Your search keyword '"Ruppé, Etienne"' showing total 10 results

1. Deciphering polymorphism in 61,157 Escherichia coli genomes via epistatic sequence landscapes.

Author

Vigué, Lucile, Croce, Giancarlo, Petitjean, Marie, Ruppé, Etienne, Tenaillon, Olivier, and Weigt, Martin

Subjects

ESCHERICHIA coli, AMINO acid sequence, AMINO acids, GENETICS

Abstract

Characterizing the effect of mutations is key to understand the evolution of protein sequences and to separate neutral amino-acid changes from deleterious ones. Epistatic interactions between residues can lead to a context dependence of mutation effects. Context dependence constrains the amino-acid changes that can contribute to polymorphism in the short term, and the ones that can accumulate between species in the long term. We use computational approaches to accurately predict the polymorphisms segregating in a panel of 61,157 Escherichia coli genomes from the analysis of distant homologues. By comparing a context-aware Direct-Coupling Analysis modelling to a non-epistatic approach, we show that the genetic context strongly constrains the tolerable amino acids in 30% to 50% of amino-acid sites. The study of more distant species suggests the gradual build-up of genetic context over long evolutionary timescales by the accumulation of small epistatic contributions. Predicting the effects of mutations in a species is a major challenge in genetics. Here, the authors investigate protein sequence landscapes using diverged E. coli sequences, to predict tolerated mutations and capture interactions between mutations. [ABSTRACT FROM AUTHOR]

Published

2022

2. Prediction of the intestinal resistome by a three-dimensional structure-based method

Author

European Commission, Instituto de Salud Carlos III, Comunidad de Madrid, European Society of Clinical Microbiology and Infectious Diseases, Ruppé, Etienne, Ghozlane, Amine, Tap, Julien, Pons, Nicolás, Álvarez, Anne-Sophie, Maziers, Nicolás, Cuesta, Trinidad, Hernando-Amado, Sara, Clares, Irene, Martínez, José Luis, Coque, Teresa M., Baquero, Fernando, Lanza, Val F., Máiz, Luis, Goulenok, Tiphaine, Lastours, Victoire de, Amor, Nawal, Fantin, Bruno, Wieder, Ingrid, Andremont, Antoine, Schaik, Willem van, Rogers, Malbert, Zhang, Xinglin, Willems, Rob J., Brevern, Alexandre G. de, Batto, Jean-Michel, Blottière, Hervé M., Léonard, Pierre, Léjard, Véronique, Letur, Aline, Levenez, Florence, Weiszer, Kevin, Haimet, Florence, Doré, Joël, Kennedy, Sean, Ehrlich, S. Dusko, European Commission, Instituto de Salud Carlos III, Comunidad de Madrid, European Society of Clinical Microbiology and Infectious Diseases, Ruppé, Etienne, Ghozlane, Amine, Tap, Julien, Pons, Nicolás, Álvarez, Anne-Sophie, Maziers, Nicolás, Cuesta, Trinidad, Hernando-Amado, Sara, Clares, Irene, Martínez, José Luis, Coque, Teresa M., Baquero, Fernando, Lanza, Val F., Máiz, Luis, Goulenok, Tiphaine, Lastours, Victoire de, Amor, Nawal, Fantin, Bruno, Wieder, Ingrid, Andremont, Antoine, Schaik, Willem van, Rogers, Malbert, Zhang, Xinglin, Willems, Rob J., Brevern, Alexandre G. de, Batto, Jean-Michel, Blottière, Hervé M., Léonard, Pierre, Léjard, Véronique, Letur, Aline, Levenez, Florence, Weiszer, Kevin, Haimet, Florence, Doré, Joël, Kennedy, Sean, and Ehrlich, S. Dusko

Abstract

The intestinal microbiota is considered to be a major reservoir of antibiotic resistance determinants (ARDs) that could potentially be transferred to bacterial pathogens via mobile genetic elements. Yet, this assumption is poorly supported by empirical evidence due to the distant homologies between known ARDs (mostly from culturable bacteria) and ARDs from the intestinal microbiota. Consequently, an accurate census of intestinal ARDs (that is, the intestinal resistome) has not yet been fully determined. For this purpose, we developed and validated an annotation method (called pairwise comparative modelling) on the basis of a three-dimensional structure (homology comparative modelling), leading to the prediction of 6,095 ARDs in a catalogue of 3.9 million proteins from the human intestinal microbiota. We found that the majority of predicted ARDs (pdARDs) were distantly related to known ARDs (mean amino acid identity 29.8%) and found little evidence supporting their transfer between species. According to the composition of their resistome, we were able to cluster subjects from the MetaHIT cohort (n = 663) into six resistotypes that were connected to the previously described enterotypes. Finally, we found that the relative abundance of pdARDs was positively associated with gene richness, but not when subjects were exposed to antibiotics. Altogether, our results indicate that the majority of intestinal microbiota ARDs can be considered intrinsic to the dominant commensal microbiota and that these genes are rarely shared with bacterial pathogens.

