2,322 research outputs found

    Review of the book "A World Divided. The Global Struggle for Human Rights in the Age of Nation-States" by Eric D. Weitz

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    Review of the book A World Divided. The Global Struggle for Human Rights in the Age of Nation-States, by Eric D. Weitz. Princeton and Oxford: Princeton University Press, 2019, ISBN: 978-0-691-14544-0, 544 pp.Review of the book "A World Divided. The Global Struggle for Human Rights in the Age of Nation-States" by Eric D. Weitz, Princeton and Oxford: Princeton University Press, 2019, ISBN: 978-0-691-14544-0, 544. The author gratefully acknowledges the European Social Fund (ESF) and the Fundação para a Ciência e a Tecnologia (FCT), Portugal, for supporting this publication through research grant SFRH/BD/136170/2018

    Fast mixing for independent sets, colorings and other models on trees

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    We study the mixing time of the Glauber dynamics for general spin systems on the regular tree, including the Ising model, the hard-core model (independent sets), and the antiferromagnetic Potts model at zero temperature (colorings). We generalize a framework, developed in our recent paper (Martinelli, Sinclair, and Weitz, Tech. Report UCB//CSD-03-1256, Dept. of EECS, UC Berkeley, July 2003) in the context of the Ising model, for establishing mixing time O(nlog n), which ties this property closely to phase transitions in the underlying model. We use this framework to obtain rapid mixing results for several models over a significantly wider range of parameter values than previously known, including situations in which the mixing time is strongly dependent on the boundary condition. We also discuss applications of our framework to reconstruction problems on trees

    Differential effects of low molecular weight inhibitors on the conformation and the immunologic function of the adhesion receptor LFA-1

