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1. The extensively antibiotic resistant ST111 Acinetobacter baumannii isolate RBH2 carries an extensive mobile element complement of plasmids, transposons and insertion sequences.

Author

Ambrose, SJ, Hamidian, M, Hall, RM, Ambrose, SJ, Hamidian, M, and Hall, RM

Abstract

The complete genome of RBH2, a sporadic, carbapenem resistant ST111 Acinetobacter baumannii isolate from Brisbane, Australia was determined and analysed. RBH2 is extensively resistant and the chromosome includes two transposons carrying antibiotic resistance genes, AbaR4 (oxa23 in Tn2006) and Tn7::Tn2006 (dfrA1, sat2, aadA1, oxa23). The chromosome also includes two copies of Tn6175, a transposon carrying putative copper resistance genes, and 1-17 copies of six different insertion sequences. RBH2 has six plasmids ranging in size from 6 kb - 141 kb, four carrying antibiotic resistance genes. Plasmids pRBH2-1 (aadB) and pRBH2-2 (aphA6 in TnaphA6) were found to be essentially identical to known plasmids pRAY*-v1 and pS21-1, respectively. The largest plasmids, pRBH2-5 (oxa23 in AbaR4) and pRBH2-6 (oxa23 in AbaR4::ISAba11 and sul2, tet(B), strA and strB in Tn6172) have known transfer-proficient relatives. pRBH2-5, an RP-T1 (RepAci6) plasmid, also carries a different putative copper resistance transposon related to Tn6177 found in pS21-2. The backbone of pRBH2-5 is related to those of previously described RepAci6 plasmids pAb-G7-2 and pA85-3 but has some distinctive features. Three different RepAci6 backbone types were distinguished, Type 1 (pAb-G7-2), Type 2 (pA85-3) and Type 3 (pRBH2-5 and pS21-2). pRBH2-6 is closely related to pAB3 and their backbones differ by only 5 SNPs. Plasmids pRBH2-3 and pRBH2-4 do not carry antibiotic resistance genes. pRBH2-3 does not include an identifiable rep gene and is a novel plasmid type. pRBH2-4 is of the R3-T3 type and includes segments of the larger pABTJ2 that heads this group. Other ST111 genomes carry different plasmids.

Published
2023

2. An automated system for polymer wear debris analysis in total disc arthroplasty using convolution neural network.

Author

Kandel, S, Su, S, Hall, RM, Tipper, JL, Kandel, S, Su, S, Hall, RM, and Tipper, JL

Abstract

Introduction: Polymer wear debris is one of the major concerns in total joint replacements due to wear-induced biological reactions which can lead to osteolysis and joint failure. The wear-induced biological reactions depend on the wear volume, shape and size of the wear debris and their volumetric concentration. The study of wear particles is crucial in analysing the failure modes of the total joint replacements to ensure improved designs and materials are introduced for the next generation of devices. Existing methods of wear debris analysis follow a traditional approach of computer-aided manual identification and segmentation of wear debris which encounters problems such as significant manual effort, time consumption, low accuracy due to user errors and biases, and overall lack of insight into the wear regime. Methods: This study proposes an automatic particle segmentation algorithm using adaptive thresholding followed by classification using Convolution Neural Network (CNN) to classify ultra-high molecular weight polyethylene polymer wear debris generated from total disc replacements tested in a spine simulator. A CNN takes object pixels as numeric input and uses convolution operations to create feature maps which are used to classify objects. Results: Classification accuracies of up to 96.49% were achieved for the identification of wear particles. Particle characteristics such as shape, size and area were estimated to generate size and volumetric distribution graphs. Discussion: The use of computer algorithms and CNN facilitates the analysis of a wider range of wear debris with complex characteristics with significantly fewer resources which results in robust size and volume distribution graphs for the estimation of the osteolytic potential of devices using functional biological activity estimates.

Published
2023

3. Importance of low carbohydrate diets in diabetes management

Author

Hall RM, Parry Strong A, and Krebs JD

Subjects
Type 2 diabetes, Diet, Low Carbohydrate, Carbohydrate, Nutrition, Nutrition. Foods and food supply, TX341-641, Nutritional diseases. Deficiency diseases, RC620-627
Abstract

Rosemary M Hall, Amber Parry Strong, Jeremy D KrebsCentre for Endocrine, Diabetes and Obesity Research, Capital and Coast District Health Board, Wellington, New Zealand Abstract: Dietary strategies are fundamental in the management of diabetes. Historically, strict dietary control with a low carbohydrate diet was the only treatment option. With increasingly effective medications, the importance of dietary change decreased. Recommendations focused on reducing dietary fat to prevent atherosclerotic disease, with decreasing emphasis on the amount and quality of carbohydrate. As the prevalence of obesity and diabetes escalates, attention has returned to the macronutrient composition of the diet. Very low carbohydrate diets (VLCD's) have demonstrated effective initial weight loss and improvement in glycemic control, but difficult long-term acceptability and worsening lipid profile. Modifications to the very low carbohydrate (VLC) have included limiting saturated fat and increasing carbohydrate (CHO) and protein. Reducing saturated fat appears pivotal in reducing low-density lipoprotein (LDL) cholesterol and may mitigate adverse effects of traditional VLCD's. Increased dietary protein enhances satiety, reduces energy intake, and improves glycemic homeostasis, but without sustained improvements in glycemic control or cardiovascular risk over and above the effect of weight loss. Additionally, recent studies in type 1 diabetes mellitus suggest promising benefits to diabetes control with low carbohydrate diets, without concerning effects on ketosis or hypoglycemia. Dietary patterns may highlight pertinent associations. For example, Mediterranean-style and paleolithic-type diets, low in fat and carbohydrate, are associated with reduced body weight and improved glycemic and cardiovascular outcomes in type 2 diabetes mellitus (T2DM). A feature of these dietary patterns is low refined CHO and sugar and higher fiber, and it is possible that increasing sugar consumption is having a substantial effect on global escalations in obesity and T2DM. Dietary recommendations in type 1 diabetes and T2DM are changing. Dietary CHO is unquestionably important, but long-term acceptability of any diet is critical to sustain improvements in health benefits. Personalized dietary management, using a variety of dietary approaches, may be the key to optimal diabetes outcomes. Keywords: low carbohydrate diets, type 2 diabetes, dietary intervention studies, type 1 diabetes, paleo nutrition

