Résumé

The holobiont concept defines a given organism and its associated symbionts as a potential level of selection over evolutionary time. In clonal plants, recent experiments demonstrated vertical transmission of part of the microbiota from one ramet (i.e., potentially autonomous individual) to another within the clonal network (i.e., connections by modified stems present in ∼35% of all plants). Because of this heritability, and potentially reciprocal exchange of microbes between generations of ramets, we propose to extend the existing holobiont framework to the concept of meta-holobiont. A meta-holobiont is a network of holobionts that can exchange biomolecules and microbiota across generations, thus impacting the fitness of both biological scales: holobionts and meta-holobionts. Specifically, meta-holobiont dynamics can result in sharing, specialization, and division of labor across plant clonal generations. This paper, which coins the meta-holobiont concept, is expected to stimulate discussion and to be applied beyond the context of networked clonal plants (e.g., to social insects).

Auteurs, date et publication :

Auteurs Nathan Vannier , Cendrine Mony , Anne-Kristel Bittebiere , Kevin R. Theis , Eugene Rosenberg , Philippe Vandenkoornhuyse

Publication : mSystems

Date : 2019

Volume : 4

Issue : 2

Catégorie(s)

#CNRS #EcoGenO #Université de Rennes

Résumé

Background: EGFR mutations cause inconsistent response to EGFR tyrosine-kinase inhibitors (TKI). To better understand these features, we reviewed all cases of EGFR-mutated non-small-cell lung cancer collected in the Biomarkers France database.
Patients and methods: Of 17 664 patients, 1837 (11%) with EGFR-mutated non-small-cell lung cancer were retrospectively analyzed for clinical and molecular characteristics. Results were correlated with survival and treatment response for the 848 stage IV patients.
Results: EGFR exon 18, 19, 20 and 21 mutations were found in 102 (5.5%), 931 (51%), 102 (5.5%) and 702 (38%) patients, respectively. Over 50% of exon 18 and 20 mutated patients were smokers. The median follow-up was 51.7 months. EGFR mutation type was prognostic of overall survival (OS) versus wild-type {exon 19: hazard ratio (HR)=0.51 [95% confidence interval (CI): 0.41-0.64], P < 0.0001; exon 21: HR = 0.76 (95% CI: 0.61-0.95), P = 0.002; exon 20: HR = 1.56 (95% CI: 1.02-2.38), P = 0.004}. EGFR mutation type was prognostic of progression-free survival versus wild-type [exon 19: HR = 0.62 (95% CI: 0.49-0.78), P < 0.0001; exon 20: HR = 1.46 (95% CI: 0.96-2.21), P = 0.07]. First-line treatment choice did not influence OS in multivariate analysis. First-line TKI predicted improved progression-free survival versus chemotherapy [HR = 0.67 (95% CI: 0.53-0.85), P = 0.001]. OS was longer for del19 versus L858R, which was associated with better OS compared with other exon 21 mutations, including L861Q. TKI improved survival in patients with exon 18 mutations, while chemotherapy was more beneficial for exon 20-mutated patients. Conclusion: EGFR mutation type can inform the most appropriate treatment. Therapeutic schedule had no impact on OS in our study, although TKI should be prescribed in first-line considering the risk of missing the opportunity to use this treatment.

Auteurs, date et publication :

Auteurs C. Leduc , J. P. Merlio , B. Besse , H. Blons , D. Debieuvre , P. P. Bringuier , I. Monnet , I. Rouquette , S. Fraboulet-Moreau , A. Lemoine , D. Pouessel , J. Mosser , F. Vaylet , A. Langlais , P. Missy , F. Morin , D. Moro-Sibilot , J. Cadranel , F. Barlesi , M. Beau-Faller

Publication : Annals of Oncology: Official Journal of the European Society for Medical Oncology

Date : 2017

Volume : 28

Issue : 11

Pages : 2715-2724

Catégorie(s)

#CNRS #EcoGenO #Université de Rennes

Auteurs, date et publication :

Auteurs Nicolas Guibert , Fabrice Barlesi , Renaud Descourt , Hervé Lena , Benjamin Besse , Michèle Beau-Faller , Jean Mosser , Eric Pichon , Jean-Philippe Merlio , l'Houcine Ouafik , François Guichard , Bénédicte Mastroianni , Lionel Moreau , Annie Wdowik , Jean-Christophe Sabourin , Antoinette Lemoine , Pascale Missy , Alexandra Langlais , Denis Moro-Sibilot , Julien Mazières

