressor Protein p53 chemistry, Tumor Suppressor Protein p53 metabolism, Gene Expression Regulation, Neoplastic, Neoplasms genetics, Protein Aggregation, Pathological, Tumor Suppressor Protein p53 genetics

Abstract

The p53 isoform, Δ133p53β, is critical in promoting cancer. Here we report that Δ133p53β activity is regulated through an aggregation-dependent mechanism. Δ133p53β aggregates were observed in cancer cells and tumour biopsies. The Δ133p53β aggregation depends on association with interacting partners including p63 family members or the CCT chaperone complex. Depletion of the CCT complex promotes accumulation of Δ133p53β aggregates and loss of Δ133p53β dependent cancer cell invasion. In contrast, association with p63 family members recruits Δ133p53β from aggregates increasing its intracellular mobility. Our study reveals novel mechanisms of cancer progression for p53 isoforms which are regulated through sequestration in aggregates and recruitment upon association with specific partners like p63 isoforms or CCT chaperone complex, that critically influence cancer cell features like EMT, migration and invasion., (© 2021. The Author(s).)

Published

2021

33. Plant-phenotypic changes induced by parasitoid ichnoviruses enhance the performance of both unparasitized and parasitized caterpillars.

Author

Cusumano A, Urbach S, Legeai F, Ravallec M, Dicke M, Poelman EH, and Volkoff AN

Subjects

Animals, Herbivory, Host-Parasite Interactions, Larva, Proteomics, Polydnaviridae, Wasps

Abstract

There is increasing awareness that interactions between plants and insects can be mediated by microbial symbionts. Nonetheless, evidence showing that symbionts associated with organisms beyond the second trophic level affect plant-insect interactions are restricted to a few cases belonging to parasitoid-associated bracoviruses. Insect parasitoids harbour a wide array of symbionts which, like bracoviruses, can be injected into their herbivorous hosts to manipulate their physiology and behaviour. Yet, the function of these symbionts in plant-based trophic webs remains largely overlooked. Here, we provide the first evidence of a parasitoid-associated symbiont belonging to the group of ichnoviruses which affects the strength of plant-insect interactions. A comparative proteomic analysis shows that, upon parasitoid injection of calyx fluid containing ichnovirus particles, the composition of salivary glands of caterpillars changes both qualitatively (presence of two viral-encoded proteins) and quantitatively (abundance of several caterpillar-resident enzymes, including elicitors such as glucose oxidase). In turn, plant phenotypic changes triggered by the altered composition of caterpillar oral secretions affect the performance of herbivores. Ichnovirus manipulation of plant responses to herbivory leads to benefits for their parasitoid partners in terms of reduced developmental time within the parasitized caterpillar. Interestingly, plant-mediated ichnovirus-induced effects also enhance the performances of unparasitized herbivores which in natural conditions may feed alongside parasitized ones. We discuss these findings in the context of ecological costs imposed to the plant by the viral symbiont of the parasitoid. Our results provide intriguing novel findings about the role played by carnivore-associated symbionts on plant-insect-parasitoid systems and underline the importance of placing mutualistic associations in an ecological perspective., (© 2021 The Authors. Molecular Ecology published by John Wiley & Sons Ltd.)

Published

2021

34. Proteomics-Based Data Integration of Wheat Cultivars Facing Fusarium graminearum Strains Revealed a Core-Responsive Pattern Controlling Fusarium Head Blight.

Author

Fabre F, Urbach S, Roche S, Langin T, and Bonhomme L

Abstract

Fusarium head blight (FHB), mainly occurring upon Fusarium graminearum infection in a wide variety of small-grain cereals, is supposed to be controlled by a range of processes diverted by the fungal pathogen, the so-called susceptibility factors. As a mean to provide relevant information about the molecular events involved in FHB susceptibility in bread wheat, we studied an extensive proteome of more than 7,900 identified wheat proteins in three cultivars of contrasting susceptibilities during their interaction with three F. graminearum strains of different aggressiveness. No cultivar-specific proteins discriminated the three wheat genotypes, demonstrating the establishment of a core proteome regardless of unequivocal FHB susceptibility differences. Quantitative protein analysis revealed that most of the FHB-induced molecular adjustments were shared by wheat cultivars and occurred independently of the F. graminearum strain aggressiveness. Although subtle abundance changes evidenced genotype-dependent responses to FHB, cultivar distinction was found to be mainly due to basal abundance differences, especially regarding the chloroplast functions. Integrating these data with previous proteome mapping of the three F. graminearum strains facing the three same wheat cultivars, we demonstrated strong correlations between the wheat protein abundance changes and the adjustments of fungal proteins supposed to interfere with host molecular functions. Together, these results provide a resourceful dataset that expands our understanding of the specific molecular events taking place during the wheat- F. graminearum interaction., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Fabre, Urbach, Roche, Langin and Bonhomme.)