Published

2019

3. Impact of rapid multiplex PCR on management of antibiotic therapy in COVID-19-positive patients hospitalized in intensive care unit.

Author

Maataoui, Naouale, Chemali, Lotfi, Patrier, Juliette, Tran Dinh, Alexy, Le Fèvre, Lucie, Lortat-Jacob, Brice, Marzouk, Mehdi, d'Humières, Camille, Rondinaud, Emilie, Ruppé, Etienne, Montravers, Philippe, Timsit, Jean-François, and Armand-Lefèvre, Laurence

Subjects

INTENSIVE care patients, COVID-19, ANTIBIOTICS, INAPPROPRIATE prescribing (Medicine), ANTIMICROBIAL stewardship

Abstract

Because the diagnosis of co/superinfection in COVID-19 patients is challenging, empirical antibiotic therapy is frequently initiated until microbiological analysis results. We evaluated the performance and the impact of the BioFire® FilmArray® Pneumonia plus Panel on 112 respiratory samples from 67 COVID-19 ICU patients suspected of co/superinfections. Globally, the sensitivity and specificity of the test were 89.3% and 99.1%, respectively. Positive tests led to antibiotic initiation or adaptation in 15% of episodes and de-escalation in 4%. When negative, 28% of episodes remained antibiotic-free (14% no initiation, 14% withdrawal). Rapid multiplex PCRs can help to improve antibiotic stewardship by administering appropriate antibiotics earlier and avoiding unnecessary prescriptions. [ABSTRACT FROM AUTHOR]

Published

2021

4. The Potential Role of Clinical Metagenomics in Infectious Diseases: Therapeutic Perspectives.

Author

d'Humières, Camille, Salmona, Maud, Dellière, Sarah, Leo, Stefano, Rodriguez, Christophe, Angebault, Cécile, Alanio, Alexandre, Fourati, Slim, Lazarevic, Vladimir, Woerther, Paul-Louis, Schrenzel, Jacques, and Ruppé, Etienne

Subjects

COMMUNICABLE disease diagnosis, PARASITOLOGY, MICROBIOLOGY, ANTI-infective agents, GENOMES, GENOMICS, VIROLOGY, NUCLEIC acids, MYCOLOGY

Abstract

Clinical metagenomics (CMg) is the process of sequencing nucleic acid of clinical samples to obtain clinically relevant information such as the identification of microorganisms and their susceptibility to antimicrobials. Over the last decades, sequencing and bioinformatic solutions supporting CMg have much evolved and an increasing number of case reports and series covering various infectious diseases have been published. Metagenomics is a new approach to infectious disease diagnosis that is currently being developed and is certainly one of the most promising for the coming years. However, most CMg studies are retrospective, and few address the potential impact CMg could have on patient management, including initiation, adaptation, or cessation of antimicrobials. In this narrative review, we have discussed the potential role of CMg in bacteriology, virology, mycology, and parasitology. Several reports and case-series confirm that CMg is an innovative tool with which one can (i) identify more microorganisms than with conventional methods in a single test, (ii) obtain results within hours, and (iii) tailor the antimicrobial regimen of patients. However, the cost-efficiency of CMg and its real impact on patient management are still to be determined. [ABSTRACT FROM AUTHOR]

