Víctor M. Chávez-Jacobo scite author profile

The pUM505 plasmid, isolated from a clinical isolate, confers resistance to ciprofloxacin (CIP) when transferred into the standard strain PAO1. CIP is an antibiotic of the quinolone family that is used to treat infections. analysis, performed to identify CIP resistance genes, revealed that the 65-amino-acid product encoded by the gene in pUM505 displays 40% amino acid identity to the aminoglycoside phosphotransferase (an enzyme that phosphorylates and inactivates aminoglycoside antibiotics). We cloned (renamed, for iprofloxacinesistance rotein,lasmid encoded) into the pUCP20 shuttle vector. The resulting recombinant plasmid, pUC-, conferred resistance to CIP on strain J53-3, suggesting that this gene encodes a protein involved in CIP resistance. Using coupled enzymatic analysis, we determined that the activity of CrpP on CIP is ATP dependent, while little activity against norfloxacin was detected, suggesting that CIP may undergo phosphorylation. Using a recombinant His-tagged CrpP protein and liquid chromatography-tandem mass spectrometry, we also showed that CIP was phosphorylated prior to its degradation. Thus, our findings demonstrate that CrpP, encoded on the pUM505 plasmid, represents a new mechanism of CIP resistance in, which involves phosphorylation of the antibiotic.

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Prevalence of the crpP gene conferring decreased ciprofloxacin susceptibility in enterobacterial clinical isolates from Mexican hospitals

Chávez-Jacobo

Hernández-Ramírez

Silva-Sánchez

et al. 2019

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Plasmid pUM505 encodes a Toxin–Antitoxin system conferring plasmid stability and increased Pseudomonas aeruginosa virulence

Hernández-Ramírez

Chávez-Jacobo

Valle-Maldonado

et al. 2017

Microbial Pathogenesis

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Identification of Essential Residues for Ciprofloxacin Resistance of Ciprofloxacin-Modifying Enzyme (CrpP) of pUM505

Chávez-Jacobo

Merinos

López

et al. 2020

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The ciprofloxacin-resistance crpP gene, encoded by the pUM505 plasmid, isolated from a P. aeruginosa clinical isolate, confers an enzymatic mechanism of antibiotic phosphorylation, which is ATP-dependent, that decreases ciprofloxacin susceptibility. Homologous crpP genes are distributed across extended spectrum beta-lactamase (ESBL)-producing isolates obtained from Mexican hospitals and which confer decreased susceptibility to CIP. The analysis of sequences of the CrpP of proteins showed that the residues Gly7, Thr8, Asp9, Lys33 and Gly34 (located at the N-terminal region) and Cys40 (located at the C-terminal region) are conserved in all proteins, suggesting that these residues could be essential for CrpP function. The aim of this study was to investigate the amino acids essential to ciprofloxacin resistance, which is conferred by the CrpP protein of pUM505 plasmid. Mutations in the codons encoding Gly7, Asp9, Lys33 and Cys40 of CrpP protein from pUM505 were generated by PCR fusion. The results showed that all mutations generated in CrpP proteins increased ciprofloxacin susceptibility in Escherichia coli . In addition, the CrpP modified proteins were purified and their enzymatic activity on ciprofloxacin was assayed, showing that these modified proteins do not exert catalytic activity on ciprofloxacin. Moreover, by infrared assays it was determined that the modified proteins were are not able to modify the ciprofloxacin molecule. Our findings are the first report that indicate that the amino acids, namely Gly7, Asp9, Lys33 and Cys40, which are conserved in the CrpP proteins, possess an essential role for the enzymatic mechanism that confers ciprofloxacin resistance.

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A plasmid-encoded mobile genetic element from Pseudomonas aeruginosa that confers heavy metal resistance and virulence

Hernández-Ramírez

Reyes-Gallegos

Chávez-Jacobo

et al. 2018

Plasmid

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