Published

2021

35. An Alveolata secretory machinery adapted to parasite host cell invasion.

Author

Aquilini E, Cova MM, Mageswaran SK, Dos Santos Pacheco N, Sparvoli D, Penarete-Vargas DM, Najm R, Graindorge A, Suarez C, Maynadier M, Berry-Sterkers L, Urbach S, Fahy PR, Guérin AN, Striepen B, Dubremetz JF, Chang YW, Turkewitz AP, and Lebrun M

Subjects

Alveolata classification, Alveolata ultrastructure, Cell Membrane metabolism, Exocytosis, Host-Parasite Interactions, Humans, Protozoan Proteins genetics, Protozoan Proteins metabolism, Secretory Vesicles metabolism, Alveolata physiology, Organelles metabolism

Abstract

Apicomplexa are unicellular eukaryotes and obligate intracellular parasites, including Plasmodium (the causative agent of malaria) and Toxoplasma (one of the most widespread zoonotic pathogens). Rhoptries, one of their specialized secretory organelles, undergo regulated exocytosis during invasion 1 . Rhoptry proteins are injected directly into the host cell to support invasion and subversion of host immune function 2 . The mechanism by which they are discharged is unclear and appears distinct from those in bacteria, yeast, animals and plants. Here, we show that rhoptry secretion in Apicomplexa shares structural and genetic elements with the exocytic machinery of ciliates, their free-living relatives. Rhoptry exocytosis depends on intramembranous particles in the shape of a rosette embedded into the plasma membrane of the parasite apex. Formation of this rosette requires multiple non-discharge (Nd) proteins conserved and restricted to Ciliata, Dinoflagellata and Apicomplexa that together constitute the superphylum Alveolata. We identified Nd6 at the site of exocytosis in association with an apical vesicle. Sandwiched between the rosette and the tip of the rhoptry, this vesicle appears as a central element of the rhoptry secretion machine. Our results describe a conserved secretion system that was adapted to provide defence for free-living unicellular eukaryotes and host cell injection in intracellular parasites.

Published

2021

36. PfGBP2 is a novel G-quadruplex binding protein in Plasmodium falciparum.

Author

Gurung P, Gomes AR, Martins RM, Juranek SA, Alberti P, Mbang-Benet DE, Urbach S, Gazanion E, Guitard V, Paeschke K, and Lopez-Rubio JJ

Subjects

Carrier Proteins, Chromatography, Liquid, Humans, Plasmodium falciparum metabolism, Promoter Regions, Genetic, Protein Binding, Tandem Mass Spectrometry, G-Quadruplexes, GTP-Binding Proteins genetics, GTP-Binding Proteins metabolism, Plasmodium falciparum genetics

Abstract

Guanine-quadruplexes (G4s) are non-canonical DNA structures that can regulate key biological processes such as transcription, replication and telomere maintenance in several organisms including eukaryotes, prokaryotes and viruses. Recent reports have identified the presence of G4s within the AT-rich genome of Plasmodium falciparum, the protozoan parasite causing malaria. In Plasmodium, potential G4-forming sequences (G4FS) are enriched in the telomeric and sub-telomeric regions of the genome where they are associated with telomere maintenance and recombination events within virulence genes. However, there is a little understanding about the biological role of G4s and G4-binding proteins. Here, we provide the first snapshot of G4-interactome in P. falciparum using DNA pull-down assay followed by LC-MS/MS. Interestingly, we identified ~24 potential G4-binding proteins (G4-BP) that bind to a stable G4FS (AP2&#95;G4). Furthermore, we characterised the role of G-strand binding protein 2 (PfGBP2), a putative telomere-binding protein in P. falciparum. We validated the interaction of PfGBP2 with G4 in vitro as well as in vivo. PfGBP2 is expressed throughout the intra-erythrocytic developmental cycle and is essential for the parasites in the presence of G4-stabilising ligand, pyridostatin. Gene knockout studies showed the role of PfGBP2 in the expression of var genes. Taken together, this study suggests that PfGBP2 is a bona fide G4-binding protein, which is likely to be involved in the regulation of G4-related functions in these malarial parasites. In addition, this study sheds light on this understudied G4 biology in P. falciparum., (© 2020 John Wiley & Sons Ltd.)