Published

2021

5. In-depth resistome analysis by targeted metagenomics

Author

European Commission, Ministerio de Economía y Competitividad (España), Instituto de Salud Carlos III, Comunidad de Madrid, European Society of Clinical Microbiology and Infectious Diseases, Agence Nationale de la Recherche (France), Lanza, Val F., Baquero, Fernando, Martínez, José L., Ramos-Ruiz, Ricardo, Gonzalez-Zorn, B., Andremont, Antoine, Sánchez-Valenzuela, Antonio, Dusko Ehrlich, Stanislav, Kennedy, Sean, Ruppé, Etienne, Schaik, Willem van, Willems, Rob J., Cruz, Fernando de la, Coque, Teresa M., European Commission, Ministerio de Economía y Competitividad (España), Instituto de Salud Carlos III, Comunidad de Madrid, European Society of Clinical Microbiology and Infectious Diseases, Agence Nationale de la Recherche (France), Lanza, Val F., Baquero, Fernando, Martínez, José L., Ramos-Ruiz, Ricardo, Gonzalez-Zorn, B., Andremont, Antoine, Sánchez-Valenzuela, Antonio, Dusko Ehrlich, Stanislav, Kennedy, Sean, Ruppé, Etienne, Schaik, Willem van, Willems, Rob J., Cruz, Fernando de la, and Coque, Teresa M.

Abstract

[Background]: Antimicrobial resistance is a major global health challenge. Metagenomics allows analyzing the presence and dynamics of “resistomes” (the ensemble of genes encoding antimicrobial resistance in a given microbiome) in disparate microbial ecosystems. However, the low sensitivity and specificity of available metagenomic methods preclude the detection of minority populations (often present below their detection threshold) and/or the identification of allelic variants that differ in the resulting phenotype. Here, we describe a novel strategy that combines targeted metagenomics using last generation in-solution capture platforms, with novel bioinformatics tools to establish a standardized framework that allows both quantitative and qualitative analyses of resistomes. [Methods]: We developed ResCap, a targeted sequence capture platform based on SeqCapEZ (NimbleGene) technology, which includes probes for 8667 canonical resistance genes (7963 antibiotic resistance genes and 704 genes conferring resistance to metals or biocides), and 2517 relaxase genes (plasmid markers) and 78,600 genes homologous to the previous identified targets (47,806 for antibiotics and 30,794 for biocides or metals). Its performance was compared with metagenomic shotgun sequencing (MSS) for 17 fecal samples (9 humans, 8 swine). ResCap significantly improves MSS to detect “gene abundance” (from 2.0 to 83.2%) and “gene diversity” (26 versus 14.9 genes unequivocally detected per sample per million of reads; the number of reads unequivocally mapped increasing up to 300-fold by using ResCap), which were calculated using novel bioinformatic tools. ResCap also facilitated the analysis of novel genes potentially involved in the resistance to antibiotics, metals, biocides, or any combination thereof. [Conclusions]: ResCap, the first targeted sequence capture, specifically developed to analyze resistomes, greatly enhances the sensitivity and specificity of available metagenomic methods and offers t

Published

2018

6. Semi-quantitative cultures of throat and rectal swabs are efficient tests to predict ESBL-Enterobacterales ventilator-associated pneumonia in mechanically ventilated ESBL carriers.

Author

Andremont, Olivier, Armand-Lefevre, Laurence, Dupuis, Claire, de Montmollin, Etienne, Ruckly, Stéphane, Lucet, Jean-Christophe, Smonig, Roland, Magalhaes, Eric, Ruppé, Etienne, Mourvillier, Bruno, Lebut, Jordane, Lermuzeaux, Mathilde, Sonneville, Romain, Bouadma, Lila, Timsit, Jean-François, and COMBACTE net consortium

Subjects

VENTILATOR-associated pneumonia, THROAT, BRONCHOALVEOLAR lavage

Abstract

Purpose: In ICU patients with carriage of extended spectrum beta-lactamase producing Enterobacterales (ESBL-E) and suspected Gram-negative bacilli ventilator-associated pneumonia (GNB-VAP), the quantification of the rectal and throat ESBL-E carriage might predict the ESBL-E involvement in GNB-VAP. Our aim was to evaluate whether a semi-quantitative assessment of rectal/throat ESBL-E carriage can predict ESBL-E-associated VAP in medical ICU patients.Methods: From May 2014 to May 2017, all ESBL-E carriers had a semi-quantitative assessment of ESBL-E density in swabs cultures. For those who developed GNB-VAP (diagnosed using bronchoalveolar lavage or plugged telescopic catheter with significant quantitative culture), the last positive swab collected at least 48 h before GNB-VAP onset was selected. Clinical data were extracted from a prospectively collected database.Results: Among 365 ESBL-E carriers, 82 developed 107 episodes of GNB-VAP (ESBL-E VAP, n = 50; and non-ESBL-E GNB-VAP, n = 57) after 13 days of mechanical ventilation in median. Antimicrobials use before VAP onset was similar between groups. The last swabs were collected 5 days in median before VAP onset. ESBL-E. coli carriers developed ESBL-E VAP less frequently (n = 13, 34%) than others (n = 32, 67.3%, p < .01). Throat swab positivity (39 (78%) vs. 12 (23%), p < .01) was more frequent for ESBL-E VAP. ESBL-E VAP was associated with significantly higher ESBL-E density in rectal swabs. In multivariate models, non-E. coli ESBL-E carriage and rectal ESBL-E carriage density, or throat carriage, remained associated with ESBL-E VAP.Conclusion: In carriers of ESBL-E other than E. coli, ESBL-E throat carriage or a high-density ESBL-E rectal carriage are risk factors of ESBL-E VAP in case of GNB-VAP. [ABSTRACT FROM AUTHOR]

