Genomic adaptation in antimicrobial resistance: elucidating the route and effects in Acinetobacter baumannii / Mohamad Izwan Ismail

Antimicrobial resistance has been a looming threat ever since its conception and it has become one of the greatest global problems of the current era. Although various studies have been conducted to better understand the mutational triggers leading to antimicrobial resistance, the specific genomic p...

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Main Author: Ismail, Mohamad Izwan
Format: Thesis
Language:English
Published: 2016
Subjects:
Online Access:http://ir.uitm.edu.my/id/eprint/17663/
http://ir.uitm.edu.my/id/eprint/17663/1/TP_MOHAMAD%20IZWAN%20ISMAIL%20PH%2016_5.pdf
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spelling uitm-176632018-09-24T06:09:14Z http://ir.uitm.edu.my/id/eprint/17663/ Genomic adaptation in antimicrobial resistance: elucidating the route and effects in Acinetobacter baumannii / Mohamad Izwan Ismail Ismail, Mohamad Izwan Inorganic chemistry Antimicrobial resistance has been a looming threat ever since its conception and it has become one of the greatest global problems of the current era. Although various studies have been conducted to better understand the mutational triggers leading to antimicrobial resistance, the specific genomic path towards it have yet to be discerned. Here, we aim to elucidate the pathway of genomic evolution throughout the resistance induction of an A. baumannii strain towards ciprofloxacin, erythromycin, meropenem and imipenem, as well as comparing the mutations acquired clinically versus in vitro. Twenty-five (25) local clinical A. baumannii strains were isolated and screened for antimicrobial susceptibility, and their genome were sequenced using the Illumina GAIIx genome sequencer. The susceptible parent was then challenged with ciprofloxacin, erythromycin, meropenem and imipenem separately until growth is still possible beyond the Minimum Inhibitory Concentration (MIC) as defined by EUCAST standards. Once the resistance stability was confirmed, another sequencing run was done on the isogenic. Variant analysis was carried out using CLC Bio, and primers were designed to target the mutations of interest. PCR was then carried out on aliquots of the resistant mutants, each taken at increasing levels of antimicrobial tolerance throughout the challenging process. Phylogenomics and wgMLST analyses were carried out between the parent and resistant strain, as also the remaining isolates. Stable low and high-level resistant strains were successfully generated. Several genomic variants were identified in the high-level resistant strains. Validation of variant calling via PCR removed all miscalled variants. Comparative genome annotation revealed a high consistency in the genome structures of the clinical strains, despite non-consistent phylogenetic and synteny profiles. The mutation validation revealed several variations arising in genes responsible for signaling (yihG bvgS and srrA), metabolic activities (atpD, ribonuclease /, and epsL) and cell structure maintenance (ftsI and yceG) in addition to targeted mutations (mexB, acrB and gyrA). Analysis of the mutation chronology shows that when exposed to erythromycin, A. baumannii incurs modifications to genes bvgS and srrA, on days 4, 6, and to ftsI and its ribonuclease I encoding gene on day 67. When exposed to ciprofloxacin, mutations developed in gyrA and yihG on days 28 and 48. Meropenem exposure on the other hand has led to variations in epsL, mexB, and atpD on days 4, 10 and 70. In contrast, meropenem exposure resulted in mutations to acrB on day 38, and two mutations in ftsI occurred on day 19 and 67. From the results it is deduced that the chronology of intrinsic mutations is dependent on the types and intensity of selective pressures enacted, even on the same bacteria. Antibiotic pressure under in vitro and in vivo conditions has also resulted in development of different mutations leading to similar resistance profiles. It was also found that a prolonged exposure to the drugs used in this study plays as much of a role as the sub-inhibitory concentration. 2016 Thesis NonPeerReviewed text en http://ir.uitm.edu.my/id/eprint/17663/1/TP_MOHAMAD%20IZWAN%20ISMAIL%20PH%2016_5.pdf Ismail, Mohamad Izwan (2016) Genomic adaptation in antimicrobial resistance: elucidating the route and effects in Acinetobacter baumannii / Mohamad Izwan Ismail. PhD thesis, Universiti Teknologi MARA.
