When less is more: shortening the Lpp protein leads to increased vancomycin resistance in Escherichia coli
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When less is more : shortening the Lpp protein leads to increased vancomycin resistance in Escherichia coli. / Wykes, Hannah; Le, Vuong Van Hung; Olivera, Catrina; Rakonjac, Jasna.
In: Journal of Antibiotics, Vol. 76, 2023, p. 746-750.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - When less is more
T2 - shortening the Lpp protein leads to increased vancomycin resistance in Escherichia coli
AU - Wykes, Hannah
AU - Le, Vuong Van Hung
AU - Olivera, Catrina
AU - Rakonjac, Jasna
N1 - Publisher Copyright: © 2023, The Author(s).
PY - 2023
Y1 - 2023
N2 - Vancomycin is a naturally occurring cell-wall-targeting glycopeptide antibiotic. Due to the low potency of this antibiotic against Gram-negative pathogens, such as Escherichia coli, there is a limited knowledge about interactions between vancomycin and this group of bacteria. Here, we show that an in-frame 63 bp deletion of the lpp gene caused a fourfold increase in vancomycin resistance in E. coli. The resulting protein, LppΔ21, is 21 amino acids shorter than the wild-type Lpp, a helical structural lipoprotein that controls the width of the periplasmic space through its length. The mutant remains susceptible to synergistic growth inhibition by combination of furazolidone and vancomycin; with furazolidone decreasing the vancomycin MIC by eightfold. These findings have clinical relevance, given that the vancomycin concentration required to select the lpp mutation is reachable during typical vancomycin oral administration for treating Clostridioides difficile infections. Combination therapy with furazolidone, however, is likely to prevent emergence and outgrowth of the lpp-mutated Gram-negative coliforms, avoiding exacerbation of the patient’s condition during the treatment.
AB - Vancomycin is a naturally occurring cell-wall-targeting glycopeptide antibiotic. Due to the low potency of this antibiotic against Gram-negative pathogens, such as Escherichia coli, there is a limited knowledge about interactions between vancomycin and this group of bacteria. Here, we show that an in-frame 63 bp deletion of the lpp gene caused a fourfold increase in vancomycin resistance in E. coli. The resulting protein, LppΔ21, is 21 amino acids shorter than the wild-type Lpp, a helical structural lipoprotein that controls the width of the periplasmic space through its length. The mutant remains susceptible to synergistic growth inhibition by combination of furazolidone and vancomycin; with furazolidone decreasing the vancomycin MIC by eightfold. These findings have clinical relevance, given that the vancomycin concentration required to select the lpp mutation is reachable during typical vancomycin oral administration for treating Clostridioides difficile infections. Combination therapy with furazolidone, however, is likely to prevent emergence and outgrowth of the lpp-mutated Gram-negative coliforms, avoiding exacerbation of the patient’s condition during the treatment.
U2 - 10.1038/s41429-023-00658-3
DO - 10.1038/s41429-023-00658-3
M3 - Journal article
C2 - 37749219
AN - SCOPUS:85172395313
VL - 76
SP - 746
EP - 750
JO - Japanese Journal of Antibiotics
JF - Japanese Journal of Antibiotics
SN - 0368-2781
ER -
ID: 369347468