Effects of LPS Composition in Escherichia coli on Antibacterial Activity and Bacterial Uptake of Antisense Peptide-PNA Conjugates
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Effects of LPS Composition in Escherichia coli on Antibacterial Activity and Bacterial Uptake of Antisense Peptide-PNA Conjugates. / Goltermann, Lise; Zhang, Meiqin; Ebbensgaard, Anna Elisabeth; Fiodorovaite, Marija; Yavari, Niloofar; Løbner-Olesen, Anders; Nielsen, Peter E.
In: Frontiers in Microbiology, Vol. 13, 877377, 2022.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - Effects of LPS Composition in Escherichia coli on Antibacterial Activity and Bacterial Uptake of Antisense Peptide-PNA Conjugates
AU - Goltermann, Lise
AU - Zhang, Meiqin
AU - Ebbensgaard, Anna Elisabeth
AU - Fiodorovaite, Marija
AU - Yavari, Niloofar
AU - Løbner-Olesen, Anders
AU - Nielsen, Peter E.
N1 - Publisher Copyright: Copyright © 2022 Goltermann, Zhang, Ebbensgaard, Fiodorovaite, Yavari, Løbner-Olesen and Nielsen.
PY - 2022
Y1 - 2022
N2 - The physical and chemical properties of the outer membrane of Gram-negative bacteria including Escherichia coli have a significant impact on the antibacterial activity and uptake of antibiotics, including antimicrobial peptides and antisense peptide-peptide nucleic acid (PNA) conjugates. Using a defined subset of E. coli lipopolysaccharide (LPS) and envelope mutants, components of the LPS-core, which provide differential susceptibility toward a panel of bacterial penetrating peptide (BPP)-PNA conjugates, were identified. Deleting the outer core of the LPS and perturbing the inner core only sensitized the bacteria toward (KFF)3K-PNA conjugates, but not toward conjugates carrying arginine-based BPPs. Interestingly, the chemical composition of the outer LPS core as such, rather than overall hydrophobicity or surface charge, appears to determine the susceptibility to different BPP-PNA conjugates thereby clearly demonstrating the complexity and specificity of the interaction with the LPS/outer membrane. Notably, mutants with outer membrane changes conferring polymyxin resistance did not show resistance toward the BPP-PNA conjugates, thereby eliminating one possible route of resistance for these molecules. Finally, envelope weakening, through deletion of membrane proteins such as OmpA as well as some proteins previously identified as involved in cationic antimicrobial peptide uptake, did not significantly influence BPP-PNA conjugate activity.
AB - The physical and chemical properties of the outer membrane of Gram-negative bacteria including Escherichia coli have a significant impact on the antibacterial activity and uptake of antibiotics, including antimicrobial peptides and antisense peptide-peptide nucleic acid (PNA) conjugates. Using a defined subset of E. coli lipopolysaccharide (LPS) and envelope mutants, components of the LPS-core, which provide differential susceptibility toward a panel of bacterial penetrating peptide (BPP)-PNA conjugates, were identified. Deleting the outer core of the LPS and perturbing the inner core only sensitized the bacteria toward (KFF)3K-PNA conjugates, but not toward conjugates carrying arginine-based BPPs. Interestingly, the chemical composition of the outer LPS core as such, rather than overall hydrophobicity or surface charge, appears to determine the susceptibility to different BPP-PNA conjugates thereby clearly demonstrating the complexity and specificity of the interaction with the LPS/outer membrane. Notably, mutants with outer membrane changes conferring polymyxin resistance did not show resistance toward the BPP-PNA conjugates, thereby eliminating one possible route of resistance for these molecules. Finally, envelope weakening, through deletion of membrane proteins such as OmpA as well as some proteins previously identified as involved in cationic antimicrobial peptide uptake, did not significantly influence BPP-PNA conjugate activity.
KW - antisense antimicrobials
KW - bacterial uptake
KW - cross-resistance
KW - lipopolysaccharide (LPS)
KW - peptide antibiotics
KW - peptide nucleic acid (PNA)
U2 - 10.3389/fmicb.2022.877377
DO - 10.3389/fmicb.2022.877377
M3 - Journal article
C2 - 35794919
AN - SCOPUS:85133573877
VL - 13
JO - Frontiers in Microbiology
JF - Frontiers in Microbiology
SN - 1664-302X
M1 - 877377
ER -
ID: 316679561