Published
2016

4. Detection and Typing of Plasmids in Acinetobacter baumannii Using rep Genes Encoding Replication Initiation Proteins

Author

Lam, MMC, Koong, J, Holt, KE, Hall, RM, and Hamidian, M

Abstract

Plasmids found in Acinetobacter species contribute to the spread of antibiotic resistance genes. They appear to be largely confined to this genus and cannot be typed with available tools and databases. Here, a method for distinguishing and typing these plasmids was developed using a curated, non-redundant set of 621 complete sequences of plasmids from Acinetobacter baumannii. Plasmids were separated into 3 groups based on the Pfam domains of the encoded replication initiation (Rep) protein and a fourth group that lack an identifiable Rep protein. The rep genes of each Rep-encoding group (n = 13 Rep_1, n = 107 RepPriCT_1, n = 351 Rep_3) were then clustered using a threshold of >95% nucleotide identity to define 80 distinct types. Five Rep_1 subgroups, designated R1_T1 to R1-T5, were identified and a sixth reported recently was added. Each R1 type corresponded to a conserved small plasmid sequence. The RepPriCT_1 plasmids fell into 5 subgroups, designated RP-T1 to RP-T5 and the Rep_3 plasmids comprised 69 distinct types (R3-T1 to R3-T69). Three R1, 2 RP and 32 R3 types are represented by only a single plasmid. Over half of the plasmids belong to the 4 most abundant types: the RP-T1 plasmids (n = 97), which include conjugation genes and are often associated with various acquired antibiotic resistance genes, and R3-T1, R3-T2 and R3-T3 (n = 95, 30 and 45, respectively). To facilitate typing and the identification of plasmids in draft genomes using this framework, we established the Acinetobacter Typing database containing representative nucleotide and protein sequences of the type markers (https://github.com/MehradHamidian/AcinetobacterPlasmidTyping). IMPORTANCE Though they contribute to the dissemination of genes that confer resistance to clinically important carbapenem and aminoglycoside antibiotics used to treat life-threatening Acinetobacter baumannii infections, plasmids found in Acinetobacter species have not been well studied. As these plasmids do not resemble those found in other Gram-negative pathogens, available typing systems are unsuitable. The plasmid typing system developed for A. baumannii plasmids with an identifiable rep gene will facilitate the classification and tracking of sequenced plasmids. It will also enable the detection of plasmid-derived contigs present in draft genomes that are widely ignored currently. Hence, it will assist in the tracking of resistance genes and other genes that affect survival in the environment, as they spread through the population. As identical or similar plasmids have been found in other Acinetobacter species, the typing system will also be broadly applicable in identifying plasmids in other members of the genus.

Published
2022

6. Evolution of Acinetobacter baumannii plasmids carrying the oxa58 carbapenemase resistance gene via plasmid fusion, IS26-mediated events and dif module shuffling.

Author

Jones, NI, Harmer, CJ, Hamidian, M, Hall, RM, Jones, NI, Harmer, CJ, Hamidian, M, and Hall, RM

Abstract

Acinetobacter baumannii RepAci1-RepAci10 plasmids pA388 from a global clone 1 (GC1) isolate from Greece, and pACICU1 and variant pACICU1b from an Italian GC2 isolate were found to share a common ancestor. The ancestor formed via recombination between pdif sites in the widely-distributed RepAci1 plasmid pA1-1 and in a RepAci10 plasmid carrying the oxa58 carbapenem-resistance gene in a dif module. Each plasmid includes copies of IS26 and multiple dif modules surrounded by 28 bp pdif sites resembling the chromosomal dif site, including one carrying the oxa58 gene. Plasmid sequences were compared to identify factors driving their evolution and divergence. IS26-mediated events, recombination between pdif sites and homologous recombination have all contributed. A translocatable unit that includes oxa58, generated by an IS26-mediated adjacent deletion, had been re-inserted by IS26 adjacent to an IS26 in pACICU1b to create the oxa58 gene duplication previously found in pACICU1. The oxa58 duplication has been lost from pACICU1b and the Tn6020 variant carrying the aphA1 (kanamycin, neomycin resistance) gene in pA388 has been lost from pACICU1/1b via recombination between directly-oriented IS26 copies. Two dif modules located between directly-oriented pdif sites in pA388 have been lost from pACICU1/1b and the product of this and other deletion events as well as inversion of dif modules located between inversely-oriented pdif sites were detected experimentally in pA388 DNA by PCR. Also, the new junctions were detected in a minority of reads in pA388 long-read sequence data. Inversion and deletion were only detected when the spacers in the pdif sites were identical and equivalent events involving mismatched spacers were not detected.

Published
2022

7. Current status and future potential of wear-resistant coatings and articulating surfaces for hip and knee implants.

Author

Skjöldebrand, C, Tipper, JL, Hatto, P, Bryant, M, Hall, RM, Persson, C, Skjöldebrand, C, Tipper, JL, Hatto, P, Bryant, M, Hall, RM, and Persson, C

Abstract

Hip and knee joint replacements are common and largely successful procedures that utilise implants to restore mobility and relieve pain for patients suffering from e.g. osteoarthritis. However, metallic ions and particles released from both the bearing surfaces and non-articulating interfaces, as in modular components, can cause hypersensitivity and local tissue necrosis, while particles originating from a polymer component have been associated with aseptic loosening and osteolysis. Implant coatings have the potential to improve properties compared to both bulk metal and ceramic alternatives. Ceramic coatings have the potential to increase scratch resistance, enhance wettability and reduce wear of the articulating surfaces compared to the metallic substrate, whilst maintaining overall toughness of the implant ensuring a lower risk of catastrophic failure of the device compared to use of a bulk ceramic. Coatings can also act as barriers to inhibit ion release from the underlying material caused by corrosion. This review aims to provide a comprehensive overview of wear-resistant coatings for joint replacements - both those that are in current clinical use as well as those under investigation for future use. While the majority of coatings belong predominantly in the latter group, a few coated implants have been successfully marketed and are available for clinical use in specific applications. Commercially available coatings for implants include titanium nitride (TiN), titanium niobium nitride (TiNbN), oxidized zirconium (OxZr) and zirconium nitride (ZrN) based coatings, whereas current research is focused not only on these, but also on diamond-like-carbon (DLC), silicon nitride (SiN), chromium nitride (CrN) and tantalum-based coatings (TaN and TaO). The coating materials referred to above that are still at the research stage have been shown to be non-cytotoxic and to reduce wear in a laboratory setting. However, the adhesion of implant coatings remains a main area of c

Published
2022

8. Extensively resistant Acinetobacter baumannii isolate RCH52 carries several resistance genes derived from an IncC plasmid.