Published

2020

7. Bloodstream infections in critically ill patients: an expert statement.

Author

Timsit, Jean-François, Ruppé, Etienne, Barbier, François, Tabah, Alexis, and Bassetti, Matteo

Subjects

*CRITICALLY ill, *SEPTIC shock, *INFECTION, *SEPSIS, *EPIDEMIOLOGY, *BACTEREMIA diagnosis, *ANTIBIOTICS, *BACTEREMIA, *INTENSIVE care units, *TIME, *CATASTROPHIC illness, *DISEASE prevalence, *DRUG monitoring

Abstract

Bloodstream infection (BSI) is defined by positive blood cultures in a patient with systemic signs of infection and may be either secondary to a documented source or primary-that is, without identified origin. Community-acquired BSIs in immunocompetent adults usually involve drug-susceptible bacteria, while healthcare-associated BSIs are frequently due to multidrug-resistant (MDR) strains. Early adequate antimicrobial therapy is a key to improve patient outcomes, especially in those with criteria for sepsis or septic shock, and should be based on guidelines and direct examination of available samples. Local epidemiology, suspected source, immune status, previous antimicrobial exposure, and documented colonization with MDR bacteria must be considered for the choice of first-line antimicrobials in healthcare-associated and hospital-acquired BSIs. Early genotypic or phenotypic tests are now available for bacterial identification and early detection of resistance mechanisms and may help, though their clinical impact warrants further investigations. Initial antimicrobial dosing should take into account the pharmacokinetic alterations commonly observed in ICU patients, with a loading dose in case of sepsis or septic shock. Initial antimicrobial combination attempting to increase the antimicrobial spectrum should be discussed when MDR bacteria are suspected and/or in the most severely ill patients. Source identification and control should be performed as soon as the hemodynamic status is stabilized. De-escalation from a broad-spectrum to a narrow-spectrum antimicrobial may reduce antibiotic selection pressure without negative impact on mortality. The duration of therapy is usually 5-8 days though longer durations may be discussed depending on the underlying illness and the source of infection. This narrative review covers the epidemiology, diagnostic workflow and therapeutic aspects of BSI in ICU patients and proposed up-to-date expert statements. [ABSTRACT FROM AUTHOR]

Published

2020

8. Less contact isolation is more in the ICU: con.

Author

Birgand, Gabriel, Schouten, Jeroen, and Ruppé, Etienne

Subjects

ACINETOBACTER baumannii, ENTEROCOCCUS, CARBAPENEM-resistant bacteria, LONG-term care facilities, PATIENT compliance, UNIVERSAL precautions (Health), GOVERNMENT policy, INTENSIVE care units, CROSS infection, ISOLATION (Hospital care)

Published

2020

9. In 2035, will all bacteria be multidrug resistant? We are not sure.

Author

Laupland, Kevin, Ruppé, Etienne, Harbarth, Stephan, Laupland, Kevin B, and Ruppé, Etienne

Subjects

*MULTIDRUG resistance in bacteria, *ANTIBIOTICS, *PATHOGENIC microorganisms, *BACTERIAL diseases, *HIV

Abstract

The article presents the author pondering over the question of multidrug resistance in bacteria by 2035. He expects the discovery and development of new antibiotic agents in the coming years for multidrug-resistant pathogens. He explains about rewards for the development of agents for chronic infections like HIV. The author suggests ways to be prepared for the uncertainties about the prospective of resistance like immunization for bacterial infections and better defense strategy in hospital.

Published

2016

10. Nasal carriage of Methicillin-Resistant Coagulase-Negative Staphylocococci: A Reservoir of mecA Gene for Staphylococcus aureus.

Author

Ruimy, Raymond, Barbier, François, Lebeaux, David, Ruppé, Etienne, and Andremont, Antoine

Published

2012