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Whole genome analysis of Gram-negative bacteria using the EPISEQ CS application and other bioinformatic platforms.

Garza-Ramos, Ulises; Rodríguez-Medina, Nadia; Córdova-Fletes, Carlos; Rubio-Mendoza, Daira; Alonso-Hernández, Christopher J; López-Jácome, Luis Esaú; Morfín-Otero, Rao; Rodríguez-Noriega, Eduardo; Rojas-Larios, Fabián; Vázquez-Larios, María Del Rosario; Ponce-de-Leon, Alfredo; Choy-Chang, Elena Victoria; Franco-Cendejas, Rafael; Martinez-Guerra, Bernardo Alfonso; Morales-de-La-Peña, Cecilia Teresita; Mena-Ramírez, Juan Pablo; López-Gutiérrez, Eduardo; García-Romo, Ricardo; Ballesteros-Silva, Bertha; Valadez-Quiroz, Alejandro; Avilés-Benítez, Laura Karina; Feliciano-Guzmán, José Manuel; Pérez-Vicelis, Talia; Velázquez-Acosta, María Del Consuelo; Padilla-Ibarra, Cecilia; López-Moreno, Laura Isabel; Corte-Rojas, Reyna Edith; Couoh-May, Carlos Antonio; Quevedo-Ramos, María Angelina; López-García, Maribel; Chio-Ortiz, Gabriela; Gil-Veloz, Mariana; Molina-Chavarria, Alejandro; Mora-Domínguez, Javier Paul; Romero-Romero, Daniel; May-Tec, Francisco Javier; Garza-González, Elvira.

J Glob Antimicrob Resist ; 33: 61-71, 2023 06.

Artigo em Inglês | MEDLINE | ID: mdl-36878463

RESUMO

OBJECTIVES: To determine genomic characteristics and molecular epidemiology of carbapenem non-susceptible Klebsiella pneumoniae, Escherichia coli, Acinetobacter baumannii, and Pseudomonas aeruginosa from medical centres of Mexico using whole genome sequencing data analysed with the EPISEQâ CS application and other bioinformatic platforms. METHODS: Clinical isolates collected from 28 centres in Mexico included carbapenem-non-susceptible K. pneumoniae (n = 22), E. coli (n = 24), A. baumannii (n = 16), and P. aeruginosa (n = 13). Isolates were subjected to whole genome sequencing using the Illumina (MiSeq) platform. FASTQ files were uploaded to the EPISEQâ CS application for analysis. Additionally, the tools Kleborate v2.0.4 and Pathogenwatch were used as comparators for Klebsiella genomes, and the bacterial whole genome sequence typing database was used for E. coli and A. baumannii. RESULTS: For K. pneumoniae, both bioinformatic approaches detected multiple genes encoding aminoglycoside, quinolone, and phenicol resistance, and the presence of blaNDM-1 explained carbapenem non-susceptibility in 18 strains and blaKPC-3 in four strains. Regarding E. coli, both EPISEQâ CS and bacterial whole genome sequence typing database analyses detected multiple virulence and resistance genes: 20 of 24 (83.3%) strains carried blaNDM, 3 of 24 (12.4%) carried blaOXA-232, and 1 carried blaOXA-181. Genes that confer resistance to aminoglycosides, tetracyclines, sulfonamides, phenicols, trimethoprim, and macrolides were also detected by both platforms. Regarding A. baumannii, the most frequent carbapenemase-encoding gene detected by both platforms was blaOXA-72, followed by blaOXA-66. Both approaches detected similar genes for aminoglycosides, carbapenems, tetracyclines, phenicols, and sulfonamides. Regarding P. aeruginosa, blaVIM, blaIMP, and blaGES were the more frequently detected. Multiple virulence genes were detected in all strains. CONCLUSION: Compared to the other available platforms, EPISEQâ CS enabled a comprehensive resistance and virulence analysis, providing a reliable method for bacterial strain typing and characterization of the virulome and resistome.

Assuntos

Antibacterianos , Escherichia coli , Escherichia coli/genética , Antibacterianos/farmacologia , Antibacterianos/uso terapêutico , Bactérias Gram-Negativas , Carbapenêmicos , Klebsiella pneumoniae , Aminoglicosídeos , Pseudomonas aeruginosa/genética , Biologia Computacional

Carbapenemase-Encoding Genes and Colistin Resistance in Gram-Negative Bacteria During the COVID-19 Pandemic in Mexico: Results from the Invifar Network.