Author

Ambrose, SJ, Hamidian, M, Hall, RM, Ambrose, SJ, Hamidian, M, and Hall, RM

Abstract

OBJECTIVES: To identify the origins of resistance in a sporadic extensively resistant Acinetobacter baumannii isolate. METHODS: The complete genome of RCH52 was determined by combining available Illumina short reads with MinION (Oxford Nanopore) long reads using Unicycler. Bioinformatic searches were used to identify features of interest. RESULTS: The complete genome of RCH52 revealed an unusual chromosomal region containing all of the antibiotic resistance genes, except tet39, which is in a plasmid. A 129 585 bp segment was bounded by inversely oriented copies of ISAba1 and included two groups of resistance genes separated by the large segment of the backbone of type 1 IncC plasmids that lies between the ARI-A and ARI-B resistance islands but does not include the replication region. The ISAba1-bounded segment was located in a novel integrative element that had integrated into the chromosomal thyA gene but provided a replacement thyA gene. Several resistance genes are derived from either the ARI-A or the ARI-B resistance islands found in IncC plasmids that have been brought together by an IS26-mediated deletion of the original plasmid. This non-replicating circular molecule (or translocatable unit) has been incorporated into a smaller ISAba1-bounded unit that includes oxa23 in Tn2008B via homologous recombination between sul2-CR2-floR segments found in both. CONCLUSIONS: The plasmids shared by most Gram-negative pathogens, including the broad host range IncC plasmids, have not been detected in Acinetobacter species. However, it seems likely that they can conjugate into members of this genus and contribute pre-existing clusters of antibiotic resistance genes.

Published
2022

10. An outbreak of multiply antibiotic-resistant ST49:ST128:KL11:OCL8 Acinetobacter baumannii isolates at a Sydney hospital.

Author

Hamidian, M, Ambrose, SJ, Blackwell, GA, Nigro, SJ, Hall, RM, Hamidian, M, Ambrose, SJ, Blackwell, GA, Nigro, SJ, and Hall, RM

Abstract

Objectives

To understand the acquisition of resistance genes by a non-GC1, non-GC2 Acinetobacter baumannii strain responsible for a 4 year outbreak at a Sydney hospital.

Methods

Representative isolates were screened for resistance to antibiotics. Three were subjected to WGS using Illumina HiSeq. One genome was completed with MinION long reads. Resistance regions were compared with known sequences using bioinformatics.

Results

Isolates were resistant to third-generation cephalosporins, gentamicin and tobramycin, sulfamethoxazole and erythromycin. Sequenced isolates were ST49 (Institut Pasteur scheme) and ST128 (Oxford scheme) and carried KL11 at the capsule locus and OCL8 at the lipooligosaccharide outer core locus. The complete genome of isolate J9 revealed that the resistance genes were all in plasmids; pRAY* contained aadB, and a large plasmid, pJ9-3, contained sul2 and floR genes and a dif module containing the mph(E)-msr(E) macrolide resistance genes. Transposon Tn6168, consisting of a second copy of the chromosomal ampC gene region flanked by ISAba1s, confers resistance to third-generation cephalosporins. Tn6168 is located inside the mph(E)-msr(E) dif module. pJ9-3 includes a set of four dif modules and the orientation of the pdif sites, XerC-XerD or XerD-XerC, alternates. A large transposon, Tn6175, containing tniCABDE transposition genes and genes annotated as being involved in heavy metal metabolism, uptake or export was found in the comM gene. Other ST49:ST128:KL11:OCL8 genomes found in the GenBank WGS database carried Tn6175 but neither of the plasmids carrying the resistance genes.

Conclusions

An early carbapenem-susceptible A. baumannii outbreak recorded in Australia was caused by an unusual clone that had acquired plasmids carrying antibiotic resistance genes.

Published
2021

11. Developing a Tooth in situ Organ Culture Model for Dental and Periodontal Regeneration Research

Author

El-Gendy, R, Junaid, S, Lam, SKL, Elson, KM, Tipper, JL, Hall, RM, Ingham, E, Kirkham, J, El-Gendy, R, Junaid, S, Lam, SKL, Elson, KM, Tipper, JL, Hall, RM, Ingham, E, and Kirkham, J

Abstract

In this study we have realized the need for an organ culture tooth in situ model to simulate the tooth structure especially the tooth attachment apparatus. The importance of such a model is to open avenues for investigating regeneration of the complex tooth and tooth attachment tissues and to reduce the need for experimental animals in investigating dental materials and treatments in the future. The aim of this study was to develop a porcine tooth in situ organ culture model and a novel bioreactor suitable for future studies of periodontal regeneration, including application of appropriate physiological loading. The Objectives of this study was to establish tissue viability, maintenance of tissue structure, and model sterility after 1 and 4 days of culture. To model diffusion characteristics within the organ culture system and design and develop a bioreactor that allows tooth loading and simulation of the chewing cycle. Methods: Twenty-one porcine first molars were dissected aseptically in situ within their bony sockets. Twelve were used to optimize sterility and determine tissue viability. The remainder were used in a 4-day organ culture study in basal medium. Sterility was determined for medium samples and swabs taken from all tissue components, using standard aerobic and anaerobic microbiological cultures. Tissue viability was determined at days 1 and 4 using an XTT assay and Glucose consumption assays. Maintenance of structure was confirmed using histology and histomorphometric analysis. Diffusion characteristics were investigated using micro-CT combined with finite element modeling. A suitable bioreactor was designed to permit longer term culture with application of mechanical loading to the tooth in situ. Result: XTT and Glucose consumption assays confirmed viability throughout the culture period for all tissues investigated. Histological and histomorphometric analysis confirmed maintenance of tissue structure. Clear m

Published
2021

12. Dissemination of novel Tn7 family transposons carrying genes for synthesis and uptake of fimsbactin siderophores among Acinetobacter baumannii isolates.

Author

Hamidian, M, Hall, RM, Hamidian, M, and Hall, RM

Abstract

Acinetobacter baumannii is a successful opportunistic pathogen that can compete for iron under iron-limiting conditions. Here, large novel transposons that carry genes for synthesis and transport of the fimsbactin siderophores present in some A. baumannii strains were examined. Tn6171, originally found in the A. baumannii global clone 1 (GC1) lineage 2 isolate D36, includes tns genes encoding proteins related to the TnsA, TnsB, TnsC transposition proteins (50-59 % identity), TnsD targeting protein (43 % identity) and TnsE (31 % identity) of Tn7, and is found in the chromosome downstream of the glmS gene, the preferred location for Tn7, flanked by a 5 bp target site duplication. Tn6171 is bounded by 29 bp inverted repeats and, like Tn7, includes additional TnsB binding sites at each end. Tn6171 or minor variants were detected in the equivalent location in complete or draft genomes of several further A. baumannii isolates belonging to GC1 [sequence type (ST) 1, ST81, ST94, ST328, ST623, ST717], GC2 (ST2) and ST10. However, in some of these isolates the surrounding glmS region was clearly derived from a different A. baumannii lineage, indicating that the transposon may have been acquired by replacement of a segment of the chromosome. A recombination-free phylogeny revealed that there were several transposon acquisition events in GC1. The GC1 isolates were mainly lineage 2, but a potential third lineage was also detected. A related transposon, designated Tn6552, was detected in ATCC 17978 (ST437) and other ST437 isolates. However, the Tn6552 tnsD targeting gene was interrupted by an ISAba12, and Tn6552 is not downstream of glmS.