Publication : Journal of Thoracic Oncology

Date : 2017

Volume : 12

Issue : 6

Pages : 963

Catégorie(s)

#CNRS #EcoGenO #Université de Rennes

Résumé

In eukaryotes, the spatial and temporal organization of genome duplication gives rise to distinctive profiles of replication origin usage along the chromosomes. While it has become increasingly clear that these programs are important for cellular physiology, the mechanisms by which they are determined and modulated remain elusive. Replication initiation requires the function of cyclin-dependent kinases (CDKs), which associate with various cyclin partners to drive cell proliferation. Surprisingly, although we possess detailed knowledge of the CDK regulators and targets that are crucial for origin activation, little is known about whether CDKs play a critical role in establishing the genome-wide pattern of origin selection. We have addressed this question in the fission yeast, taking advantage of a simplified cell cycle network in which cell proliferation is driven by a single cyclin-CDK module. This system allows us to precisely control CDK activity in vivo using chemical genetics. First, in contrast to previous reports, our results clearly show that distinct cyclin-CDK pairs are not essential for regulating specific subsets of origins and for establishing a normal replication program. Importantly, we then demonstrate that the timing at which CDK activity reaches the S phase threshold is critical for the organization of replication in distinct efficiency domains, while the level of CDK activity at the onset of S phase is a dose-dependent modulator of overall origin efficiencies. Our study therefore implicates these different aspects of CDK regulation as versatile mechanisms for shaping the architecture of DNA replication across the genome.

Auteurs, date et publication :

Auteurs Anthony Perrot , Christopher Lee Millington , Blanca Gómez-Escoda , Diane Schausi-Tiffoche , Pei-Yun Jenny Wu

Publication : PLOS Genetics

Date : 2025

Volume : 14

Issue : 2

Pages : e1007214

Catégorie(s)

#CNRS #EcoGenO #Université de Rennes

Résumé

Purpose: CD90 (Thy-1) is a glycophosphatidylinositol-anchored glycoprotein considered as a surrogate marker for a variety of stem cells, including glioblastoma (GBM) stem cells (GSC). However, the molecular and cellular functions of CD90 remain unclear.Experimental Design: The function of CD90 in GBM was addressed using cellular models from immortalized and primary GBM lines, in vivo orthotopic mouse models, and GBM specimens' transcriptome associated with MRI features from GBM patients. CD90 expression was silenced in U251 and GBM primary cells and complemented in CD90-negative U87 cells.Results: We showed that CD90 is not only expressed on GSCs but also on more differentiated GBM cancer cells. In GBM patients, CD90 expression was associated with an adhesion/migration gene signature and with invasive tumor features. Modulation of CD90 expression in GBM cells dramatically affected their adhesion and migration properties. Moreover, orthotopic xenografts revealed that CD90 expression induced invasive phenotypes in vivo Indeed, CD90 expression led to enhanced SRC and FAK signaling in our GBM cellular models and GBM patients' specimens. Pharmacologic inhibition of these signaling nodes blunted adhesion and migration in CD90-positive cells. Remarkably, dasatinib blunted CD90-dependent GBM cell invasion in vivo and killed CD90high primary GSC lines.Conclusions: Our data demonstrate that CD90 is an actor of GBM invasiveness through SRC-dependent mechanisms and could be used as a predictive factor for dasatinib response in CD90high GBM patients. Clin Cancer Res; 23(23); 7360-74. ©2017 AACR.

Auteurs, date et publication :

Auteurs Tony Avril , Amandine Etcheverry , Raphaël Pineau , Joanna Obacz , Gwénaële Jegou , Florence Jouan , Pierre-Jean Le Reste , Masumeh Hatami , Rivka R. Colen , Brett L. Carlson , Paul A. Decker , Jann N. Sarkaria , Elodie Vauléon , Dan Cristian Chiforeanu , Anne Clavreul , Jean Mosser , Eric Chevet , Véronique Quillien

Publication : Clinical Cancer Research: An Official Journal of the American Association for Cancer Research

Date : 2017

Volume : 23

Issue : 23

Pages : 7360-7374

Catégorie(s)