Garza-Ramos, Ulises; Silva-Sánchez, Jesús; López-Jácome, Luis Esaú; Hernández-Durán, Melissa; Colín-Castro, Claudia Adriana; Sánchez-Pérez, Alejandro; Rodríguez-Santiago, Jonathan; Morfín-Otero, Rayo; Rodriguez-Noriega, Eduardo; Velázquez-Acosta, María-Del-Consuelo; Vázquez-Larios, María Del Rosario; Feliciano-Guzmán, José Manuel; Rojas-Larios, Fabián; Ponce-De-Leon, Alfredo; Lozano-Garcia, Margarita; Choy-Chang, Elena Victoria; López-Gutiérrez, Eduardo; Molina-Jaimes, Aarón; Gil-Veloz, Mariana; Corte-Rojas, Reyna Edith; López-Ovilla, Ismelda; Ramirez-Mis, Jose Luis; Rodríguez-Balderas, Dora Elia; Molina-Chavarria, Alejandro; Padilla-Ibarra, Cecilia; Quevedo-Ramos, Maria Angelina; Mireles-Dávalos, Christian Daniel; Rodríguez-Medina, Nadia; Rubio-Mendoza, Daira; Córdova-Fletes, Carlos; Cruz-López, Flora; Becerra-Montejano, Dilva Angelina; Mercado-Longoria, Roberto; Martínez-Villarreal, Rebeca Thelma; Barlandas-Rendón, Nicolás Rogelio Eric; Mena-Ramírez, Juan Pablo; Couoh-May, Carlos Antonio; Alcaraz-Espejel, Margarita; Adame-Alvarez, César; Hernández-Vicente, Lourdes; Garza-González, Elvira.

Microb Drug Resist ; 29(6): 239-248, 2023 Jun.

Artigo em Inglês | MEDLINE | ID: mdl-36595348

RESUMO

In this study, we report the carbapenemase-encoding genes and colistin resistance in Escherichia coli, Klebsiella pneumoniae, Acinetobacter baumannii, and Pseudomonas aeruginosa in the second year of the COVID-19 pandemic. Clinical isolates included carbapenem-resistant K. pneumoniae, carbapenem-resistant E. coli, carbapenem-resistant A. baumannii, and carbapenem-resistant P. aeruginosa. Carbapenemase-encoding genes were detected by PCR. Carbapenem-resistant K. pneumoniae and carbapenem-resistant E. coli isolates were analyzed using the Rapid Polymyxin NP assay. mcr genes were screened by PCR. Pulsed-field gel electrophoresis and whole-genome sequencing were performed on representative isolates. A total of 80 carbapenem-resistant E. coli, 103 carbapenem-resistant K. pneumoniae, 284 carbapenem-resistant A. baumannii, and 129 carbapenem-resistant P. aeruginosa isolates were recovered. All carbapenem-resistant E. coli and carbapenem-resistant K. pneumoniae isolates were included for further analysis. A selection of carbapenem-resistant A. baumannii and carbapenem-resistant P. aeruginosa strains was further analyzed (86 carbapenem-resistant A. baumannii and 82 carbapenem-resistant P. aeruginosa). Among carbapenem-resistant K. pneumoniae and carbapenem-resistant E. coli isolates, the most frequent gene was blaNDM (86/103 [83.5%] and 72/80 [90%], respectively). For carbapenem-resistant A. baumannii, the most frequently detected gene was blaOXA-40 (52/86, 60.5%), and for carbapenem-resistant P. aeruginosa, was blaVIM (19/82, 23.2%). For carbapenem-resistant A. baumannii, five indistinguishable pulsotypes were detected. Circulation of K. pneumoniae New Delhi metallo-ß-lactamase (NDM) and E. coli NDM was detected in Mexico. High virulence sequence types (STs), such as K. pneumoniae ST307, E. coli ST167, P. aeruginosa ST111, and A. baumannii ST2, were detected. Among K. pneumoniae isolates, 18/101 (17.8%) were positive for the Polymyxin NP test (two, 11.0% positive for the mcr-1 gene, and one, 5.6% with disruption of the mgrB gene). All E. coli isolates were negative for the Polymyxin NP test. In conclusion, K. pneumoniae NDM and E. coli NDM were detected in Mexico, with the circulation of highly virulent STs. These results are relevant in clinical practice to guide antibiotic therapies considering the molecular mechanisms of resistance to carbapenems.

Assuntos

COVID-19 , Colistina , Humanos , Colistina/farmacologia , Antibacterianos/farmacologia , Escherichia coli/genética , México/epidemiologia , Pandemias , Farmacorresistência Bacteriana/genética , Testes de Sensibilidade Microbiana , COVID-19/epidemiologia , beta-Lactamases/genética , Carbapenêmicos/farmacologia , Carbapenêmicos/uso terapêutico , Bactérias Gram-Negativas , Klebsiella pneumoniae , Pseudomonas aeruginosa/genética

Increment Antimicrobial Resistance During the COVID-19 Pandemic: Results from the Invifar Network.