Published

2021

37. TopBP1 assembles nuclear condensates to switch on ATR signaling.

Author

Frattini C, Promonet A, Alghoul E, Vidal-Eychenie S, Lamarque M, Blanchard MP, Urbach S, Basbous J, and Constantinou A

Subjects

Amino Acid Substitution, Animals, Checkpoint Kinase 1 chemistry, Checkpoint Kinase 1 genetics, Checkpoint Kinase 1 metabolism, HeLa Cells, Humans, Sf9 Cells, Spodoptera, Ataxia Telangiectasia Mutated Proteins chemistry, Ataxia Telangiectasia Mutated Proteins genetics, Ataxia Telangiectasia Mutated Proteins metabolism, Carrier Proteins chemistry, Carrier Proteins genetics, Carrier Proteins metabolism, Cell Nucleus chemistry, Cell Nucleus genetics, Cell Nucleus metabolism, DNA-Binding Proteins chemistry, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Mutation, Missense, Nuclear Proteins chemistry, Nuclear Proteins genetics, Nuclear Proteins metabolism, Signal Transduction

Abstract

ATR checkpoint signaling is crucial for cellular responses to DNA replication impediments. Using an optogenetic platform, we show that TopBP1, the main activator of ATR, self-assembles extensively to yield micrometer-sized condensates. These opto-TopBP1 condensates are functional entities organized in tightly packed clusters of spherical nano-particles. TopBP1 condensates are reversible, occasionally fuse, and co-localize with TopBP1 partner proteins. We provide evidence that TopBP1 condensation is a molecular switch that amplifies ATR activity to phosphorylate checkpoint kinase 1 (Chk1) and slow down replication forks. Single amino acid substitutions of key residues in the intrinsically disordered ATR activation domain disrupt TopBP1 condensation and consequently ATR/Chk1 signaling. In physiologic salt concentration and pH, purified TopBP1 undergoes liquid-liquid phase separation in vitro. We propose that the actuation mechanism of ATR signaling is the assembly of TopBP1 condensates driven by highly regulated multivalent and cooperative interactions., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

38. TrIPP-a method for tracking the inheritance patterns of proteins in living cells-reveals retention of Tup1p, Fpr4p, and Rpd3L in the mother cell.

Author

Auboiron M, Vasseur P, Tonazzini S, Fall A, Castro FR, Sučec I, El Koulali K, Urbach S, and Radman-Livaja M

Abstract

Inheritance of chromatin-bound proteins theoretically plays a role in the epigenetic transmission of cellular phenotypes. Protein segregation during cell division is however poorly understood. We now describe TrIPP (Tracking the Inheritance Patterns of Proteins): a live cell imaging method for tracking maternal proteins during asymmetric cell divisions of budding yeast. Our analysis of the partitioning pattern of a test set of 18 chromatin-associated proteins reveals that abundant and moderately abundant maternal proteins segregate stochastically and symmetrically between the two cells with the exception of Rxt3p, Fpr4p, and Tup1p, which are preferentially retained in the mother. Low abundance proteins also tend to be retained in the mother cell with the exception of Sir2p and the linker histone H1. Our analysis of chromatin protein behavior in single cells reveals potentially general trends such as coupled protein synthesis and decay and a correlation between protein half-lives and cell-cycle duration., Competing Interests: The authors declare no competing interests., (© 2021 The Author(s).)

Published

2021

39. PRDM9 activity depends on HELLS and promotes local 5-hydroxymethylcytosine enrichment.

Author

Imai Y, Biot M, Clément JA, Teragaki M, Urbach S, Robert T, Baudat F, Grey C, and de Massy B

Subjects

5-Methylcytosine metabolism, Animals, Binding Sites, Endodeoxyribonucleases metabolism, HeLa Cells, Histone-Lysine N-Methyltransferase metabolism, Homologous Recombination, Humans, Male, Mice, Mice, Knockout, Proteomics, Spermatocytes cytology, Testis metabolism, 5-Methylcytosine analogs & derivatives, DNA Breaks, Double-Stranded, DNA Helicases metabolism, Histone-Lysine N-Methyltransferase genetics

