Xavier Gaume scite author profile

Unlike pluripotent cells, which generate only embryonic tissues, totipotent cells can generate a full organism, including extraembryonic annexes. A rare population of cells resembling 2-cell stage embryos arises in pluripotent embryonic stem (ES) cell cultures. These 2-cell-like-cells display molecular features of totipotency and broader developmental plasticity. However, their specific nature and the process through which they arise remain outstanding questions. Here, we identify intermediate cellular states and molecular determinants during the emergence of 2-cell-like-cells. By deploying a quantitative single cell expression approach, we identified an intermediate population characterised by the expression of the transcription factor ZSCAN4 as precursor of 2-cell-like-cells. Using an siRNA screening, we uncovered novel epigenetic regulators of 2-cell-like-cell emergence, including the non-canonical PRC1 complex PRC1.6 and Ep400/Tip60. Our data shed light on the mechanisms underlying the exit from the ES cell state towards the formation of early-embryonic-like cells in culture and identify key epigenetic pathways that promote this transition.

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The roles of nucleolin subcellular localization in cancer

Berger

2015

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SUMO Safeguards Somatic and Pluripotent Cell Identities by Enforcing Distinct Chromatin States

et al. 2018

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Transposable elements drive reorganisation of 3D chromatin during early embryogenesis

Kruse

Díaz

Enriquez-Gasca

et al. 2019

Preprint

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Transposable elements are abundant genetic components of eukaryotic genomes with important regulatory features affecting transcription, splicing, and recombination, among others. Here we demonstrate that the Murine Endogenous Retroviral Element (MuERV-L/MERVL) family of transposable elements drives the 3D reorganisation of the genome in the early mouse embryo. By generating Hi-C data in 2-cell-like cells, we show that MERLV elements promote the formation of insulating domain boundaries throughout the genome in vivo and in vitro. The formation of these boundaries is coupled to the upregulation of directional transcription from MERVL, which results in the activation of a subset of the gene expression programme of the 2-cell stage embryo. Domain boundaries in the 2-cell stage embryo are transient and can be remodelled without undergoing cell division. Remarkably, we find extensive inter-strain MERVL variation, suggesting multiple non-overlapping rounds of recent genome invasion and a high regulatory plasticity of genome organisation. Our results demonstrate that MERVL drive chromatin organisation during early embryonic development shedding light into how nuclear organisation emerges during zygotic genome activation in mammals.

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A distinct metabolic state arises during the emergence of 2‐cell‐like cells

et al. 2019

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Pluripotent stem cells are thought of as a surrogate of early developmental stages that sustain the capacity to generate all cell types in the body, thereby constituting an invaluable tool to address the mechanisms underlying cellular plasticity. In the mouse, cells resembling totipotent 2-cell-stage embryos (2-cell-like cells) arise at a very low frequency in embryonic stem cell (ESC) cultures. However, the extent to which these early-embryonic-like cells recapitulate the molecular features of the early embryo is unclear. Here, we have undertaken a characterization of some of the metabolic features of early-embryonic-like cells in culture. Our data indicate that early-embryonic-like cells exhibit decreased glycolytic and respiratory activity, lower levels of reactive oxygen species and increased glucose uptake, suggesting a shift of the metabolic programme during 2-cell-like cell reprogramming. Accordingly, we find that 2-cell-like cells can be induced by defined metabolites. Thus, in addition to their transcriptional and chromatin features, 2-cell-like cells recapitulate some of the metabolic features of their in vivo counterpart. Altogether, our work underscores a distinct metabolic state of early-embryonic-like cells and identifies compounds that can induce their emergence in vitro.

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Nucleolin Interacts with US11 Protein of Herpes Simplex Virus 1 and Is Involved in Its Trafficking

Greco

Arata

Soler

et al. 2012

J Virol

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Herpes simplex virus type 1 (HSV-1) infection induces profound nucleolar modifications at the functional and organizational levels, including nucleolar invasion by several viral proteins. One of these proteins is US11, which exhibits several different functions and displays both cytoplasmic localization and clear nucleolar localization very similar to that of the major multifunctional nucleolar protein nucleolin. To determine whether US11 interacts with nucleolin, we purified US11 protein partners by coimmunoprecipitations using a tagged protein, Flag-US11. From extracts of cells expressing Flag-US11 protein, we copurified a protein of about 100 kDa that was further identified as nucleolin. In vitro studies have demonstrated that nucleolin interacts with US11 and that the C-terminal domain of US11, which is required for US11 nucleolar accumulation, is sufficient for interaction with nucleolin. This association was confirmed in HSV-1-infected cells. We found an increase in the nucleolar accumulation of US11 in nucleolin-depleted cells, thereby revealing that nucleolin could play a role in US11 nucleocytoplasmic trafficking through one-way directional transport out of the nucleolus. Since nucleolin is required for HSV-1 nuclear egress, the interaction of US11 with nucleolin may participate in the outcome of infection.