#CNRS #EcoGenO #Université de Rennes

Résumé

Primary consumers in freshwater ecosystems, such as the zooplankton organism Daphnia magna, are highly affected by cyanobacteria, both as they may use it as a food source but also by cyanobacterial metabolites present in the water. Here, we investigate the impacts of cyanobacterial metabolites focussing on the environmental realistic scenario of the naturally released mixture without crushing cyanobacterial cells or their uptake as food. Therefore, D. magna were exposed to two concentrations of cell free cyanobacterial spent medium from Microcystis aeruginosa PCC 7806 to represent higher and lower ecologically-relevant concentrations of cyanobacterial metabolites. Including microcystin-LR, 11 metabolites have been detected of which 5 were quantified. Hypothesising concentration and time dependent negative impact, survival, gene expression marking digestion and metabolism, oxidative stress response, cell cycle and molting as well as activities of detoxification and antioxidant enzymes were followed for 7 days. D. magna suffered from oxidative stress as both catalase and glutathione S-transferase enzyme activities significantly decreased, suggesting enzyme exhaustibility after 3 and 7 days. Moreover, gene-expressions of the 4 stress markers (glutathione S-transferase, glutathione peroxidase, catalase and thioredoxin) were merely downregulated after 7 days of exposure. Energy allocation (expression of Glyceraldehyde-3-phosphate dehydrogenase) was increased after 3 days but decreased as well after 7 days exposure. Cell cycle was impacted time dependently but differently by the two concentrations, along with an increasing downregulation of myosin heavy chain responsible for cell arrangement and muscular movements. Deregulation of nuclear hormone receptor genes indicate that D. magna hormonal steering including molting seemed impaired despite no detection of microviridin J in the extracts. As a consequence of all those responses and presumably of more than investigated molecular and physiological changes, D. magna survival was impaired over time, in a concentration dependent manner. Our results confirm that besides microcystin-LR, other secondary metabolites contribute to negative impact on D. magna survival and stress response.

Auteurs, date et publication :

Auteurs Gorenka Bojadzija Savic , Hervé Colinet , Myriam Bormans , Christine Edwards , Linda A. Lawton , Enora Briand , Claudia Wiegand

Publication : Toxicon

Date : 2021

Catégorie(s)

#CNRS #EcoGenO #Université de Rennes

Résumé

This study presents the occurrence and abundance of Aeromonas antibiotic-resistant bacteria (ARB) and genes (ARGs) isolated from water, biofilm and fish in two commercial trout farms before and one week after flumequine treatment. Wild (WT) and non-wild (NWT) strains were determined for quinolones (flumequine, oxolinic acid and enrofloxacin), oxytetracycline (OXY), florfenicol (FFN), trimethoprim-sulfamethoxazole (TMP) and colistin (COL), and pMAR (presumptive multi-resistant) strains were classified. Forty-four ARGs for the mentioned antibiotics, β-lactams and multi-resistance were quantified for 211 isolates. BlaSHV-01, mexF and tetE were the dominant ARGs. A greater occurrence and abundance of tetA2, sul3, floR1, blaSHV-01 and mexF were observed for NWT compared to WT. The occurrence of pMAR and NWT Aeromonas for quinolones, OXY, FFN, TMP, COL and ARGs depended on the Aeromonas origin, antibiotic use and the presence of upstream activities. Our results revealed the impact of a flumequine treatment on Aeromonas present on a fish farm through an increase in NWT and pMAR strains. The link between fish and their environment was shown by the detection of identical ARB and ARGs in the two types of samples. There appears to be a high risk of resistance genes developing and spreading in aquatic environments.

Auteurs, date et publication :

Auteurs Niki Hayatgheib , Ségolène Calvez , Catherine Fournel , Lionel Pineau , Hervé Pouliquen , Emmanuelle Moreau

Publication : Microorganisms

Date : 2021

Volume : 9

Issue : 6

Pages : 1201

Catégorie(s)