Abstract

Meiotic recombination starts with the formation of DNA double-strand breaks (DSBs) at specific genomic locations that correspond to PRDM9-binding sites. The molecular steps occurring from PRDM9 binding to DSB formation are unknown. Using proteomic approaches to find PRDM9 partners, we identified HELLS, a member of the SNF2-like family of chromatin remodelers. Upon functional analyses during mouse male meiosis, we demonstrated that HELLS is required for PRDM9 binding and DSB activity at PRDM9 sites. However, HELLS is not required for DSB activity at PRDM9-independent sites. HELLS is also essential for 5-hydroxymethylcytosine (5hmC) enrichment at PRDM9 sites. Analyses of 5hmC in mice deficient for SPO11, which catalyzes DSB formation, and in PRDM9 methyltransferase deficient mice reveal that 5hmC is triggered at DSB-prone sites upon PRDM9 binding and histone modification, but independent of DSB activity. These findings highlight the complex regulation of the chromatin and epigenetic environments at PRDM9-specified hotspots., Competing Interests: YI, MB, JC, MT, SU, TR, FB, CG No competing interests declared, Bd Reviewing editor, eLife, (© 2020, Imai et al.)

Published

2020

40. Primary myeloid cell proteomics and transcriptomics: importance of β-tubulin isotypes for osteoclast function.

Author

Guérit D, Marie P, Morel A, Maurin J, Verollet C, Raynaud-Messina B, Urbach S, and Blangy A

Subjects

Animals, Humans, Mice, Proteomics, Transcriptome genetics, Tubulin genetics, Bone Resorption genetics, Osteoclasts

Abstract

Among hematopoietic cells, osteoclasts (OCs) and immature dendritic cells (DCs) are closely related myeloid cells with distinct functions: OCs participate skeleton maintenance while DCs sample the environment for foreign antigens. Such specificities rely on profound modifications of gene and protein expression during OC and DC differentiation. We provide global proteomic and transcriptomic analyses of primary mouse OCs and DCs, based on original stable isotope labeling with amino acids in cell culture (SILAC) and RNAseq data. We established specific signatures for OCs and DCs, including genes and proteins of unknown functions. In particular, we showed that OCs and DCs have the same α- and β-tubulin isotype repertoire but that OCs express much more of the β tubulin isotype Tubb6 (also known as TBB6). In both mouse and human OCs, we demonstrate that elevated expression of Tubb6 in OCs is necessary for correct podosomes organization and thus for the structure of the sealing zone, which sustains the bone resorption apparatus. Hence, lowering Tubb6 expression hinders OC resorption activity. Overall, we highlight here potential new regulators of OC and DC biology, and illustrate the functional importance of the tubulin isotype repertoire in the biology of differentiated cells., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2020. Published by The Company of Biologists Ltd.)

Published

2020

41. PTPN13 induces cell junction stabilization and inhibits mammary tumor invasiveness.

Author

Hamyeh M, Bernex F, Larive RM, Naldi A, Urbach S, Simony-Lafontaine J, Puech C, Bakhache W, Solassol J, Coopman PJ, Hendriks WJAJ, and Freiss G

Subjects

Animals, Cell Line, Tumor, Cell Movement, Cell Proliferation, Cell Transformation, Neoplastic, Epithelial-Mesenchymal Transition, Female, Humans, Intercellular Junctions, Mice, Mice, Nude, Mice, Transgenic, Neoplasm Invasiveness, Neoplasm Transplantation, Receptor, ErbB-2 metabolism, Mammary Neoplasms, Experimental metabolism, Mammary Neoplasms, Experimental pathology, Protein Tyrosine Phosphatase, Non-Receptor Type 13 physiology, Triple Negative Breast Neoplasms metabolism, Triple Negative Breast Neoplasms pathology

Abstract

Clinical data suggest that the protein tyrosine phosphatase PTPN13 exerts an anti-oncogenic effect. Its exact role in tumorigenesis remains, however, unclear due to its negative impact on FAS receptor-induced apoptosis. Methods: We crossed transgenic mice deleted for PTPN13 phosphatase activity with mice that overexpress human HER2 to assess the exact role of PTPN13 in tumor development and aggressiveness. To determine the molecular mechanism underlying the PTPN13 tumor suppressor activity we developed isogenic clones of the aggressive human breast cancer cell line MDA-MB-231 overexpressing either wild type or a catalytically-inactive mutant PTPN13 and subjected these to phosphoproteomic and gene ontology analyses. We investigated the PTPN13 consequences on cell aggressiveness using wound healing and Boyden chamber assays, on intercellular adhesion using videomicroscopy, cell aggregation assay and immunofluorescence. Results: The development, growth and invasiveness of breast tumors were strongly increased by deletion of the PTPN13 phosphatase activity in transgenic mice. We observed that PTPN13 phosphatase activity is required to inhibit cell motility and invasion in the MDA-MB-231 cell line overexpressing PTPN13. In vivo , the negative PTPN13 effect on tumor invasiveness was associated with a mesenchymal-to-epithelial transition phenotype in athymic mice xenografted with PTPN13-overexpressing MDA-MB-231 cells, as well as in HER2-overexpressing mice with wild type PTPN13, compared to HER2-overexpressing mice that lack PTPN13 phosphatase activity. Phosphoproteomic and gene ontology analyses indicated a role of PTPN13 in the regulation of intercellular junction-related proteins. Finally, protein localization studies in MDA-MB-231 cells and HER2-overexpressing mice tumors confirmed that PTPN13 stabilizes intercellular adhesion and promotes desmosome formation. Conclusions: These data provide the first evidence for the negative role of PTPN13 in breast tumor invasiveness and highlight its involvement in cell junction stabilization., Competing Interests: Competing Interests: The authors have declared that no competing interest exists., (© The author(s).)