repository_type Digital Repository
institution_category Local University
institution Universiti Teknologi MARA
building UiTM Institutional Repository
collection Online Access
language English
topic Inorganic chemistry
spellingShingle Inorganic chemistry
Ismail, Mohamad Izwan
Genomic adaptation in antimicrobial resistance: elucidating the route and effects in Acinetobacter baumannii / Mohamad Izwan Ismail
description Antimicrobial resistance has been a looming threat ever since its conception and it has become one of the greatest global problems of the current era. Although various studies have been conducted to better understand the mutational triggers leading to antimicrobial resistance, the specific genomic path towards it have yet to be discerned. Here, we aim to elucidate the pathway of genomic evolution throughout the resistance induction of an A. baumannii strain towards ciprofloxacin, erythromycin, meropenem and imipenem, as well as comparing the mutations acquired clinically versus in vitro. Twenty-five (25) local clinical A. baumannii strains were isolated and screened for antimicrobial susceptibility, and their genome were sequenced using the Illumina GAIIx genome sequencer. The susceptible parent was then challenged with ciprofloxacin, erythromycin, meropenem and imipenem separately until growth is still possible beyond the Minimum Inhibitory Concentration (MIC) as defined by EUCAST standards. Once the resistance stability was confirmed, another sequencing run was done on the isogenic. Variant analysis was carried out using CLC Bio, and primers were designed to target the mutations of interest. PCR was then carried out on aliquots of the resistant mutants, each taken at increasing levels of antimicrobial tolerance throughout the challenging process. Phylogenomics and wgMLST analyses were carried out between the parent and resistant strain, as also the remaining isolates. Stable low and high-level resistant strains were successfully generated. Several genomic variants were identified in the high-level resistant strains. Validation of variant calling via PCR removed all miscalled variants. Comparative genome annotation revealed a high consistency in the genome structures of the clinical strains, despite non-consistent phylogenetic and synteny profiles. The mutation validation revealed several variations arising in genes responsible for signaling (yihG bvgS and srrA), metabolic activities (atpD, ribonuclease /, and epsL) and cell structure maintenance (ftsI and yceG) in addition to targeted mutations (mexB, acrB and gyrA). Analysis of the mutation chronology shows that when exposed to erythromycin, A. baumannii incurs modifications to genes bvgS and srrA, on days 4, 6, and to ftsI and its ribonuclease I encoding gene on day 67. When exposed to ciprofloxacin, mutations developed in gyrA and yihG on days 28 and 48. Meropenem exposure on the other hand has led to variations in epsL, mexB, and atpD on days 4, 10 and 70. In contrast, meropenem exposure resulted in mutations to acrB on day 38, and two mutations in ftsI occurred on day 19 and 67. From the results it is deduced that the chronology of intrinsic mutations is dependent on the types and intensity of selective pressures enacted, even on the same bacteria. Antibiotic pressure under in vitro and in vivo conditions has also resulted in development of different mutations leading to similar resistance profiles. It was also found that a prolonged exposure to the drugs used in this study plays as much of a role as the sub-inhibitory concentration.
format Thesis
author Ismail, Mohamad Izwan
author_facet Ismail, Mohamad Izwan
author_sort Ismail, Mohamad Izwan
title Genomic adaptation in antimicrobial resistance: elucidating the route and effects in Acinetobacter baumannii / Mohamad Izwan Ismail
title_short Genomic adaptation in antimicrobial resistance: elucidating the route and effects in Acinetobacter baumannii / Mohamad Izwan Ismail
title_full Genomic adaptation in antimicrobial resistance: elucidating the route and effects in Acinetobacter baumannii / Mohamad Izwan Ismail
title_fullStr Genomic adaptation in antimicrobial resistance: elucidating the route and effects in Acinetobacter baumannii / Mohamad Izwan Ismail
title_full_unstemmed Genomic adaptation in antimicrobial resistance: elucidating the route and effects in Acinetobacter baumannii / Mohamad Izwan Ismail
title_sort genomic adaptation in antimicrobial resistance: elucidating the route and effects in acinetobacter baumannii / mohamad izwan ismail
publishDate 2016
url http://ir.uitm.edu.my/id/eprint/17663/
http://ir.uitm.edu.my/id/eprint/17663/1/TP_MOHAMAD%20IZWAN%20ISMAIL%20PH%2016_5.pdf
first_indexed 2023-09-18T22:58:47Z
last_indexed 2023-09-18T22:58:47Z
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