TY - JOUR AB - The self-assembly of complex structures from a set of non-identical building blocks is a hallmark of soft matter and biological systems, including protein complexes, colloidal clusters, and DNA-based assemblies. Predicting the dependence of the equilibrium assembly yield on the concentrations and interaction energies of building blocks is highly challenging, owing to the difficulty of computing the entropic contributions to the free energy of the many structures that compete with the ground state configuration. While these calculations yield well known results for spherically symmetric building blocks, they do not hold when the building blocks have internal rotational degrees of freedom. Here we present an approach for solving this problem that works with arbitrary building blocks, including proteins with known structure and complex colloidal building blocks. Our algorithm combines classical statistical mechanics with recently developed computational tools for automatic differentiation. Automatic differentiation allows efficient evaluation of equilibrium averages over configurations that would otherwise be intractable. We demonstrate the validity of our framework by comparison to molecular dynamics simulations of simple examples, and apply it to calculate the yield curves for known protein complexes and for the assembly of colloidal shells. AU - Curatolo, Agnese I. AU - Kimchi, Ofer AU - Goodrich, Carl Peter AU - Krueger, Ryan K. AU - Brenner, Michael P. ID - 14710 JF - Nature Communications TI - A computational toolbox for the assembly yield of complex and heterogeneous structures VL - 14 ER - TY - JOUR AB - Presynaptic glutamate replenishment is fundamental to brain function. In high activity regimes, such as epileptic episodes, this process is thought to rely on the glutamate-glutamine cycle between neurons and astrocytes. However the presence of an astroglial glutamine supply, as well as its functional relevance in vivo in the healthy brain remain controversial, partly due to a lack of tools that can directly examine glutamine transfer. Here, we generated a fluorescent probe that tracks glutamine in live cells, which provides direct visual evidence of an activity-dependent glutamine supply from astroglial networks to presynaptic structures under physiological conditions. This mobilization is mediated by connexin43, an astroglial protein with both gap-junction and hemichannel functions, and is essential for synaptic transmission and object recognition memory. Our findings uncover an indispensable recruitment of astroglial glutamine in physiological synaptic activity and memory via an unconventional pathway, thus providing an astrocyte basis for cognitive processes. AU - Cheung, Giselle T AU - Bataveljic, Danijela AU - Visser, Josien AU - Kumar, Naresh AU - Moulard, Julien AU - Dallérac, Glenn AU - Mozheiko, Daria AU - Rollenhagen, Astrid AU - Ezan, Pascal AU - Mongin, Cédric AU - Chever, Oana AU - Bemelmans, Alexis Pierre AU - Lübke, Joachim AU - Leray, Isabelle AU - Rouach, Nathalie ID - 10764 JF - Nature Communications TI - Physiological synaptic activity and recognition memory require astroglial glutamine VL - 13 ER - TY - JOUR AB - AMPA-type glutamate receptors (AMPARs) mediate rapid signal transmission at excitatory synapses in the brain. Glutamate binding to the receptor’s ligand-binding domains (LBDs) leads to ion channel activation and desensitization. Gating kinetics shape synaptic transmission and are strongly modulated by transmembrane AMPAR regulatory proteins (TARPs) through currently incompletely resolved mechanisms. Here, electron cryo-microscopy structures of the GluA1/2 TARP-γ8 complex, in both open and desensitized states (at 3.5 Å), reveal state-selective engagement of the LBDs by the large TARP-γ8 loop (‘β1’), elucidating how this TARP stabilizes specific gating states. We further show how TARPs alter channel rectification, by interacting with the pore helix of the selectivity filter. Lastly, we reveal that the Q/R-editing site couples the channel constriction at the filter entrance to the gate, and forms the major cation binding site in the conduction path. Our results provide a mechanistic framework of how TARPs modulate AMPAR gating and conductance. AU - Herguedas, Beatriz AU - Kohegyi, Bianka K. AU - Dohrke, Jan Niklas AU - Watson, Jake AU - Zhang, Danyang AU - Ho, Hinze AU - Shaikh, Saher