#CNRS #EcoGenO #Université de Rennes

Résumé

Intrahepatic cholangiocarcinoma (iCCA) is a deadly liver primary cancer associated with poor prognosis and limited therapeutic opportunities. Active transforming growth factor beta (TGFβ) signaling is a hallmark of the iCCA microenvironment. However, the impact of TGFβ on the transcriptome of iCCA tumor cells has been poorly investigated. Here, we have identified a specific TGFβ signature of genes commonly deregulated in iCCA cell lines, namely HuCCT1 and Huh28. Novel coding and noncoding TGFβ targets were identified, including a TGFβ-induced long noncoding RNA (TLINC), formerly known as cancer susceptibility candidate 15 (CASC15). TLINC is a general target induced by TGFβ in hepatic and nonhepatic cell types. In iCCA cell lines, the expression of a long and short TLINC isoform was associated with an epithelial or mesenchymal phenotype, respectively. Both isoforms were detected in the nucleus and cytoplasm. The long isoform of TLINC was associated with a migratory phenotype in iCCA cell lines and with the induction of proinflammatory cytokines, including interleukin 8, both in vitro and in resected human iCCA. TLINC was also identified as a tumor marker expressed in both epithelial and stroma cells. In nontumor livers, TLINC was only expressed in specific portal areas with signs of ductular reaction and inflammation. Finally, we provide experimental evidence of circular isoforms of TLINC, both in iCCA cells treated with TGFβ and in resected human iCCA. Conclusion: We identify a novel TGFβ-induced long noncoding RNA up-regulated in human iCCA and associated with an inflammatory microenvironment. (Hepatology Communications 2018;2:254-269)

Auteurs, date et publication :

Auteurs Aude Merdrignac , Gaëlle Angenard , Coralie Allain , Kilian Petitjean , Damien Bergeat , Pascale Bellaud , Allain Fautrel , Bruno Turlin , Bruno Clément , Steven Dooley , Laurent Sulpice , Karim Boudjema , Cédric Coulouarn

Publication : Hepatology Communications

Date : 2025

Volume : 2

Issue : 3

Pages : 254-269

Catégorie(s)

#CNRS #EcoGenO #Université de Rennes

Résumé

Aims We aimed to identify a clinically useful biomarker using DNA methylation-based information to optimize individual treatment of patients with glioblastoma (GBM). Methods A six-CpG panel was identified by incorporating genome-wide DNA methylation data and clinical information of three distinct discovery sets and was combined using a risk-score model. Different validation sets of GBMs and lower-grade gliomas and different statistical methods were implemented for prognostic evaluation. An integrative analysis of multidimensional TCGA data was performed to molecularly characterize different risk tumors. Results The six-CpG risk-score signature robustly predicted overall survival (OS) in all discovery and validation cohorts and in a treatment-independent manner. It also predicted progression-free survival (PFS) in available patients. The multimarker epigenetic signature was demonstrated as an independent prognosticator and had better performance than known molecular indicators such as glioma-CpG island methylator phenotype (G-CIMP) and proneural subtype. The defined risk subgroups were molecularly distinct; high-risk tumors were biologically more aggressive with concordant activation of proangiogenic signaling at multimolecular levels. Accordingly, we observed better OS benefits of bevacizumab-contained therapy to high-risk patients in independent sets, supporting its implication in guiding usage of antiangiogenic therapy. Finally, the six-CpG signature refined the risk classification based on G-CIMP and MGMT methylation status. Conclusions The novel six-CpG signature is a robust and independent prognostic indicator for GBMs and is of promising value to improve personalized management.

Auteurs, date et publication :

Auteurs An-An Yin , Nan Lu , Amandine Etcheverry , Marc Aubry , Jill Barnholtz‐Sloan , Lu-Hua Zhang , Jean Mosser , Wei Zhang , Xiang Zhang , Yu-He Liu , Ya-Long He

Publication : CNS Neuroscience & Therapeutics

Date : 2025

Volume : 24

Issue : 3

Pages : 167-177

Catégorie(s)

#CNRS #EcoGenO #Université de Rennes

Résumé

Plants are colonized by a great diversity of microorganisms which form a microbiota and perform additional functions for their host. This microbiota can thus be considered a toolbox enabling plants to buffer local environmental changes, with a positive influence on plant fitness. In this context, the transmission of the microbiota to the progeny represent a way to ensure the presence of beneficial symbionts within the habitat. Examples of such transmission have been mainly described for seed transmission and concern a few pathogenic microorganisms. We investigated the transmission of symbiotic partners to plant progeny within clonal plant network.

Auteurs, date et publication :

Auteurs Nathan Vannier , Cendrine Mony , Anne-Kristel Bittebiere , Sophie Michon-Coudouel , Marine Biget , Philippe Vandenkoornhuyse

Publication : Microbiome

Date : 2018

Volume : 6

Issue : 1

Pages : 79

Catégorie(s)

#CNRS #EcoGenO #Université de Rennes