Published
2021

13. An outbreak of multiply antibiotic-resistant ST49:ST128:KL11:OCL8 Acinetobacter baumannii isolates at a Sydney hospital

Author

Hamidian, M, Ambrose, SJ, Blackwell, GA, Nigro, SJ, and Hall, RM

Subjects
0605 Microbiology, 1108 Medical Microbiology, 1115 Pharmacology and Pharmaceutical Sciences, Microbiology
Abstract

ObjectivesTo understand the acquisition of resistance genes by a non-GC1, non-GC2 Acinetobacter baumannii strain responsible for a 4 year outbreak at a Sydney hospital.MethodsRepresentative isolates were screened for resistance to antibiotics. Three were subjected to WGS using Illumina HiSeq. One genome was completed with MinION long reads. Resistance regions were compared with known sequences using bioinformatics.ResultsIsolates were resistant to third-generation cephalosporins, gentamicin and tobramycin, sulfamethoxazole and erythromycin. Sequenced isolates were ST49 (Institut Pasteur scheme) and ST128 (Oxford scheme) and carried KL11 at the capsule locus and OCL8 at the lipooligosaccharide outer core locus. The complete genome of isolate J9 revealed that the resistance genes were all in plasmids; pRAY* contained aadB, and a large plasmid, pJ9-3, contained sul2 and floR genes and a dif module containing the mph(E)-msr(E) macrolide resistance genes. Transposon Tn6168, consisting of a second copy of the chromosomal ampC gene region flanked by ISAba1s, confers resistance to third-generation cephalosporins. Tn6168 is located inside the mph(E)-msr(E) dif module. pJ9-3 includes a set of four dif modules and the orientation of the pdif sites, XerC-XerD or XerD-XerC, alternates. A large transposon, Tn6175, containing tniCABDE transposition genes and genes annotated as being involved in heavy metal metabolism, uptake or export was found in the comM gene. Other ST49:ST128:KL11:OCL8 genomes found in the GenBank WGS database carried Tn6175 but neither of the plasmids carrying the resistance genes.ConclusionsAn early carbapenem-susceptible A. baumannii outbreak recorded in Australia was caused by an unusual clone that had acquired plasmids carrying antibiotic resistance genes.

Published
2020

14. Identification of Acinetobacter baumannii loci for capsular polysaccharide (KL) and lipooligosaccharide outer core (OCL) synthesis in genome assemblies using curated reference databases compatible with Kaptive

Author

Wyres, KL, Cahill, SM, Holt, KE, Hall, RM, Kenyon, JJ, Wyres, KL, Cahill, SM, Holt, KE, Hall, RM, and Kenyon, JJ

Abstract

Multiply antibiotic-resistant Acinetobacter baumannii infections are a global public health concern and accurate tracking of the spread of specific lineages is needed. Variation in the composition and structure of capsular polysaccharide (CPS), a critical determinant of virulence and phage susceptibility, makes it an attractive epidemiological marker. The outer core (OC) of lipooligosaccharide also exhibits variation. To take better advantage of the untapped information available in whole genome sequences, we have created a curated reference database of 92 publicly available gene clusters at the locus encoding proteins responsible for biosynthesis and export of CPS (K locus), and a second database for 12 gene clusters at the locus for outer core biosynthesis (OC locus). Each entry has been assigned a unique KL or OCL number, and is fully annotated using a simple, transparent and standardized nomenclature. These databases are compatible with Kaptive, a tool for in silico typing of bacterial surface polysaccharide loci, and their utility was validated using (a) >630 assembled A. baumannii draft genomes for which the KL and OCL regions had been previously typed manually, and (b) 3386 A. baumannii genome assemblies downloaded from NCBI. Among the previously typed genomes, Kaptive was able to confidently assign KL and OCL types with 100 % accuracy. Among the genomes retrieved from NCBI, Kaptive detected known KL and OCL in 87 and 90 % of genomes, respectively, indicating that the majority of common KL and OCL types are captured within the databases; 13 of the 92 KL in the database were not detected in any publicly available whole genome assembly. The failure to assign a KL or OCL type may indicate incomplete or poor-quality genomes. However, further novel variants may remain to be documented. Combining outputs with multilocus sequence typing (Institut Pasteur scheme) revealed multiple KL and OCL types in collections of a single sequence type (ST) representing each of the

Published
2020

15. Corrigendum: Five decades of genome evolution in the globally distributed, extensively antibiotic-resistant acinetobacter baumannii global clone 1 (Microbial Genomics 2016, 2, 10.1099/mgen.0.000052)

Author

Holt, KE, Kenyon, JJ, Hamidian, M, Schultz, MB, Pickard, DJ, Dougan, G, and Hall, RM

Abstract

© 2019, Microbiology Society. All rights reserved. There was a change in the author names in the published article. The new list should read: Kathryn E. Holt1, Johanna J. Kenyon2, Mohammad Hamidian3, Mark B. Schultz4, Derek J. Pickard5, Gordon Dougan5, Ruth M. Hall3 1,Department of Biochemistry & Molecular Biology, The University of Melbourne, Royal Parade, Parkville, Victoria, Australia 2, School of Biomedical Science, Queensland University of Technology, Brisbane, Queensland, Australia 3, School of Molecular Bioscience, The University of Sydney, Sydney, New South Wales, Australia 4, Centre for Systems Genomics, The University of Melbourne, Parkville, Victoria, Australia 5, Wellcome Sanger Trust Institute, Hinxton, Cambridge, UK The author apologizes for any inconvenience caused.