A. AU - Lape, Remigijus AU - Krieger, James M. AU - Greger, Ingo H. ID - 10763 JF - Nature Communications TI - Mechanisms underlying TARP modulation of the GluA1/2-γ8 AMPA receptor VL - 13 ER - TY - JOUR AB - Solid-state microwave systems offer strong interactions for fast quantum logic and sensing but photons at telecom wavelength are the ideal choice for high-density low-loss quantum interconnects. A general-purpose interface that can make use of single photon effects requires < 1 input noise quanta, which has remained elusive due to either low efficiency or pump induced heating. Here we demonstrate coherent electro-optic modulation on nanosecond-timescales with only 0.16+0.02−0.01 microwave input noise photons with a total bidirectional transduction efficiency of 8.7% (or up to 15% with 0.41+0.02−0.02), as required for near-term heralded quantum network protocols. The use of short and high-power optical pump pulses also enables near-unity cooperativity of the electro-optic interaction leading to an internal pure conversion efficiency of up to 99.5%. Together with the low mode occupancy this provides evidence for electro-optic laser cooling and vacuum amplification as predicted a decade ago. AU - Sahu, Rishabh AU - Hease, William J AU - Rueda Sanchez, Alfredo R AU - Arnold, Georg M AU - Qiu, Liu AU - Fink, Johannes M ID - 10924 JF - Nature Communications TI - Quantum-enabled operation of a microwave-optical interface VL - 13 ER - TY - JOUR AB - While recent advancements in computation and modelling have improved the analysis of complex traits, our understanding of the genetic basis of the time at symptom onset remains limited. Here, we develop a Bayesian approach (BayesW) that provides probabilistic inference of the genetic architecture of age-at-onset phenotypes in a sampling scheme that facilitates biobank-scale time-to-event analyses. We show in extensive simulation work the benefits BayesW provides in terms of number of discoveries, model performance and genomic prediction. In the UK Biobank, we find many thousands of common genomic regions underlying the age-at-onset of high blood pressure (HBP), cardiac disease (CAD), and type-2 diabetes (T2D), and for the genetic basis of onset reflecting the underlying genetic liability to disease. Age-at-menopause and age-at-menarche are also highly polygenic, but with higher variance contributed by low frequency variants. Genomic prediction into the Estonian Biobank data shows that BayesW gives higher prediction accuracy than other approaches. AU - Ojavee, Sven E AU - Kousathanas, Athanasios AU - Trejo Banos, Daniel AU - Orliac, Etienne J AU - Patxot, Marion AU - Lall, Kristi AU - Magi, Reedik AU - Fischer, Krista AU - Kutalik, Zoltan AU - Robinson, Matthew Richard ID - 8430 IS - 1 JF - Nature Communications TI - Genomic architecture and prediction of censored time-to-event phenotypes with a Bayesian genome-wide analysis VL - 12 ER - TY - JOUR AB - Auxin is a key regulator of plant growth and development. Local auxin biosynthesis and intercellular transport generates regional gradients in the root that are instructive for processes such as specification of developmental zones that maintain root growth and tropic responses. Here we present a toolbox to study auxin-mediated root development that features: (i) the ability to control auxin synthesis with high spatio-temporal resolution and (ii) single-cell nucleus tracking and morphokinetic analysis infrastructure. Integration of these two features enables cutting-edge analysis of root development at single-cell resolution based on morphokinetic parameters under normal growth conditions and during cell-type-specific induction of auxin biosynthesis. We show directional auxin flow in the root and refine the contributions of key players in this process. In addition, we determine the quantitative kinetics of Arabidopsis root meristem skewing, which depends on local auxin gradients but does not require PIN2 and AUX1 auxin transporter activities. Beyond the mechanistic insights into root development, the tools developed here will enable biologists to study kinetics and morphology of various critical processes at the single cell-level in whole organisms. AU - Hu, Yangjie AU - Omary, Moutasem AU - Hu, Yun AU - Doron, Ohad AU - Hörmayer, Lukas AU - Chen, Qingguo AU - Megides, Or AU - Chekli, Ori AU - Ding, Zhaojun AU - Friml, Jiří AU - Zhao, Yunde AU - Tsarfaty, Ilan AU - Shani, Eilon ID - 9254 JF - Nature Communications TI - Cell kinetics of auxin transport and activity in Arabidopsis root growth and skewing VL - 12 ER - TY - JOUR AB - High impact epidemics constitute one of the largest threats humanity is facing in the 21st century. In the absence of pharmaceutical interventions, physical distancing together with testing, contact tracing and quarantining are crucial in slowing down epidemic dynamics. Yet, here we show that if testing capacities are limited, containment may fail dramatically because such combined countermeasures drastically change the rules of the epidemic transition: Instead of continuous, the response to countermeasures becomes discontinuous. Rather than following the conventional exponential growth, the outbreak that is initially strongly suppressed eventually accelerates and scales faster than exponential during an explosive growth period. As a consequence, containment measures either suffice to stop the outbreak at low total case numbers or fail catastrophically if marginally too weak, thus implying large uncertainties in reliably estimating overall epidemic dynamics, both during initial phases and during second wave scenarios. AU - Scarselli, Davide AU - Budanur, Nazmi B AU - Timme, Marc AU - Hof, Björn ID - 9407 IS - 1 JF - Nature Communications TI - Discontinuous epidemic transition due to limited testing VL - 12 ER - TY - JOUR AB - In mammalian genomes, differentially methylated regions (DMRs) and histone marks including trimethylation of histone 3 lysine 27 (H3K27me3) at imprinted genes are asymmetrically inherited to control parentally-biased gene expression. However, neither parent-of-origin-specific transcription nor imprints have been comprehensively mapped at the blastocyst stage of preimplantation development. Here, we address this by integrating transcriptomic and epigenomic approaches in mouse preimplantation embryos. We find that seventy-one genes exhibit previously unreported parent-of-origin-specific expression in blastocysts (nBiX: novel blastocyst-imprinted expressed). Uniparental expression of nBiX genes disappears soon after implantation. Micro-whole-genome bisulfite sequencing (µWGBS) of individual uniparental blastocysts detects 859 DMRs. We further find that 16% of nBiX genes are associated with a DMR, whereas most are associated with parentally-biased H3K27me3, suggesting a role for Polycomb-mediated imprinting in blastocysts. nBiX genes are clustered: five clusters contained at least one published imprinted gene, and five clusters exclusively contained nBiX genes. These data suggest that early development undergoes a complex program of stage-specific imprinting involving different tiers of regulation. AU - Santini, Laura AU - Halbritter, Florian AU - Titz-Teixeira, Fabian AU - Suzuki, Toru AU - Asami, Maki AU - Ma, Xiaoyan AU - Ramesmayer, Julia AU - Lackner, Andreas AU - Warr, Nick AU - Pauler, Florian AU - Hippenmeyer, Simon AU - Laue, Ernest AU - Farlik, Matthias AU - Bock, Christoph AU - Beyer, Andreas AU - Perry, Anthony C.F. AU - Leeb, Martin ID - 9601 IS - 1 JF - Nature Communications TI - Genomic imprinting in mouse blastocysts is predominantly associated with H3K27me3 VL - 12 ER - TY - JOUR AB - Selection and random drift determine the probability that novel mutations fixate in a population. Population structure is known to affect the dynamics of the evolutionary process. Amplifiers of selection are population structures that increase the fixation probability of beneficial mutants compared to well-mixed populations. Over the past 15 years, extensive research has produced remarkable structures called strong amplifiers which guarantee that every beneficial mutation fixates with high probability. But strong amplification has come at the cost of considerably delaying the fixation event, which can slow down the overall rate of evolution. However, the precise relationship between fixation probability and time has remained elusive. Here we characterize the slowdown effect of strong amplification. First, we prove that all strong amplifiers must delay the fixation event at least to some extent. Second, we construct strong amplifiers that delay the fixation event only marginally as compared to the well-mixed populations. Our results thus establish a tight relationship between fixation probability and time: Strong amplification always