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    Previous studies of our group 1,2 and by others 3 on the isolated ligand binding domain of LFA-1 (αL I domain) have suggested that some LFA-1 inhibitors act allosterically while other inhibitors were proposed to competitively block the LFA- 1/ligand interaction 4. We postulated that LMW LFA-1 inhibitors allosterically alter the LFA-1 receptor conformation, resulting in shielding or neo-expression of epitopes recognized by monoclonal antibodies (mAbs) mapping to regulatory domains of the aL or b2 chains. Our data revealed that LFA-1 inhibitors can be differentiated according to their mode of action on the receptor level. The first group of lovastatin-derived LFA-1 inhibitors strongly induced conformational changes within the aL I domain. This was detected by the potent inhibition of the binding of the mAb R7.1 (anti CD11a, aL I domain specific) to either purified LFA-1 or LFA-1 expressed on Jurkat T-cells. The degree of epitope reduction by the LFA-1 antagonists tested, correlated well with the potency in inhibition of the LFA-1/ICAM-1 interaction. These LFA-1 inhibitors had no effect on the binding of mAbs directed to other domains within LFA-1. In contrast, one lovastatin-derived inhibitor (LFA703) induced epitope changes in the aL I domain and also in the b2 I-like domain, a regulatory domain located on the b2 chain of LFA-1. This effect became evident by the reduced binding of mAb IB4 (anti CD18; b2 I-like domain specific) to cation-activated LFA-1 in the presence of LFA703. These results demonstrated that amongst lovastatin-derived inhibitors subclasses exit, which exert differential effects on the LFA-1 receptor conformation. Moreover, the antibody binding patterns observed on native LFA-1 receptors in the presence of various inhibitors demonstrated that upon receptor activation a conformational interaction between the aL I domain and the b2 I-like domain is formed. These findings have meanwhile been confirmed by others in more comprehensive biochemical studies 5. For the first time our results provided strong evidence that the b2 I-like domain embodies a target for allosteric LFA-1 inhibition similar to the well established regulatory L-site in the aL I domain. XVA143, a suggested ICAM-1 mimetic, which was proposed by the inventors to be a competitive aL I domain inhibitor 4, blocked the binding of the β2 I-like domain specific mAb IB4 with nM potency. XVA143 had no effect on the binding of mAb R7.1 or other anti CD11a mAbs under all experimental conditions, and did not bind to the αL L-site as determined by NMR studies. Furthermore, we showed that the target of XVA143 is most probably located on the β2 chain, as the compound also blocked the binding of mAb IB4 to purified Mac-1 (αMβ2) and inhibited the interaction of purified Mac-1 with ICAM-1. The compound typifies therefore a novel class of LFA-1 inhibitors with a distinct, probably allosteric mode of action. These findings provided evidence that the β2 I-like domain could represent a new target for potent inhibition of adhesion receptors of the β2 integrin subgroup. Potent LMW inhibitors like XVA143 may open new opportunities for specific intervention with the function of β2 integrins. These inhibitors could be therapeutically useful in transplantation, autoimmune diseases and inflammatory disorders. Compellingly, the combined use of various LFA-1 inhibitors and selected monitoring mAbs contributed to the understanding of the mode of action of LFA-1 inhibitors and the function of β2 integrins on a molecular level. In addition, our findings show that currently available LFA-1 inhibitors can be differentiated into two major groups according to their mode of action on the receptor level: the αL L-site inhibitors and the putative β2 I-like domain inhibitors. LMW LFA-1 inhibitors may soon enter clinical trials. For their pharmacological and safety evaluation in clinical studies, it will be mandatory to provide, in addition to pharmacokinetic (PK) measurements, insights in the pharmacodynamic (PD) properties of these potentially immunosuppressive and anti-inflammatory compounds. The aim of the studies described here was to develop the methodology for studying the effect of LFA-1 inhibitors on receptor occupancy, receptor expression and T-cell function in whole blood. These studies are intended as a basis for the pharmacodynamic characterization of LFA-1 inhibitors in clinical trials. Furthermore, the effect of LFA-1 inhibitors on T-cell function was compared to the immunosuppressants cyclosporine A and everolimus. LFA-1 inhibitors of different chemical classes were tested in novel whole blood receptor epitope monitoring assays (REMAs). We designate here REMAs as cytometric methods which use target-specific mAbs to detect receptor occupancy by LMW compounds in whole blood. The lovastatin-derived LFA-1 inhibitor LFA878 and the experimental COMPOUND X, a non lovastatin-derived LFA-1 inhibitor, blocked the binding of mAb R7.1 to leukocytes in undiluted blood with nM potencies. As expected, the putative β2 I-like domain inhibitor XVA143 was unable to alter the binding of mAb R7.1 to leukocytes in whole blood. In contrast, we found that LFA-1 receptor occupancy by XVA143 led to a significantly increased binding of the β2 chain, stalk region specific mAb MEM48 to whole blood leukocytes. These results demonstrated for the first time that LFA-1 inhibitors with different modes of action can interact with LFA-1 in undiluted human blood and that target occupancy can be monitored by selected mAbs. The REMA principle was validated ex vivo by measuring LFA-1 receptor occupancy in blood of rabbits after i.v. administration of LFA878. LFA878 blocked the binding of the mAb R7.1 with transient duration of action. Dependent on the dose administered the pharmacodynamic half-life was 0.6 h (11.5 mg/kg i.v.) or 3.3 h (50mg/kg i.v.). These data showed for the first time that the REMA can be applied to study pharmacodynamic effects of αL L-site inhibitors in rabbits ex vivo. Our results furthermore suggested that the αL L-site and the mAb R7.1 epitope are conserved between man and rabbit. The pharmacodynamic effects of XVA143 could not be investigated because the mAb MEM48 did not cross-react with LFA-1 of other species. To allow the assessment of the effect of LFA-1 inhibitors on several T-cell parameters, we developed an anti CD3 (OKT3) mAb stimulated T-cell activation assay (CD69 readout) and combined it with the REMAs described above. The socalled EA-REMAs allowed us to quantify simultaneously receptor occupancy by LFA- 1 inhibitors (REMA), the cell surface LFA-1 expression (E) and the upregulation of the activation marker CD69 (A) on individual T-lymphocytes after in vitro stimulation of 1:1 diluted blood with immobilized mAb OKT3. LFA878, COMPOUND X and XVA143 completely blocked mAb OKT3 stimulated CD69 upregulation with IC50s of 2 μM, 1 μM and 0.05 μM respectively, while pravastatin, a statin that does not bind to LFA-1, was completely inactive at 50 μM. The LFA-1 inhibitors tested were completely inactive in blood cultures stimulated with a combination of mAbs OKT3 and anti CD28, demonstrating the specific inhibition of LFA-1 dependent T-cell responses by the compounds tested. An additional pharmacodynamic property of XVA143 was revealed by the EA-REMA. 22 h incubation of whole blood with XVA143 led to a partial (35-55%) downregulation of LFA-1 cell surface receptors on T-cells, a phenomenon not observed for the αL Lsite inhibitors tested. The compounds were then assessed on their effect on mAb OKT3 stimulated T-cell proliferation in 1:10 diluted blood. All LFA-1 inhibitors blocked mAb OKT3 stimulated T-lymphocyte proliferation with nearly equal potencies than observed in the mAb OKT3 stimulated T-cell activation assay. Applying these protocols, experimental evidence was obtained for the first time that LFA-1 receptor occupancy by LFA-1 inhibitors can translate into efficient blockade of in vitro stimulated T-cell activation and proliferation in whole blood. The correlation between receptor occupancy and blockade of T-cell activation and proliferation (response) revealed that a >85% receptor occupancy in whole blood is required by the αL L-site inhibitors tested for the suppression of T-cell responses in whole blood cultures by 50%. In contrast, an almost 1:1 correlation between receptor occupancy and the resulting suppression of T-cell responses was observed for the β2 I-like domain inhibitor XVA143. A comparison of LFA-1 inhibitors with cyclosporin A (CsA) and everolimus in the whole blood assays suggested that the structurally different LFA-1 inhibitors could be useful as immunosuppressants. XVA143 blocked T-cell activation (0.05 μM) and proliferation (0.02 μM) with higher potency than CsA (0.8 μM; 0.15 μM respectively) and was nearly equipotent to everolimus (0.01 μM) in the whole blood proliferation assay. In contrast, αL L-site inhibitors were nearly as potent as CsA in the CD69 Tcell activation assay, but significantly less active in whole blood proliferation assays (1-2 μM). As expected, CsA or everolimus did not interfere with LFA-1 expression or the binding of the monitoring mAbs R7.1 or MEM48. During the development of the EA-REMA we found that supplemental MgCl2 strongly synergized with anti CD3 triggered T-cell activation in whole blood. This finding may suggest a new role for magnesium cations in the regulation of integrin dependent Tcell responses in vivo. We hypothesize that locally elevated (mM) concentrations of Mg2+ may regulate integrin adhesiveness and thereby strengthen cell to cell contacts leading to enhanced integrin dependent T-lymphocyte responses. Further investigations are ongoing, to elucidate the effect of magnesium on the activation and function of immune cells. In conclusion, we demonstrated that various LFA-1 inhibitors could occupy their target on leukocytes in whole blood and that LFA-1 occupancy by these inhibitors translated into potent suppression of in vitro stimulated blood T-lymphocytes. Our data are strongly suggesting that LFA-1 inhibitors, in particular inhibitors with the potency of XVA143, could be applicable as therapeutic immunosuppressants. In addition, our array of novel methods allowed us to generate an “in vitro pharmacodynamic “ profile of LMW LFA-1 inhibitors with different modes of action in whole blood. These protocols may be applicable as pharmacodynamic assays for LFA-1 inhibitors in clinical studies and may assist therapeutic dose finding