Published
2019

16. Neural cell responses to wear debris from metal-on-metal total disc replacements

Author

Lee, H, Phillips, JB, Hall, RM, and Tipper, JL

Subjects
Orthopedics
Abstract

© 2019, The Author(s). Abstract: Total disc replacements, comprising all-metal articulations, are compromised by wear and particle production. Metallic wear debris and ions trigger a range of biological responses including inflammation, genotoxicity, cytotoxicity, hypersensitivity and pseudotumour formation, therefore we hypothesise that, due to proximity to the spinal cord, glial cells may be adversely affected. Methods: Clinically relevant cobalt chrome (CoCr) and stainless steel (SS) wear particles were generated using a six-station pin-on-plate wear simulator. The effects of metallic particles (0.5–50 μm3 debris per cell) and metal ions on glial cell viability, cellular activity (glial fibrillary acidic protein (GFAP) expression) and DNA integrity were investigated in 2D and 3D culture using live/dead, immunocytochemistry and a comet assay, respectively. Results: CoCr wear particles and ions caused significant reductions in glial cell viability in both 2D and 3D culture systems. Stainless steel particles did not affect glial cell viability or astrocyte activation. In contrast, ions released from SS caused significant reductions in glial cell viability, an effect that was especially noticeable when astrocytes were cultured in isolation without microglia. DNA damage was observed in both cell types and with both biomaterials tested. CoCr wear particles had a dose-dependent effect on astrocyte activation, measured through expression of GFAP. Conclusions: The results from this study suggest that microglia influence the effects that metal particles have on astrocytes, that SS ions and particles play a role in the adverse effects observed and that SS is a less toxic biomaterial than CoCr alloy for use in spinal devices. Graphic abstract: These slides can be retrieved under Electronic Supplementary Material.[Figure not available: see fulltext.].

Published
2019

17. Evolution of a clade of Acinetobacter baumannii global clone 1, lineage 1 via acquisition of carbapenem- and aminoglycoside-resistance genes and dispersion of ISAba1

Author

Hamidian, M, Hawkey, J, Wick, R, Holt, KE, Hall, RM, Hamidian, M, Hawkey, J, Wick, R, Holt, KE, and Hall, RM

Abstract

Resistance to carbapenem and aminoglycoside antibiotics is a critical problem in Acinetobacter baumannii, particularly when genes conferring resistance are acquired by multiply or extensively resistant members of successful globally distributed clonal complexes, such as global clone 1 (GC1) . Here, we investigate the evolution of an expanding clade of lineage 1 of the GC1 complex via repeated acquisition of carbapenem- and aminoglycoside-resistance genes. Lineage 1 arose in the late 1970s and the Tn6168/OCL3 clade arose in the late 1990s from an ancestor that had already acquired resistance to third-generation cephalosporins and fluoroquinolones. Between 2000 and 2002, two distinct subclades have emerged, and they are distinguishable via the presence of an integrated phage genome in subclade 1 and AbaR4 (carrying the oxa23 carbapenem-resistance gene in Tn2006) at a specific chromosomal location in subclade 2. Part or all of the original resistance gene cluster in the chromosomally located AbaR3 has been lost from some isolates, but plasmids carrying alternate resistance genes have been gained. In one group in subclade 2, the chromosomally located AbGRI3, carrying the armA aminoglycoside-resistance gene, has been acquired from a GC2 isolate and incorporated via homologous recombination. ISAba1 entered the common ancestor of this clade as part of the cephalosporin-resistance transposon Tn6168 and has dispersed differently in each subclade. Members of subclade 1 share an ISAba1 in one specific position in the chromosome and in subclade 2 two different ISAba1 locations are shared. Further shared ISAba1 locations distinguish further divisions, potentially providing simple markers for epidemiological studies.

Published
2019

18. Complete Genome Sequence of A388, an Antibiotic-Resistant Acinetobacter baumannii Global Clone 1 Isolate from Greece

Author

Baltrus, DA, Hamidian, M, Wick, RR, Judd, LM, Holt, KE, Hall, RM, Baltrus, DA, Hamidian, M, Wick, RR, Judd, LM, Holt, KE, and Hall, RM

Abstract

Acinetobacter baumannii isolate A388, recovered in Greece in 2002, represents a distinct antibiotic-resistant lineage of global clone 1 (GC1) producing the OXA-58 carbapenemase. We present the complete 4.332-Mbp genome sequence (chromosome plus 1 plasmid), generated by combining long (MinION) and short (Illumina HiSeq) read sequencing data.

Published
2019

19. Insights from the revised complete genome sequences of Acinetobacter baumannii strains AB307-0294 and ACICU belonging to global clones 1 and 2

Author

Hamidian, M, Wick, RR, Hartstein, RM, Judd, LM, Holt, KE, Hall, RM, Hamidian, M, Wick, RR, Hartstein, RM, Judd, LM, Holt, KE, and Hall, RM

Abstract

The Acinetobacter baumannii global clone 1 isolate AB307-0294, recovered in the USA in 1994, and the global clone 2 (GC2) isolate ACICU, isolated in 2005 in Italy, were among the first A. baumannii isolates to be completely sequenced. AB307-0294 is susceptible to most antibiotics and has been used in many genetic studies, and ACICU belongs to a rare GC2 lineage. The complete genome sequences, originally determined using 454 pyrosequencing technology, which is known to generate sequencing errors, were re-determined using Illumina MiSeq and MinION (Oxford Nanopore Technologies) technologies and a hybrid assembly generated using Unicycler. Comparison of the resulting new high-quality genomes to the earlier 454-sequenced versions identified a large number of nucleotide differences affecting protein coding sequence (CDS) features, and allowed the sequences of the long and highly repetitive bap and blp1 genes to be properly resolved for the first time in ACICU. Comparisons of the annotations of the original and revised genomes revealed a large number of differences in the protein CDS features, underlining the impact of sequence errors on protein sequence predictions and core gene determination. On average, 400 predicted CDSs were longer or shorter in the revised genomes and about 200 CDS features were no longer present.

Published
2019

21. Complete Genome Sequence of A388, an Antibiotic-Resistant Acinetobacter baumannii Global Clone 1 Isolate from Greece

Author

Hamidian, M, Wick, RR, Judd, LM, Holt, KE, Hall, RM, Hamidian, M, Wick, RR, Judd, LM, Holt, KE, and Hall, RM

Abstract

Copyright © 2019 Hamidian et al. Acinetobacter baumannii isolate A388, recovered in Greece in 2002, represents a distinct antibiotic-resistant lineage of global clone 1 (GC1) producing the OXA-58 carbapenemase. We present the complete 4.332-Mbp genome sequence (chromosome plus 1 plasmid), generated by combining long (MinION) and short (Illumina HiSeq) read sequencing data.