comes at a cost of a slowdown, but more than a marginal slowdown is not needed. AU - Tkadlec, Josef AU - Pavlogiannis, Andreas AU - Chatterjee, Krishnendu AU - Nowak, Martin A. ID - 9640 IS - 1 JF - Nature Communications TI - Fast and strong amplifiers of natural selection VL - 12 ER - TY - JOUR AB - Zygotic genome activation (ZGA) initiates regionalized transcription underlying distinct cellular identities. ZGA is dependent upon dynamic chromatin architecture sculpted by conserved DNA-binding proteins. However, the direct mechanistic link between the onset of ZGA and the tissue-specific transcription remains unclear. Here, we have addressed the involvement of chromatin organizer Satb2 in orchestrating both processes during zebrafish embryogenesis. Integrative analysis of transcriptome, genome-wide occupancy and chromatin accessibility reveals contrasting molecular activities of maternally deposited and zygotically synthesized Satb2. Maternal Satb2 prevents premature transcription of zygotic genes by influencing the interplay between the pluripotency factors. By contrast, zygotic Satb2 activates transcription of the same group of genes during neural crest development and organogenesis. Thus, our comparative analysis of maternal versus zygotic function of Satb2 underscores how these antithetical activities are temporally coordinated and functionally implemented highlighting the evolutionary implications of the biphasic and bimodal regulation of landmark developmental transitions by a single determinant. AU - Pradhan, Saurabh J. AU - Reddy, Puli Chandramouli AU - Smutny, Michael AU - Sharma, Ankita AU - Sako, Keisuke AU - Oak, Meghana S. AU - Shah, Rini AU - Pal, Mrinmoy AU - Deshpande, Ojas AU - Dsilva, Greg AU - Tang, Yin AU - Mishra, Rakesh AU - Deshpande, Girish AU - Giraldez, Antonio J. AU - Sonawane, Mahendra AU - Heisenberg, Carl-Philipp J AU - Galande, Sanjeev ID - 10202 IS - 1 JF - Nature Communications TI - Satb2 acts as a gatekeeper for major developmental transitions during early vertebrate embryogenesis VL - 12 ER - TY - JOUR AB - Cryo electron tomography with subsequent subtomogram averaging is a powerful technique to structurally analyze macromolecular complexes in their native context. Although close to atomic resolution in principle can be obtained, it is not clear how individual experimental parameters contribute to the attainable resolution. Here, we have used immature HIV-1 lattice as a benchmarking sample to optimize the attainable resolution for subtomogram averaging. We systematically tested various experimental parameters such as the order of projections, different angular increments and the use of the Volta phase plate. We find that although any of the prominently used acquisition schemes is sufficient to obtain subnanometer resolution, dose-symmetric acquisition provides considerably better outcome. We discuss our findings in order to provide guidance for data acquisition. Our data is publicly available and might be used to further develop processing routines. AU - Turoňová, Beata AU - Hagen, Wim J.H. AU - Obr, Martin AU - Mosalaganti, Shyamal AU - Beugelink, J. Wouter AU - Zimmerli, Christian E. AU - Kräusslich, Hans Georg AU - Beck, Martin ID - 7511 JF - Nature Communications TI - Benchmarking tomographic acquisition schemes for high-resolution structural biology VL - 11 ER - TY - JOUR AB - Plants as non-mobile organisms constantly integrate varying environmental signals to flexibly adapt their growth and development. Local fluctuations in water and nutrient availability, sudden changes in temperature or other abiotic and biotic stresses can trigger changes in the growth of plant organs. Multiple mutually interconnected hormonal signaling cascades act as essential endogenous translators of these exogenous signals in the adaptive responses of plants. Although the molecular backbones of hormone transduction pathways have been identified, the mechanisms underlying their interactions are largely unknown. Here, using genome wide transcriptome profiling we identify an auxin and cytokinin cross-talk component; SYNERGISTIC ON AUXIN AND CYTOKININ 1 (SYAC1), whose expression in roots is strictly dependent on both of these hormonal pathways. We show that SYAC1 is a regulator of secretory pathway, whose enhanced activity interferes with deposition of cell wall components and can fine-tune organ growth and sensitivity to