López-Jácome, Luis Esaú; Fernández-Rodríguez, Diana; Franco-Cendejas, Rafael; Camacho-Ortiz, Adrián; Morfin-Otero, María Del Rayo; Rodríguez-Noriega, Eduardo; Ponce-de-León, Alfredo; Ortiz-Brizuela, Edgar; Rojas-Larios, Fabian; Velázquez-Acosta, María Del Consuelo; Mena-Ramírez, Juan Pablo; Rodríguez-Zulueta, Patricia; Bolado-Martínez, Enrique; Quintanilla-Cazares, Luis Javier; Avilés-Benítez, Laura Karina; Consuelo-Munoz, Scarlett; Choy-Chang, Elena Victoria; Feliciano-Guzmán, José Manuel; Couoh-May, Carlos Antonio; López-Gutiérrez, Eduardo; Molina-Jaimes, Aarón; Rincón-Zuno, Joaquín; Gil-Veloz, Mariana; Alcaraz-Espejel, Margarita; Corte-Rojas, Reyna Edith; Gómez-Espinosa, Josué; Monroy-Colin, Víctor Antonio; Morales-de-la-Peña, Cecilia Teresita; Aguirre-Burciaga, Efrén; López-Moreno, Laura Isabel; Martínez-Villarreal, Rebeca Thelma; Cetina-Umaña, Carlos Miguel; Galindo-Méndez, Mario; Soto-Nieto, Gabriel Israel; Cobos-Canul, Dulce Isabel; Moreno-Méndez, Martha Irene; Tello-Gómez, Esmeralda; Romero-Romero, Daniel; Quintana-Ponce, Sandra; Peralta-Catalán, Raúl; Valadez-Quiroz, Alejandro; Molina-Chavarría, Alejandro; Padilla-Ibarra, Cecilia; Barroso-Herrera-Y-Cairo, Irma Elena; Duarte-Miranda, Lizbeth Soraya; López-López, Dulce María; Escalante-Armenta, Samuel Pavel; Osorio-Guzmán, Mónica Jazmín; López-García, Maribel; Garza-Ramos, Ulises.

Microb Drug Resist ; 28(3): 338-345, 2022 Mar.

Artigo em Inglês | MEDLINE | ID: mdl-34870473

RESUMO

Aim: This study aims to assess the changes in antimicrobial resistance among some critical and high-priority microorganisms collected previously and during the coronavirus disease 2019 (COVID-19) pandemic in Mexico. Methods: We collected antimicrobial susceptibility data for critical and high-priority microorganisms from blood, urine, respiratory samples, and from all specimens, in which the pathogen may be considered a causative agent. Data were stratified and compared for two periods: 2019 versus 2020 and second semester 2019 (prepandemic) versus the second semester 2020 (pandemic). Results: In the analysis of second semester 2019 versus the second semester 2020, in blood samples, increased resistance to oxacillin (15.2% vs. 36.9%), erythromycin (25.7% vs. 42.8%), and clindamycin (24.8% vs. 43.3%) (p ≤ 0.01) was detected for Staphylococcus aureus, to imipenem (13% vs. 23.4%) and meropenem (11.2% vs. 21.4) (p ≤ 0.01), for Klebsiella pneumoniae. In all specimens, increased ampicillin and tetracycline resistance was detected for Enterococcus faecium (p ≤ 0.01). In cefepime, meropenem, levofloxacin, and gentamicin (p ≤ 0.01), resistance was detected for Escherichia coli; and in piperacillin-tazobactam, cefepime, imipenem, meropenem, ciprofloxacin, levofloxacin, and gentamicin (p ≤ 0.01), resistance was detected for Pseudomonas aeruginosa. Conclusion: Antimicrobial resistance increased in Mexico during the COVID-19 pandemic. The increase in oxacillin resistance for S. aureus and carbapenem resistance for K. pneumoniae recovered from blood specimens deserves special attention. In addition, an increase in erythromycin resistance in S. aureus was detected, which may be associated with high azithromycin use. In general, for Acinetobacter baumannii and P. aeruginosa, increasing resistance rates were detected.

Assuntos

Infecções Bacterianas/epidemiologia , Infecções Bacterianas/microbiologia , COVID-19/epidemiologia , Farmacorresistência Bacteriana Múltipla , Humanos , México/epidemiologia , Testes de Sensibilidade Microbiana , Pandemias , SARS-CoV-2

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