Published
2019

24. Complete Genome Sequence of WM99c, an Antibiotic-Resistant Acinetobacter baumannii Global Clone 2 (GC2) Strain Representing an Australian GC2 Lineage

Author

Newton, ILG, Nigro, SJ, Wick, R, Holt, KE, Hall, RM, Newton, ILG, Nigro, SJ, Wick, R, Holt, KE, and Hall, RM

Abstract

The extensively antibiotic-resistant Acinetobacter baumannii isolate WM99c recovered in Sydney, Australia, in 1999 is an early representative of a distinct lineage of global clone 2 (GC2) seen on the east coast of Australia. We present the complete 4.121-Mbp genome sequence (chromosome plus 2 plasmids), generated via long-read sequencing (PacBio).

Published
2018

25. Development and optimisation data of a tissue digestion method for the isolation of orthopaedic wear particles

Author

Patel, J, Lal, S, Wilshaw, SP, Hall, RM, Tipper, JL, Patel, J, Lal, S, Wilshaw, SP, Hall, RM, and Tipper, JL

Abstract

© 2018 The Authors The data contained within this article relate to several enzymatic tissue digestion experiments which were performed to produce an optimised protocol for the digestion of tissue samples. The digestion experiments involved a total of four different digestion protocols. The first protocol involved digestion with proteinase K, without the use of glycine. The second protocol involved digestion with proteinase K in the presence of glycine. The third protocol consisted of proteinase K digestion in the presence of glycine, with more frequent enzyme replenishment. The final protocol was similar to the third protocol but included a papain digestion stage prior to digestion with proteinase K. The data contained within this article are photographs of tissue samples which were captured at key stages of the four protocols and written descriptions based on visual observation of the tissue samples, which document the appearance of the tissue digests.

Published
2018

26. Validation of a novel particle isolation procedure using particle doped tissue samples

Author

Patel, J, Lal, S, Wilshaw, SP, Hall, RM, Tipper, JL, Patel, J, Lal, S, Wilshaw, SP, Hall, RM, and Tipper, JL

Abstract

© 2018 The Authors A novel particle isolation method for tissue samples was developed and tested using particle-doped peri-articular tissues from ovine cadavers. This enabled sensitivity of the isolation technique to be established by doping tissue samples of 0.25 g with very low particle volumes of 2.5 µm3 per sample. Image analysis was used to verify that the method caused no changes to particle size or morphologies.

Published
2018

27. Recovery of low volumes of wear debris from rat stifle joint tissues using a novel particle isolation method

Author

Patel, J, Lal, S, Nuss, K, Wilshaw, SP, von Rechenberg, B, Hall, RM, Tipper, JL, Patel, J, Lal, S, Nuss, K, Wilshaw, SP, von Rechenberg, B, Hall, RM, and Tipper, JL

Abstract

© 2018 Acta Materialia Inc. Less than optimal particle isolation techniques have impeded analysis of orthopaedic wear debris in vivo. The purpose of this research was to develop and test an improved method for particle isolation from tissue. A volume of 0.018 mm 3 of clinically relevant CoCrMo, Ti-6Al-4V or Si 3 N 4 particles was injected into rat stifle joints for seven days of in vivo exposure. Following sacrifice, particles were located within tissues using histology. The particles were recovered by enzymatic digestion of periarticular tissue with papain and proteinase K, followed by ultracentrifugation using a sodium polytungstate density gradient. Particles were recovered from all samples, observed using SEM and the particle composition was verified using EDX, which demonstrated that all isolated particles were free from contamination. Particle size, aspect ratio and circularity were measured using image analysis software. There were no significant changes to the measured parameters of CoCrMo or Si 3 N 4 particles before and after the recovery process (KS tests, p > 0.05). Titanium particles were too few before and after isolation to analyse statistically, though size and morphologies were similar. Overall the method demonstrated a significant improvement to current particle isolation methods from tissue in terms of sensitivity and efficacy at removal of protein, and has the potential to be used for the isolation of ultra-low wearing total joint replacement materials from periprosthetic tissues. Statement of Significance: This research presents a novel method for the isolation of wear particles from tissue. Methodology outlined in this work would be a valuable resource for future researchers wishing to isolate particles from tissues, either as part of preclinical testing, or from explants from patients for diagnostic purposes. It is increasingly recognised that analysis of wear particles is critical to evaluating the safety of an orthopaedic device.

Published
2018

28. Recovery rate data for silicon nitride nanoparticle isolation using sodium polytungstate density gradients

Author

Patel, J, Lal, S, Wilshaw, SP, Hall, RM, Tipper, JL, Patel, J, Lal, S, Wilshaw, SP, Hall, RM, and Tipper, JL

Abstract

© 2018 The Authors The average recovery rate of silicon nitride nanoparticles isolated from serum using the method detailed in previous article “A novel method for isolation and recovery of ceramic nanoparticles and metal wear debris from serum lubricants at ultra-low wear rate” (Lal et al., 2016) [1] was tested gravimetrically by weighing particles doped into serum before and after the isolation process. An average recovery rate of approximately 89.6% (± 7.1 SD) was achieved.

Published
2018

29. Genetic structure of four plasmids found in Acinetobacter baumannii isolate D36 belonging to lineage 2 of global clone 1

Author

Hamidian, M, Hall, RM, Hamidian, M, and Hall, RM

Abstract

© 2018 Hamidian, Hall.This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Four plasmids ranging in size from 4.7 to 44.7 kb found in the extensively antibiotic resistant Acinetobacter baumannii isolate D36 that belongs to lineage 2 of global clone 1 were examined. D36 includes two cryptic plasmids and two carrying antibiotic resistance genes. The smallest plasmid pD36-1 (4.7 kb) carries no resistance genes but includes mobA and mobC mobilisation genes related to those found in pRAY∗(pD36-2, 6,078 bp) that also carries the aadB gentamicin, kanamycin and tobramycin resistance gene cassette. These two plasmids do not encode a Rep protein. Plasmid pRAY∗ was found to be mobilised at high frequency by the large conjugative plasmid pA297-3 but a pRAY∗ derivative lacking the mobA and mobC genes was not. The two larger plasmids, pD36-3 and pD36-4, encode Rep3 family proteins (Pfam1051). The cryptic plasmid pD36-3 (6.2 kb) has RepAci1 and pD36-4 (44.7 kb) encodes two novel Rep3 family proteins suggesting a co-integrate. Plasmid pD36-4 includes the sul2 sulfonamide resistance gene, the aphA1a kanamycin/neomycin resistance gene in Tn4352::ISAba1 and a mer module in a hybrid Tn501/Tn1696 transposon conferring resistance to mercuric ions. New examples of dif modules flanked by pdif sites (XerC-XerD binding sites) that are part of many A. baumannii plasmids were also identified in pD36-3 and pD36-4 which carry three and two dif modules, respectively. Homologs of three dif modules, the sup sulphate permease module in pD36-3, and of the abkAB toxin-antitoxin module and the orf module in pD36-4, were found in different contexts in diverse Acinetobacter plasmids, consistent with module mobility. A novel insertion sequence named ISAba32 found next to the pdif site in the abkAB dif module is related to mem