    The Soviet Union and the Creation of the International Human Rights System

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    The following comments draw from the authors Eric D. Weitz´s upcoming book : A World Divided: The Global Struggle for Human Rights in the Age of the Nation-State (Princeton: Princeton University Press, forthcoming 2019)

    Omer Bartov, Eric D. Weitz, Shatterzone of Empires

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    The title Shatterzone of Empires announces from the start the approach Omer Bartov and Eric D. Weitz chose. The “shatterzone” of the four empires, which broke up after the First World War into modern nation states, is a notion of space. Spread over a number of scales – empires or States, regions (Galicia, Upper Silesia, Carpathian Ruthenia), towns (Vilnius, Krakow), small towns (Buczacs), the space of the borderlands should be understood according to the various meanings of the term: borderla..

    Omer Bartov, Eric D. Weitz, Shatterzone of Empires

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    Le titre Shatterzone of Empires annonce d’emblée l’approche choisie par Omer Bartov et Eric D. Weitz : la « zone de brisure » des quatre empires, dont les éclats formeront à l’issue de la Première Guerre mondiale les États-nations modernes, est une notion spatiale. Déployé sur plusieurs échelles – empires ou États, régions (Galicie, Haute-Silésie, Ruthénie carpatique), villes (Vilnius, Cracovie), bourgades (Buczacz), l’espace des borderlands devra être compris selon les différentes acceptions..

    Weitz Eric D., Creating German Communism (1890-1990). From Populist Protests to Socialist State

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    Sick Klaus-Peter. Weitz Eric D., Creating German Communism (1890-1990). From Populist Protests to Socialist State. In: Vingtième Siècle, revue d'histoire, n°57, janvier-mars 1998. pp. 179-181

    Reply to the 'Comment on "Robust scalable high throughput production of monodisperse drops"' by M. Nakajima, Lab Chip, 2017, 17, DOI: 10.1039/C7LC00181A

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    This reply to the comment by Nakajima on our article that appeared in Lab on a Chip (E. Amstad, M. Chemama, M. Eggersdorfer, L. R. Arriaga, M. Brenner and D. A. Weitz, Lab Chip, 2016, 16, 4163-4172) highlights the differences between the microchannel step emulsification devices developed by the Nakajima group and the millipede device reported by us in Lab on a Chip.SMA

    Omer Bartov et Eric D. Weitz : Shatterzone of Empires [séminaire ENS de Lyon]

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    [ndlr] Annonce de séminaire. Séminaire "L'ordinaire de la guerre. Guerres et violences extrêmes sous le regard des sciences sociales” ENS de Lyon André Loez et Sylvain Bertschy présentation de l'ouvrage dirigé par Omer Bartov et Eric D. Weitz Shatterzone of Empires Coexistence and Violence in the German, Habsburg, Russian, and Ottoman Borderlands (Presses de l'université d'Indiana, 2013) Mardi 13 mai 2014 de 14h à 17h, en salle F001. Shatterzone of Empires is a comprehensive analysis of in..
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