Published

2020

42. Evolutionary Divergence of Enzymatic Mechanisms for Tubulin Detyrosination.

Author

van der Laan S, Lévêque MF, Marcellin G, Vezenkov L, Lannay Y, Dubra G, Bompard G, Ovejero S, Urbach S, Burgess A, Amblard M, Sterkers Y, Bastien P, and Rogowski K

Subjects

Angiogenic Proteins chemistry, Angiogenic Proteins genetics, Carrier Proteins chemistry, Carrier Proteins genetics, Cell Cycle Proteins chemistry, Cell Cycle Proteins genetics, Crystallography, X-Ray, Flagella metabolism, HEK293 Cells, Humans, Microtubules metabolism, Mitosis, Phylogeny, Protein Conformation, Protein Processing, Post-Translational, Trypanosoma brucei brucei genetics, Trypanosoma brucei brucei growth & development, Tyrosine chemistry, Tyrosine genetics, Angiogenic Proteins metabolism, Biological Evolution, Carrier Proteins metabolism, Cell Cycle Proteins metabolism, Trypanosoma brucei brucei metabolism, Tyrosine metabolism

Abstract

The two related members of the vasohibin family, VASH1 and VASH2, encode human tubulin detyrosinases. Here we demonstrate that, in contrast to VASH1, which requires binding of small vasohibin binding protein (SVBP), VASH2 has autonomous tubulin detyrosinating activity. Moreover, we demonstrate that SVBP acts as a bona fide activator of both enzymes. Phylogenetic analysis of the vasohibin family revealed that regulatory diversification of VASH-mediated tubulin detyrosination coincided with early vertebrate evolution. Thus, as a model organism for functional analysis, we used Trypanosoma brucei (Tb), an evolutionarily early-branched eukaryote that possesses a single VASH and encodes a terminal tyrosine on both α- and β-tubulin tails, both subject to removal. Remarkably, although detyrosination levels are high in the flagellum, TbVASH knockout parasites did not present any noticeable flagellar abnormalities. In contrast, we observed reduced proliferation associated with profound morphological and mitotic defects, underscoring the importance of tubulin detyrosination in cell division., (Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2019

43. Unbalanced Roles of Fungal Aggressiveness and Host Cultivars in the Establishment of the Fusarium Head Blight in Bread Wheat.

Author

Fabre F, Bormann J, Urbach S, Roche S, Langin T, and Bonhomme L

Abstract

Fusarium head blight (FHB), caused mainly by Fusarium graminearum , is the foremost destructive disease of cereals worldwide. Effector-like molecules produced by F. graminearum play key roles in the infection process and are assumed to be one of the essential components of the pathogen's aggressiveness. However, their nature and role in the disease are still largely misunderstood. As a mean to provide relevant information about the molecular determinism of F. graminearum aggressiveness, we surveyed three F. graminearum strains on three wheat cultivars contrasted by their susceptibility to FHB. F. graminearum strains revealed large differences in aggressiveness which were mostly unchanged when facing hosts of contrasted susceptibility, suggesting that their behavior rely on intrinsic determinants. Surveying the fungal mass progress and the mycotoxin production rate in the spikes did not evidence any simple relationship with aggressiveness differences, while clues were found through a qualitative and quantitative characterization of the three strain proteomes established in planta especially with regards to early synthesized putative effectors. Independently of the wheat cultivar, the three F. graminearum strains produced systematically the same protein set during the infection but substantial differences in their abundance enabled the categorization of fungal aggressiveness. Overall, our findings show that the contrasts in F. graminearum aggressiveness were not based on the existence of strain-specific molecules but rather on the ability of the strain to ensure their sufficient accumulation. Protein abundance variance was mostly driven by the strain genetics and part was also influenced by the host cultivar but strain by cultivar interactions were marginally detected, depicting that strain-specific protein accumulations did not depend on the host cultivar. All these data provide new knowledge on fungal aggressiveness determinants and provide a resourceful repertoire of candidate effector proteins to guide further research., (Copyright © 2019 Fabre, Bormann, Urbach, Roche, Langin and Bonhomme.)