Published
2018

30. The AbaR antibiotic resistance islands found in Acinetobacter baumannii global clone 1 – Structure, origin and evolution

Author

Hamidian, M, Hall, RM, Hamidian, M, and Hall, RM

Abstract

© 2018 Elsevier Ltd In multiply resistant Acinetobacter baumannii, complex transposons located in the chromosomal comM gene carry antibiotic and heavy metal resistance determinants. For one type, known collectively as AbaR, the ancestral form, AbaR0, entered a member of global clone 1 (GC1) in the mid 1970s and continued to evolve in situ forming many variants. In AbaR0, antibiotic and mercuric ion resistance genes are located between copies of a cadmium-zinc resistance transposon, Tn6018, and this composite transposon is in a class III transposon, Tn6019, carrying arsenate/arsenite resistance genes and five tni transposition genes. The antibiotic resistance genes in the AbaR0 and derived AbaR3 configurations are aphA1b, blaTEM, catA1, sul1, tetA(A), and cassette-associated aacC1 and aadA1 genes. These genes are in a specific arrangement of fragments from well-known transposons, e.g. Tn1, Tn1721, Tn1696 and Tn2670, that arose in an IncM1 plasmid. All known GC1 lineage 1 isolates carry AbaR0 or AbaR3, which arose around 1990, or a variant derived from one of them. Variants arose via deletions caused by one of three internal IS26s, by recombination between duplicate copies of sul1 or Tn6018, or by gene cassette addition or replacement. A few GC2 isolates also carry an AbaR island with different cassette-associated genes, aacA4 and oxa20.

Published
2018

31. pIP40a, a type 1 IncC plasmid from 1969 carries the integrative element GIsul2 and a novel class II mercury resistance transposon

Author

Harmer, CJ, Hamidian, M, and Hall, RM

Subjects
DNA, Bacterial, Base Sequence, Microbial Sensitivity Tests, Sequence Analysis, DNA, Microbiology, Anti-Bacterial Agents, Bacterial Proteins, Drug Resistance, Multiple, Bacterial, Pseudomonas aeruginosa, Mercuric Chloride, Escherichia coli, DNA Transposable Elements, Phylogeny, Conserved Sequence, Plasmids
Abstract

© 2017 Elsevier Inc. The 167.5 kb sequence of the conjugative IncC plasmid pIP40a, isolated from a Pseudomonas aeruginosa in 1969, was analysed. pIP40a confers resistance to kanamycin, neomycin, ampicillin, sulphonamides and mercuric ions, and several insertions in a type 1 IncC backbone were found, including copies of IS3, Tn1000 and a novel mercury resistance transposon, Tn6182. The antibiotic resistance genes were in two locations. Tn6023, containing the aphA1 kanamycin and neomycin resistance gene, is in a partial copy of Tn1/Tn2/Tn3 (blaTEM, ampicillin resistance) in the kfrA gene, and the sul2 sulphonamide resistance gene is in the integrative element GIsul2 in the position of ARI-B islands. The 11.5 kb class II transposon Tn6182 is only distantly related to other class II transposons, with at most 33% identity between the TnpA of Tn6182 and TnpA of other group members. In addition, the inverted repeats are 37 bp rather than 38 bp, and the likely resolution enzyme is a tyrosine recombinase (TnpI). Re-annotation of GIsul2 revealed genes predicted to confer resistance to arsenate and arsenite, but resistance was not detected. The location of GIsul2 confirms it as the progenitor of the ARI-B configurations seen in many IncC plasmids isolated more recently. However, GIsul2 has integrated at the same site in type 1 and type 2 IncC plasmids, indicating that it targets this site. Analysis of the distribution of GIsul2 revealed that it in addition to its chromosomal integration site at the 3′-end of the guaA gene, it has also integrated into other plasmids, increasing its mobility.

Published
2017

33. Interaction of micron and nano-sized particles with cells of the dura mater

Author

Papageorgiou, I, Marsh, R, Tipper, JL, Hall, RM, Fisher, J, and Ingham, E

Subjects
musculoskeletal diseases, Total Disc Replacement, integumentary system, Swine, Biomedical Engineering, phagocytosis, Epithelial Cells, Fibroblasts, Original Research Reports, 0903 Biomedical Engineering, 0912 Materials Engineering, meninges, Animals, Nanoparticles, Dura Mater, Particle Size
Abstract

Intervertebral total disc replacements (TDR) are used in the treatment of degenerative spinal disc disease. There are, however, concerns that they may be subject to long-term failure due to wear. The adverse effects of TDR wear have the potential to manifest in the dura mater and surrounding tissues. The aim of this study was to investigate the physiological structure of the dura mater, isolate the resident dural epithelial and stromal cells and analyse the capacity of these cells to internalise model polymer particles. The porcine dura mater was a collagen-rich structure encompassing regularly arranged fibroblastic cells within an outermost epithelial cell layer. The isolated dural epithelial cells had endothelial cell characteristics (positive for von Willebrand factor, CD31, E-cadherin and desmoplakin) and barrier functionality whereas the fibroblastic cells were positive for collagen I and III, tenascin and actin. The capacity of the dural cells to take up model particles was dependent on particle size. Nanometer sized particles readily penetrated both types of cells. However, dural fibroblasts engulfed micron-sized particles at a much higher rate than dural epithelial cells. The study suggested that dural epithelial cells may offer some barrier to the penetration of micron-sized particles but not nanometer sized particles. © 2014 The Authors. Journal of Biomedical Materials Research Part B: Applied Biomaterials Published by Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 102B: 1496–1505, 2014.