soil pathogens. AU - Hurny, Andrej AU - Cuesta, Candela AU - Cavallari, Nicola AU - Ötvös, Krisztina AU - Duclercq, Jerome AU - Dokládal, Ladislav AU - Montesinos López, Juan C AU - Gallemi, Marçal AU - Semeradova, Hana AU - Rauter, Thomas AU - Stenzel, Irene AU - Persiau, Geert AU - Benade, Freia AU - Bhalearo, Rishikesh AU - Sýkorová, Eva AU - Gorzsás, András AU - Sechet, Julien AU - Mouille, Gregory AU - Heilmann, Ingo AU - De Jaeger, Geert AU - Ludwig-Müller, Jutta AU - Benková, Eva ID - 7805 JF - Nature Communications TI - Synergistic on Auxin and Cytokinin 1 positively regulates growth and attenuates soil pathogen resistance VL - 11 ER - TY - JOUR AB - Besides pro-inflammatory roles, the ancient cytokine interleukin-17 (IL-17) modulates neural circuit function. We investigate IL-17 signaling in neurons, and the extent it can alter organismal phenotypes. We combine immunoprecipitation and mass spectrometry to biochemically characterize endogenous signaling complexes that function downstream of IL-17 receptors in C. elegans neurons. We identify the paracaspase MALT-1 as a critical output of the pathway. MALT1 mediates signaling from many immune receptors in mammals, but was not previously implicated in IL-17 signaling or nervous system function. C. elegans MALT-1 forms a complex with homologs of Act1 and IRAK and appears to function both as a scaffold and a protease. MALT-1 is expressed broadly in the C. elegans nervous system, and neuronal IL-17–MALT-1 signaling regulates multiple phenotypes, including escape behavior, associative learning, immunity and longevity. Our data suggest MALT1 has an ancient role modulating neural circuit function downstream of IL-17 to remodel physiology and behavior. AU - Flynn, Sean M. AU - Chen, Changchun AU - Artan, Murat AU - Barratt, Stephen AU - Crisp, Alastair AU - Nelson, Geoffrey M. AU - Peak-Chew, Sew Yeu AU - Begum, Farida AU - Skehel, Mark AU - De Bono, Mario ID - 7804 JF - Nature Communications TI - MALT-1 mediates IL-17 neural signaling to regulate C. elegans behavior, immunity and longevity VL - 11 ER - TY - JOUR AB - Genetic perturbations that affect bacterial resistance to antibiotics have been characterized genome-wide, but how do such perturbations interact with subsequent evolutionary adaptation to the drug? Here, we show that strong epistasis between resistance mutations and systematically identified genes can be exploited to control spontaneous resistance evolution. We evolved hundreds of Escherichia coli K-12 mutant populations in parallel, using a robotic platform that tightly controls population size and selection pressure. We find a global diminishing-returns epistasis pattern: strains that are initially more sensitive generally undergo larger resistance gains. However, some gene deletion strains deviate from this general trend and curtail the evolvability of resistance, including deletions of genes for membrane transport, LPS biosynthesis, and chaperones. Deletions of efflux pump genes force evolution on inferior mutational paths, not explored in the wild type, and some of these essentially block resistance evolution. This effect is due to strong negative epistasis with resistance mutations. The identified genes and cellular functions provide potential targets for development of adjuvants that may block spontaneous resistance evolution when combined with antibiotics. AU - Lukacisinova, Marta AU - Fernando, Booshini AU - Bollenbach, Mark Tobias ID - 8037 JF - Nature Communications TI - Highly parallel lab evolution reveals that epistasis can curb the evolution of antibiotic resistance VL - 11 ER - TY - JOUR AB - Complex I is the first and the largest enzyme of respiratory chains in bacteria and mitochondria. The mechanism which couples spatially separated transfer of electrons to proton translocation in complex I is not known. Here we report five crystal structures of T. thermophilus enzyme in complex with NADH or quinone-like compounds. We also determined cryo-EM structures of major and minor native states of the complex, differing in the position of the peripheral arm. Crystal structures show that binding of quinone-like compounds (but not of NADH) leads to a related global conformational change, accompanied by local re-arrangements propagating from the quinone site to the nearest proton channel. Normal mode and molecular dynamics analyses indicate that these are likely to