Published

2019

44. The Syk Kinase Promotes Mammary Epithelial Integrity and Inhibits Breast Cancer Invasion by Stabilizing the E-Cadherin/Catenin Complex.

Author

Kassouf T, Larive RM, Morel A, Urbach S, Bettache N, Marcial Medina MC, Mèrezègue F, Freiss G, Peter M, Boissière-Michot F, Solassol J, Montcourrier P, and Coopman P

Abstract

While first discovered in immunoreceptor signaling, the Syk protein kinase behaves as a tumor and metastasis suppressor in epithelial cells. Its reduced expression in breast and other carcinomas is correlated with decreased survival and increased metastasis risk, but its action mechanism remains largely unknown. Using phosphoproteomics we found that Syk phosphorylated E-cadherin and α-, β-, and p120-catenins on multiple tyrosine residues that concentrate at intercellular junctions. Increased Syk expression and activation enhanced E-cadherin/catenin phosphorylation, promoting their association and complex stability. In human breast cancer cells, Syk stimulated intercellular aggregation, E-cadherin recruitment and retention at adherens junctions, and promoted epithelial integrity, whereas it inhibited cell migration and invasion. Opposite effects were obtained with Syk knockdown or non-phosphorylatable mutant E-cadherin expression. Mechanistically, Syk stimulated the interaction of the E-cadherin/catenin complex with zonula occludens proteins and the actin cytoskeleton. Conditional Syk knockout in the lactating mouse mammary gland perturbed alveologenesis and disrupted E-cadherin localization at adherens junctions, corroborating the observations in cells. Hence, Syk is involved in the maintenance of the epithelial integrity of the mammary gland via the phosphorylation and stabilization of the E-cadherin/catenin adherens junction complex, thereby inhibiting cell migration and malignant tumor invasion.

Published

2019

45. Time-resolved dissection of the molecular crosstalk driving Fusarium head blight in wheat provides new insights into host susceptibility determinism.

Author

Fabre F, Vignassa M, Urbach S, Langin T, and Bonhomme L

Subjects

Fungal Proteins metabolism, Fusarium genetics, Fusarium pathogenicity, Gene Expression Profiling, Host-Pathogen Interactions immunology, Plant Proteins genetics, Plant Proteins metabolism, Proteome, Spores, Fungal, Triticum genetics, Triticum immunology, Triticum microbiology, Fusarium metabolism, Host-Pathogen Interactions physiology, Plant Diseases microbiology, Triticum metabolism

Abstract

Fungal plant diseases are controlled by a complex molecular dialogue that involves pathogen effectors able to manipulate plant susceptibility factors at the earliest stages of the interaction. By probing the wheat-Fusarium graminearum pathosystem, we profiled the coregulations of the fungal and plant proteins shaping the molecular responses of a 96-hr-long infection's dynamics. Although no symptoms were yet detectable, fungal biomass swiftly increased along with an extremely diverse set of secreted proteins and candidate effectors supposed to target key plant organelles. Some showed to be early accumulated during the interaction or already present in spores, otherwise stored in germinating spores and detectable in an in vitro F. graminearum exudate. Wheat responses were swiftly set up and were evidenced before any visible symptom. Significant wheat protein abundance changes co-occurred along with the accumulation of putative secreted fungal proteins and predicted effectors. Regulated wheat proteins were closely connected to basal cellular processes occurring during spikelet ontogeny, and particular coregulation patterns were evidenced between chloroplast proteins and fungal proteins harbouring a predicted chloroplast transit peptide. The described plant and fungal coordinated responses provide a resourceful set of data and expand our understanding of the wheat-F. graminearum interaction., (© 2019 John Wiley & Sons Ltd.)