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Netrin-1 promotes naive pluripotency through Neo1 and Unc5b co-regulation of Wnt and MAPK signalling

et al. 2020

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In mouse embryonic stem cells (mESCs), chemical blockade of Gsk3α/β and Mek1/2 (2i) instructs a self-renewing ground state whose endogenous inducers are unknown. Here we show that the axon guidance cue Netrin-1 promotes naive pluripotency by triggering profound signalling, transcriptomic and epigenetic changes in mESCs. Furthermore, we demonstrate that Netrin-1 can substitute for blockade of Gsk3α/β and Mek1/2 to sustain self-renewal of mESCs in combination with leukaemia inhibitory factor and regulates the formation of the mouse pluripotent blastocyst. Mechanistically, we reveal how Netrin-1 and the balance of its receptors Neo1 and Unc5B co-regulate Wnt and MAPK pathways in both mouse and human ESCs. Netrin-1 induces Fak kinase to inactivate Gsk3α/β and stabilize β-catenin while increasing the phosphatase activity of a Ppp2r2c-containing Pp2a complex to reduce Erk1/2 activity. Collectively, this work identifies Netrin-1 as a regulator of pluripotency and reveals that it mediates different effects in mESCs depending on its receptor dosage, opening perspectives for balancing self-renewal and lineage commitment.Animal studies. Teratoma assays were performed with 7-week-old severe combined immunodeficient (SCID) male mice (CB17/SCID, Charles River). Ntn1 βgeo reporter and Netrin-1 conditional-KO mESCs were derived from C57/bl6 mixed-background pregnant females at 8-15 weeks of age. Blastocyst injections were done using BALB/cANRj embryos. Embryos were flushed with M2 medium (Sigma) and grown overnight in KSOM (Sigma) or sequential blast (Origio) medium. Genotyping of Ntn1 fl/fl embryos was performed as previously described 44 . X-gal was detected in blastocysts using secondary antibodies coupled with biotin, the Vectastain ABC kit and DAB (Vector System). Teratoma-formation assays were performed by injecting 1 × 10 6 mESCs in the testes of 7-week-old SCID mice. After 3-4 weeks, the mice were euthanized and lesions were surgically removed and fixed in formalin or in 4% paraformaldehyde for sections. For blastocyst injections, Ntn1 fl/fl , untreated or treated with TAM for 48 h, were injected into BALB/cANRj blastocysts. The day before injection, frozen BALB/cANRj morulas from Quickblasto (Janvier) were thawed according to the manufacturer's instructions and incubated overnight in KSOM medium (Millipore) at 37 °C with 5% CO 2 . Between 5 and 15 cells were injected into expanded blastocysts in M2 medium (Sigma) using standard blastocyst injection techniques. Blastocysts were then allowed to recover for a period of 1-3 h prior to being implanted into pseudopregnant females. All animal procedures were performed in accordance with institutional guidelines (French ceccapp project 01369.01).Cell culture. The following cell lines were used in the study. Cgr8 ES cells (ECACC 07032901) were provided by the B. Pain laboratory (SBRI, Bron, France). E14Tg2a ES cells (ATCC CRL 1821) were provided by the M. E. Torres Padilla laboratory (IES, Munchen, Germany). Ntn1 βgeo reporter 27 and Netrin-1 conditional-KO (Ntn1 fl/fl ) 44 mESC...

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Centrosomal nucleolin is required for microtubule network organization

et al. 2015

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Nucleolin is a pleiotropic protein involved in a variety of cellular processes. Although multipolar spindle formation has been observed after nucleolin depletion, the roles of nucleolin in centrosome regulation and functions have not been addressed. Here we report using immunofluorescence and biochemically purified centrosomes that nucleolin colocalized only with one of the centrioles during interphase which was further identified as the mature centriole. Upon nucleolin depletion, cells exhibited an amplification of immature centriole markers surrounded by irregular pericentrin staining; these structures were exempt from maturation markers and unable to nucleate microtubules. Furthermore, the microtubule network was disorganized in these cells, exhibiting frequent non-centrosomal microtubules. At the mature centriole a reduced kinetics in the centrosomal microtubule nucleation phase was observed in live silenced cells, as well as a perturbation of microtubule anchoring. Immunoprecipitation experiments showed that nucleolin belongs to protein complexes containing 2 key centrosomal proteins, g-tubulin and ninein, involved in microtubule nucleation and anchoring steps. Altogether, our study uncovered a new role for nucleolin in restricting microtubule nucleation and anchoring at centrosomes in interphase cells.

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Xavier Gaume

A molecular roadmap for the emergence of early-embryonic-like cells in culture

The roles of nucleolin subcellular localization in cancer

SUMO Safeguards Somatic and Pluripotent Cell Identities by Enforcing Distinct Chromatin States

Transposable elements drive reorganisation of 3D chromatin during early embryogenesis

A distinct metabolic state arises during the emergence of 2‐cell‐like cells

Nucleolin Interacts with US11 Protein of Herpes Simplex Virus 1 and Is Involved in Its Trafficking

Netrin-1 promotes naive pluripotency through Neo1 and Unc5b co-regulation of Wnt and MAPK signalling

Centrosomal nucleolin is required for microtubule network organization

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