TY - JOUR
T1 - Exploring Synergistic Combinations in Extended and Pan-Drug Resistant (XDR and PDR) Whole Genome Sequenced Acinetobacter baumannii
AU - Quraini, Munawr A.L.
AU - Jabri, Zaaema A.L.
AU - Sami, Hiba
AU - Mahindroo, Jaspreet
AU - Taneja, Neelam
AU - Muharrmi, Zakariya A.L.
AU - Busaidi, Ibrahim A.L.
AU - Rizvi, Meher
N1 - Publisher Copyright:
© 2023 by the authors.
PY - 2023/6
Y1 - 2023/6
N2 - UNLABELLED:
Background: The diminishing antimicrobial options for the treatment of XDR and PDR
Acinetobacter baumannii is an increasing concern. In this study, we assessed the in vitro synergy of the fosfomycin (FOS) with meropenem (MEM), amikacin (AK), tigecycline (TGC), and colistin (CL) in whole genome sequenced isolates.
Methods: Non-replicate whole genome sequenced (illumina next-generation sequencing platform, Clevergene, India),
A. baumanii (7 XDR, 1PDR) were subjected to in vitro synergy testing by checkerboard (CB) and time kill assay (TKA) after MIC determination, with glucose-6-phosphate being incorporated in all runs. FOS was used as a cornerstone drug in four combinations and colistin in one. ResFinder, MLST, PlasmidFinder, and CSIPhylogeny tools were used.
Results: Mortality occurred in three patients. Diverse MLST were observed, ST-1962 (3 isolates) and one each of ST2062, ST2063, ST1816, ST1806, ST234. FOS MICs ranged from 32 to 128 mg/L, MEM MIC: 16-64 mg/L, TGC MIC: ≤2-≤4 mg/L and AK MIC: >512 mg/L. CL: MIC range, 0.25-≤2 mg/L, PDR MIC > 16 mg/L. Synergy results by CB: FOS-MEM: synergy in ⅞ (90%) isolates. Synergy lowered MEM MICs to susceptibility breakpoints in 6/8 cases.
CL-MEM: Excellent synergy (3/3) isolates.FOS-AK: Indifference in ⅞, antagonism ⅛ (AK-susceptible isolate).FOS-TGC: Partial synergy (PS) in 8/8 (TGC MIC dropped to ≤0.25 mg/L in 3/8). In the PDR isolate, synergy was seen in FOS-MEM, CL-MEM, PS in FOS-CL, FOS-TGC, indifference in FOS-AK. TKA: Excellent synergy was observed with FOS-MEM from 4 h, while FOS-AK and FOS-TGC demonstrated synergy at 24 h. Synergy was achieved despite presence of widespread resistance markers against aminoglycosides (
AacAad,
AadA,
AadB,
Aph3″Ia,
ArmA,
Arr,
StrA,
StrB), beta-lactams (ADC, BlaA1, BlaA2, Zn-dependent_hydrolase, OXA-23, OXA-51, PER-1,TEM-1D, CARB-5, Mbl), sulphonamides (SulII, SulI), phenicols (
CatBx,
CmlA), macrolides (
MphE,
MsrE) and tetracycline (
TetB) were widespread. Carbapenemase, CARB-5 was present in one isolate. Beta-lactamase genes OXA-23, OXA-51,
BlaA2, Zn-dependent_hydrolase, ADC, Mbl and macrolide resistance genes
MphE,
MsrE were present in all 8 isolates.
Conclusions: FOS-MEM and CL-MEM are promising combinations against
A. baumannii. Synergy of FOS-MEM in intrinsically resistant
A. baumannii shows that this antibiotic combination might be useful in treating such XDR and PDR pathogens.
AB - UNLABELLED:
Background: The diminishing antimicrobial options for the treatment of XDR and PDR
Acinetobacter baumannii is an increasing concern. In this study, we assessed the in vitro synergy of the fosfomycin (FOS) with meropenem (MEM), amikacin (AK), tigecycline (TGC), and colistin (CL) in whole genome sequenced isolates.
Methods: Non-replicate whole genome sequenced (illumina next-generation sequencing platform, Clevergene, India),
A. baumanii (7 XDR, 1PDR) were subjected to in vitro synergy testing by checkerboard (CB) and time kill assay (TKA) after MIC determination, with glucose-6-phosphate being incorporated in all runs. FOS was used as a cornerstone drug in four combinations and colistin in one. ResFinder, MLST, PlasmidFinder, and CSIPhylogeny tools were used.
Results: Mortality occurred in three patients. Diverse MLST were observed, ST-1962 (3 isolates) and one each of ST2062, ST2063, ST1816, ST1806, ST234. FOS MICs ranged from 32 to 128 mg/L, MEM MIC: 16-64 mg/L, TGC MIC: ≤2-≤4 mg/L and AK MIC: >512 mg/L. CL: MIC range, 0.25-≤2 mg/L, PDR MIC > 16 mg/L. Synergy results by CB: FOS-MEM: synergy in ⅞ (90%) isolates. Synergy lowered MEM MICs to susceptibility breakpoints in 6/8 cases.
CL-MEM: Excellent synergy (3/3) isolates.FOS-AK: Indifference in ⅞, antagonism ⅛ (AK-susceptible isolate).FOS-TGC: Partial synergy (PS) in 8/8 (TGC MIC dropped to ≤0.25 mg/L in 3/8). In the PDR isolate, synergy was seen in FOS-MEM, CL-MEM, PS in FOS-CL, FOS-TGC, indifference in FOS-AK. TKA: Excellent synergy was observed with FOS-MEM from 4 h, while FOS-AK and FOS-TGC demonstrated synergy at 24 h. Synergy was achieved despite presence of widespread resistance markers against aminoglycosides (
AacAad,
AadA,
AadB,
Aph3″Ia,
ArmA,
Arr,
StrA,
StrB), beta-lactams (ADC, BlaA1, BlaA2, Zn-dependent_hydrolase, OXA-23, OXA-51, PER-1,TEM-1D, CARB-5, Mbl), sulphonamides (SulII, SulI), phenicols (
CatBx,
CmlA), macrolides (
MphE,
MsrE) and tetracycline (
TetB) were widespread. Carbapenemase, CARB-5 was present in one isolate. Beta-lactamase genes OXA-23, OXA-51,
BlaA2, Zn-dependent_hydrolase, ADC, Mbl and macrolide resistance genes
MphE,
MsrE were present in all 8 isolates.
Conclusions: FOS-MEM and CL-MEM are promising combinations against
A. baumannii. Synergy of FOS-MEM in intrinsically resistant
A. baumannii shows that this antibiotic combination might be useful in treating such XDR and PDR pathogens.
KW - Acinetobacter baumannii
KW - checkerboard assay
KW - fosfomycin
KW - in vitro synergy
KW - meropenem
KW - time kill assay
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UR - https://www.mendeley.com/catalogue/0e52219c-1043-3ce6-95d9-e1ad37d031da/
U2 - 10.3390/microorganisms11061409
DO - 10.3390/microorganisms11061409
M3 - Article
C2 - 37374911
AN - SCOPUS:85163861687
SN - 2076-2607
VL - 11
JO - Microorganisms
JF - Microorganisms
IS - 6
M1 - 1409
ER -