Published

2019

46. Survival and functional outcomes of molecularly defined childhood posterior fossa ependymoma: Cure at a cost.

Author

Zapotocky M, Beera K, Adamski J, Laperierre N, Guger S, Janzen L, Lassaletta A, Figueiredo Nobre L, Bartels U, Tabori U, Hawkins C, Urbach S, Tsang DS, Dirks PB, Taylor MD, Bouffet E, Mabbott DJ, and Ramaswamy V

Subjects

Adolescent, Child, Child, Preschool, Ependymoma mortality, Ependymoma psychology, Female, Humans, Infant, Infratentorial Neoplasms mortality, Infratentorial Neoplasms psychology, Male, Neoadjuvant Therapy adverse effects, Ontario, Survival Analysis, Treatment Outcome, Ependymoma therapy, Infratentorial Neoplasms therapy, Neurocognitive Disorders etiology, Neurosurgical Procedures adverse effects, Radiotherapy adverse effects

Abstract

Background: Posterior fossa ependymoma (PFE) comprises 2 groups, PF group A (PFA) and PF group B (PFB), with stark differences in outcome. However, to the authors' knowledge, the long-term outcomes of PFA ependymoma have not been described fully. The objective of the current study was to identify predictors of survival and neurocognitive outcome in a large consecutive cohort of subgrouped patients with PFE over 30 years., Methods: Demographic, survival, and neurocognitive data were collected from consecutive patients diagnosed with PFE from 1985 through 2014 at the Hospital for Sick Children in Toronto, Ontario, Canada. Subgroup was assigned using genome-wide methylation array and/or immunoreactivity to histone H3 K27 trimethylation (H3K27me3)., Results: A total of 72 PFE cases were identified, 89% of which were PFA. There were no disease recurrences noted among patients with PFB. The 10-year progression-free survival rate for all patients with PFA was poor at 37.1% (95% confidence interval, 25.9%-53.1%). Analysis of consecutive 10-year epochs revealed significant improvements in progression-free survival and/or overall survival over time. This pertains to the increase in the rate of gross (macroscopic) total resection from 35% to 77% and the use of upfront radiotherapy increasing from 65% to 96% over the observed period and confirmed in a multivariable model. Using a mixed linear model, analysis of longitudinal neuropsychological outcomes restricted to patients with PFA who were treated with focal irradiation demonstrated significant continuous declines in the full-scale intelligence quotient over time with upfront conformal radiotherapy, even when correcting for hydrocephalus, number of surgeries, and age at diagnosis (-1.33 ± 0.42 points/year; P = .0042)., Conclusions: Data from a molecularly informed large cohort of patients with PFE clearly indicate improved survival over time, related to more aggressive surgery and upfront radiotherapy. However, to the best of the authors' knowledge, the current study is the first, in a subgrouped cohort, to demonstrate that this approach results in reduced neurocognitive outcomes over time., (© 2019 American Cancer Society.)

Published

2019

47. SETDB1-dependent heterochromatin stimulates alternative lengthening of telomeres.

Author

Gauchier M, Kan S, Barral A, Sauzet S, Agirre E, Bonnell E, Saksouk N, Barth TK, Ide S, Urbach S, Wellinger RJ, Luco RF, Imhof A, and Déjardin J

Subjects

Animals, Cell Line, Tumor, Histone Chaperones metabolism, Histone-Lysine N-Methyltransferase antagonists & inhibitors, Histone-Lysine N-Methyltransferase deficiency, Histone-Lysine N-Methyltransferase genetics, Humans, Methyltransferases deficiency, Methyltransferases genetics, Mice, Mice, Inbred C57BL, Mouse Embryonic Stem Cells cytology, Mouse Embryonic Stem Cells metabolism, RNA Interference, RNA, Small Interfering metabolism, Repressor Proteins deficiency, Repressor Proteins genetics, Telomeric Repeat Binding Protein 2 metabolism, X-linked Nuclear Protein metabolism, Heterochromatin metabolism, Histone-Lysine N-Methyltransferase metabolism, Telomere metabolism, Telomere Shortening

Abstract

Alternative lengthening of telomeres, or ALT, is a recombination-based process that maintains telomeres to render some cancer cells immortal. The prevailing view is that ALT is inhibited by heterochromatin because heterochromatin prevents recombination. To test this model, we used telomere-specific quantitative proteomics on cells with heterochromatin deficiencies. In contrast to expectations, we found that ALT does not result from a lack of heterochromatin; rather, ALT is a consequence of heterochromatin formation at telomeres, which is seeded by the histone methyltransferase SETDB1. Heterochromatin stimulates transcriptional elongation at telomeres together with the recruitment of recombination factors, while disrupting heterochromatin had the opposite effect. Consistently, loss of SETDB1, disrupts telomeric heterochromatin and abrogates ALT. Thus, inhibiting telomeric heterochromatin formation in ALT cells might offer a new therapeutic approach to cancer treatment.