represent the first steps in the proton translocation mechanism. Our results suggest that quinone binding and chemistry play a key role in the coupling mechanism of complex I. AU - Gutierrez-Fernandez, Javier AU - Kaszuba, Karol AU - Minhas, Gurdeep S. AU - Baradaran, Rozbeh AU - Tambalo, Margherita AU - Gallagher, David T. AU - Sazanov, Leonid A ID - 8318 IS - 1 JF - Nature Communications TI - Key role of quinone in the mechanism of respiratory complex I VL - 11 ER - TY - JOUR AB - Plant hormone cytokinins are perceived by a subfamily of sensor histidine kinases (HKs), which via a two-component phosphorelay cascade activate transcriptional responses in the nucleus. Subcellular localization of the receptors proposed the endoplasmic reticulum (ER) membrane as a principal cytokinin perception site, while study of cytokinin transport pointed to the plasma membrane (PM)-mediated cytokinin signalling. Here, by detailed monitoring of subcellular localizations of the fluorescently labelled natural cytokinin probe and the receptor ARABIDOPSIS HISTIDINE KINASE 4 (CRE1/AHK4) fused to GFP reporter, we show that pools of the ER-located cytokinin receptors can enter the secretory pathway and reach the PM in cells of the root apical meristem, and the cell plate of dividing meristematic cells. Brefeldin A (BFA) experiments revealed vesicular recycling of the receptor and its accumulation in BFA compartments. We provide a revised view on cytokinin signalling and the possibility of multiple sites of perception at PM and ER. AU - Kubiasova, Karolina AU - Montesinos López, Juan C AU - Šamajová, Olga AU - Nisler, Jaroslav AU - Mik, Václav AU - Semeradova, Hana AU - Plíhalová, Lucie AU - Novák, Ondřej AU - Marhavý, Peter AU - Cavallari, Nicola AU - Zalabák, David AU - Berka, Karel AU - Doležal, Karel AU - Galuszka, Petr AU - Šamaj, Jozef AU - Strnad, Miroslav AU - Benková, Eva AU - Plíhal, Ondřej AU - Spíchal, Lukáš ID - 8336 JF - Nature Communications TI - Cytokinin fluoroprobe reveals multiple sites of cytokinin perception at plasma membrane and endoplasmic reticulum VL - 11 ER - TY - JOUR AB - Cytokinins are mobile multifunctional plant hormones with roles in development and stress resilience. Although their Histidine Kinase receptors are substantially localised to the endoplasmic reticulum, cellular sites of cytokinin perception and importance of spatially heterogeneous cytokinin distribution continue to be debated. Here we show that cytokinin perception by plasma membrane receptors is an effective additional path for cytokinin response. Readout from a Two Component Signalling cytokinin-specific reporter (TCSn::GFP) closely matches intracellular cytokinin content in roots, yet we also find cytokinins in extracellular fluid, potentially enabling action at the cell surface. Cytokinins covalently linked to beads that could not pass the plasma membrane increased expression of both TCSn::GFP and Cytokinin Response Factors. Super-resolution microscopy of GFP-labelled receptors and diminished TCSn::GFP response to immobilised cytokinins in cytokinin receptor mutants, further indicate that receptors can function at the cell surface. We argue that dual intracellular and surface locations may augment flexibility of cytokinin responses. AU - Antoniadi, Ioanna AU - Novák, Ondřej AU - Gelová, Zuzana AU - Johnson, Alexander J AU - Plíhal, Ondřej AU - Simerský, Radim AU - Mik, Václav AU - Vain, Thomas AU - Mateo-Bonmatí, Eduardo AU - Karady, Michal AU - Pernisová, Markéta AU - Plačková, Lenka AU - Opassathian, Korawit AU - Hejátko, Jan AU - Robert, Stéphanie AU - Friml, Jiří AU - Doležal, Karel AU - Ljung, Karin AU - Turnbull, Colin ID - 8337 JF - Nature Communications TI - Cell-surface receptors enable perception of extracellular cytokinins VL - 11 ER - TY - JOUR AB - Pancreatic islets play an essential role in regulating blood glucose level. Although the molecular pathways underlying islet cell differentiation are beginning to be resolved, the cellular basis of islet morphogenesis and fate allocation remain unclear. By combining unbiased and targeted lineage tracing, we address the events leading to islet formation in the mouse. From the statistical analysis of clones induced at multiple embryonic timepoints, here we show that, during the secondary transition, islet formation involves the aggregation of multiple equipotent endocrine progenitors that transition from a phase of stochastic amplification by cell division into a phase of sublineage restriction and limited islet fission. Together, these results explain quantitatively the heterogeneous size distribution and degree of polyclonality of maturing islets, as well as dispersion of progenitors within and between islets. Further, our results show that, during the secondary transition, α- and β-cells are generated in a contemporary manner. Together, these findings provide insight into the cellular basis of islet development. AU - Sznurkowska, Magdalena K. AU - Hannezo, Edouard B AU - Azzarelli, Roberta AU - Chatzeli, Lemonia AU - Ikeda, Tatsuro AU - Yoshida, Shosei AU - Philpott, Anna AU - Simons, Benjamin D ID - 8669 JF - Nature Communications TI - Tracing the cellular basis of islet specification in mouse pancreas VL - 11 ER - TY - JOUR AB - Breakdown of vascular barriers is a major complication of inflammatory diseases. Anucleate platelets form blood-clots during thrombosis, but also play a crucial role in inflammation. While spatio-temporal dynamics of clot formation are well characterized, the cell-biological mechanisms of platelet recruitment to inflammatory micro-environments remain incompletely understood. Here we identify Arp2/3-dependent lamellipodia formation as a prominent morphological feature of immune-responsive platelets. Platelets use lamellipodia to scan for fibrin(ogen) deposited on the inflamed vasculature and to directionally spread, to polarize and to govern haptotactic migration along gradients of the adhesive ligand. Platelet-specific abrogation of Arp2/3 interferes with haptotactic repositioning of platelets to microlesions, thus impairing vascular sealing and provoking inflammatory microbleeding. During infection, haptotaxis promotes capture of bacteria and prevents hematogenic dissemination, rendering platelets gate-keepers of the inflamed microvasculature. Consequently, these findings identify haptotaxis as a key effector function of immune-responsive platelets. AU - Nicolai, Leo AU - Schiefelbein, Karin AU - Lipsky, Silvia AU - Leunig, Alexander AU - Hoffknecht, Marie AU - Pekayvaz, Kami AU - Raude, Ben AU - Marx, Charlotte AU - Ehrlich, Andreas AU - Pircher, Joachim AU - Zhang, Zhe AU - Saleh, Inas AU - Marel, Anna-Kristina AU - Löf, Achim AU - Petzold, Tobias AU - Lorenz, Michael AU - Stark, Konstantin AU - Pick, Robert AU - Rosenberger, Gerhild AU - Weckbach, Ludwig AU - Uhl, Bernd AU - Xia, Sheng AU - Reichel, Christoph Andreas AU - Walzog, Barbara AU - Schulz, Christian AU - Zheden, Vanessa AU - Bender, Markus AU - Li, Rong AU - Massberg, Steffen AU - Gärtner, Florian R ID - 8787 JF - Nature Communications TI - Vascular surveillance by haptotactic blood platelets in inflammation and infection VL - 11 ER - TY - JOUR AB - Polycomb group (PcG) proteins play critical roles in the epigenetic inheritance of cell fate. The Polycomb Repressive Complexes PRC1 and PRC2 catalyse distinct chromatin modifications to enforce gene silencing, but how transcriptional repression is propagated through mitotic cell divisions remains a key unresolved question. Using reversible tethering of PcG proteins to ectopic sites in mouse embryonic stem cells, here we show that PRC1 can trigger transcriptional repression and Polycomb-dependent chromatin modifications. We find that canonical PRC1 (cPRC1), but not variant PRC1, maintains gene silencing through cell division upon reversal of tethering. Propagation of gene repression is sustained by cis-acting histone modifications, PRC2-mediated H3K27me3 and cPRC1-mediated H2AK119ub1, promoting a sequence-independent feedback mechanism for PcG protein recruitment. Thus, the distinct PRC1 complexes present in vertebrates can differentially regulate epigenetic maintenance of gene silencing, potentially enabling dynamic heritable responses to complex stimuli. Our findings reveal how PcG repression is potentially inherited in vertebrates. AU - Moussa, Hagar F. AU - Bsteh, Daniel AU - Yelagandula, Ramesh AU - Pribitzer, Carina AU - Stecher, Karin AU - Bartalska, Katarina AU - Michetti, Luca AU - Wang, Jingkui AU - Zepeda-Martinez, Jorge A. AU - Elling, Ulrich AU - Stuckey, Jacob I. AU - James, Lindsey I. AU - Frye, Stephen V. AU - Bell, Oliver ID - 6412 IS - 1 JF - Nature Communications TI - Canonical PRC1 controls sequence-independent propagation of Polycomb-mediated gene silencing VL - 10 ER -