Published

2019

48. SAMHD1 Enhances Chikungunya and Zika Virus Replication in Human Skin Fibroblasts.

Author

Wichit S, Hamel R, Zanzoni A, Diop F, Cribier A, Talignani L, Diack A, Ferraris P, Liegeois F, Urbach S, Ekchariyawat P, Merits A, Yssel H, Benkirane M, and Missé D

Subjects

Cell Line, Chikungunya Fever virology, Humans, Molecular Sequence Annotation, Protein Interaction Maps, Proteolysis, Up-Regulation, Viral Regulatory and Accessory Proteins metabolism, Zika Virus Infection virology, Chikungunya virus physiology, Fibroblasts metabolism, Fibroblasts virology, SAM Domain and HD Domain-Containing Protein 1 metabolism, Skin pathology, Virus Replication physiology, Zika Virus physiology

Abstract

Chikungunya virus (CHIKV) and Zika virus (ZIKV) are emerging arboviruses that pose a worldwide threat to human health. Currently, neither vaccine nor antiviral treatment to control their infections is available. As the skin is a major viral entry site for arboviruses in the human host, we determined the global proteomic profile of CHIKV and ZIKV infections in human skin fibroblasts using Stable Isotope Labelling by Amino acids in Cell culture (SILAC)-based mass-spectrometry analysis. We show that the expression of the interferon-stimulated proteins MX1, IFIT1, IFIT3 and ISG15, as well as expression of defense response proteins DDX58, STAT1, OAS3, EIF2AK2 and SAMHD1 was significantly up-regulated in these cells upon infection with either virus. Exogenous expression of IFITs proteins markedly inhibited CHIKV and ZIKV replication which, accordingly, was restored following the abrogation of IFIT1 or IFIT3. Overexpression of SAMHD1 in cutaneous cells, or pretreatment of cells with the virus-like particles containing SAMHD1 restriction factor Vpx, resulted in a strong increase or inhibition, respectively, of both CHIKV and ZIKV replication. Moreover, silencing of SAMHD1 by specific SAMHD1-siRNA resulted in a marked decrease of viral RNA levels. Together, these results suggest that IFITs are involved in the restriction of replication of CHIKV and ZIKV and provide, as yet unreported, evidence for a proviral role of SAMHD1 in arbovirus infection of human skin cells.

Published

2019

49. Dimerization of the Pragmin Pseudo-Kinase Regulates Protein Tyrosine Phosphorylation.

Author

Lecointre C, Simon V, Kerneur C, Allemand F, Fournet A, Montarras I, Pons JL, Gelin M, Brignatz C, Urbach S, Labesse G, and Roche S

Published

2018

50. NEDDylation promotes nuclear protein aggregation and protects the Ubiquitin Proteasome System upon proteotoxic stress.

Author

Maghames CM, Lobato-Gil S, Perrin A, Trauchessec H, Rodriguez MS, Urbach S, Marin P, and Xirodimas DP

Subjects

Blotting, Western, Cell Line, Tumor, HEK293 Cells, Humans, Microscopy, Fluorescence, NEDD8 Protein genetics, Nuclear Proteins genetics, Proteomics, Real-Time Polymerase Chain Reaction, Ribosomal Proteins genetics, Ribosomal Proteins metabolism, Tumor Suppressor Proteins genetics, Tumor Suppressor Proteins metabolism, Ubiquitin-Protein Ligases genetics, Ubiquitin-Protein Ligases metabolism, Ubiquitination genetics, Ubiquitination physiology, Ubiquitins genetics, NEDD8 Protein metabolism, Nuclear Proteins metabolism, Proteasome Endopeptidase Complex metabolism, Ubiquitins metabolism

Abstract

Spatial management of stress-induced protein aggregation is an integral part of the proteostasis network. Protein modification by the ubiquitin-like molecule NEDD8 increases upon proteotoxic stress and it is characterised by the formation of hybrid NEDD8/ubiquitin conjugates. However, the biological significance of this response is unclear. Combination of quantitative proteomics with biological analysis shows that, during proteotoxic stress, NEDDylation promotes nuclear protein aggregation, including ribosomal proteins as a major group. This correlates with protection of the nuclear Ubiquitin Proteasome System from stress-induced dysfunction. Correspondingly, we show that NEDD8 compromises ubiquitination and prevents targeting and processing of substrates by the proteasome. Moreover, we identify HUWE1 as a key E3-ligase that is specifically required for NEDDylation during proteotoxic stress. The study reveals a specific role for NEDD8 in nuclear protein aggregation upon stress and is consistent with the concept that transient aggregate formation is part of a defence mechanism against proteotoxicity.

Published

2018