Published
2014

34. Variants of AbGRI3 carrying the armA gene in extensively antibiotic-resistant Acinetobacter baumannii from Singapore

Author

Blackwell, GA, Holt, KE, Bentley, SD, Hsu, LY, Hall, RM, Blackwell, GA, Holt, KE, Bentley, SD, Hsu, LY, and Hall, RM

Abstract

OBJECTIVES: To investigate the context of the ribosomal RNA methyltransferase gene armA in carbapenem-resistant global clone 2 (GC2) Acinetobacter baumannii isolates from Singapore. METHODS: Antibiotic resistance was determined using disc diffusion; PCR was used to identify resistance genes. Whole genome sequences were determined and contigs were assembled and ordered using PCR. Resistance regions in unsequenced isolates were mapped. RESULTS: Fifteen GC2 A. baumannii isolated at Singapore General Hospital over the period 2004-11 and found to carry the armA gene were resistant to carbapenems, third-generation cephalosporins, fluoroquinolones and most aminoglycosides. In these isolates, the armA gene was located in a third chromosomal resistance island, previously designated AbGRI3. In four isolates, armA was in a 19 kb IS 26 -bounded transposon, designated Tn 6180 . In three of them, a 2.7 kb transposon carrying the aphA1b gene, designated Tn 6179 , was found adjacent to and sharing an IS 26 with Tn 6180. However, in these four isolates a 3.1 kb segment of the adjacent chromosomal DNA has been inverted by an IS 26 -mediated event. The remaining 11 isolates all contained a derivative of Tn 6180 that had lost part of the central segment and only one retained Tn 6179 . The chromosomal inversion was present in four of these and in seven the deletion extended beyond the inversion into adjacent chromosomal DNA. AbGRI3 forms were found in available GC2 sequences carrying armA. CONCLUSIONS: In GC2 A. baumannii , the armA gene is located in various forms of a third genomic resistance island named AbGRI3. An aphA1b transposon is variably present in AbGRI3.

Published
2017

36. Concentration and size distribution data of silicon nitride nanoparticles measured using nanoparticle tracking analysis.

Author

Lal, S, Hall, RM, Tipper, JL, Lal, S, Hall, RM, and Tipper, JL

Abstract

This article refers to the paper "A novel method for isolation and recovery of ceramic nanoparticles and metal wear debris from serum lubricants at ultra-low wear rates" (Lal et al., 2016) [1] and describes the concentration and size distribution data of silicon nitride nanoparticles measured using nanoparticle tracking analysis (NTA). A NanoSight LM10 instrument was used to capture the video data of silicon nitride nanoparticles moving under Brownian motion in the water. The video data was then analyzed using the NanoSight NTA software. This article also describes a methodology for calculating the percentage recovery of a nanoparticle isolation process.

Published
2017

37. RCH51, a multiply antibiotic-resistant Acinetobacter baumannii ST103IP isolate, carries resistance genes in three plasmids, including a novel potentially conjugative plasmid carrying oxa235 in transposon Tn6252

Author

Hamidian, M, Nigro, SJ, Hartstein, RM, Hall, RM, Hamidian, M, Nigro, SJ, Hartstein, RM, and Hall, RM

Abstract

© The Author 2017. Published by Oxford University Press on behalf of the British Society for Antimicrobial Chemotherapy. All rights reserved. Objectives: To determine the identity and context of genes conferring antibiotic resistance in a sporadic multiply antibiotic-resistant Acinetobacter baumannii recovered at Royal Children's Hospital, Brisbane. Methods: The antibiotic resistance phenotype for 23 antibiotics was determined using disc diffusion or MIC determination. The whole-genome sequence of RCH51 was determined using the Illumina HiSeq platform. Antibiotic resistance determinants were identified using ResFinder. Plasmids were recovered by transformation. Results: Isolate RCH51 belongs to the uncommon STs ST103IP (7-3-2-1-7-1-4) and ST514OX (1-52-29-28-18- 114-7). It was found to be resistant to sulfamethoxazole, tetracycline, gentamicin, tobramycin and kanamycin and also exhibited reduced susceptibility to imipenem(MIC 2 mg/L) and meropenem (MIC 6 mg/L). RCH51 carries the oxa235, sul2, floR, aadB and tet39 resistance genes, all located on plasmids. The largest of the three plasmids, pRCH51-3, is 52 789 bp and carries oxa235 in the ISAba1-bounded transposon Tn6252, as well as sul2 and floR. pRCH51-3 represents a new A. baumannii plasmid family that is potentially conjugative as it contains several genes predicted to encode transfer functions. However, conjugation of pRCH51-3 was not detected. The aadB and tet39 resistance genes were each found in small plasmids identical to the known plasmids pRAY*-v1 and pRCH52-1, respectively. Conclusions: The resistance gene complement of RCH51 was found in three plasmids. pRCH51-3, which carries the oxa235, sul2 and floR resistance genes, represents a new, potentially conjugative A. baumannii plasmid type.

Published
2017

39. Corrected genome sequence of Acinetobacter baumannii strain AB0057, an antibiotic-resistant isolate from lineage 1 of global clone 1

Author

Hamidian, M, Venepally, P, Hall, RM, Adams, MD, Hamidian, M, Venepally, P, Hall, RM, and Adams, MD

Abstract

© 2017 Hamidian et al. Extensively antibiotic-resistant Acinetobacter baumannii isolate AB0057 recovered in the United States in 2004 was one of the first global clone 1 isolates tobe completely sequenced. Here, the complete 4.05-Mb genome sequence (chromosome and one plasmid) has been revised using Illumina HiSeq data and targeted sequencing of PCR products.

Published
2017

42. Repeated local emergence of carbapenem-resistant Acinetobacter baumannii in a single hospital ward

Author

Schultz, MB, Duy, PT, Nhu, TDH, Wick, RR, Ingle, DJ, Hawkey, J, Edwards, DJ, Kenyon, JJ, Nguyen, PHL, Campbell, JI, Thwaites, G, Nguyen, TKN, Hall, RM, Fournier-Level, A, Baker, S, Holt, KE, Schultz, MB, Duy, PT, Nhu, TDH, Wick, RR, Ingle, DJ, Hawkey, J, Edwards, DJ, Kenyon, JJ, Nguyen, PHL, Campbell, JI, Thwaites, G, Nguyen, TKN, Hall, RM, Fournier-Level, A, Baker, S, and Holt, KE

Abstract

We recently reported a dramatic increase in the prevalence of carbapenem-resistant Acinetobacter baumannii infections in the intensive care unit (ICU) of a Vietnamese hospital. This upsurge was associated with a specific oxa23-positive clone that was identified by multilocus VNTR analysis. Here, we used whole-genome sequence analysis to dissect the emergence of carbapenem-resistant A. baumannii causing ventilator-associated pneumonia (VAP) in the ICU during 2009-2012. To provide historical context and distinguish microevolution from strain introduction, we compared these genomes with those of A. baumannii asymptomatic carriage and VAP isolates from this same ICU collected during 2003-2007. We identified diverse lineages co-circulating over many years. Carbapenem resistance was associated with the presence of oxa23, oxa40, oxa58 and ndm1 genes in multiple lineages. The majority of resistant isolates were oxa23-positive global clone GC2; fine-scale phylogenomic analysis revealed five distinct GC2 sublineages within the ICU that had evolved locally via independent chromosomal insertions of oxa23 transposons. The increase in infections caused by carbapenem-resistant A. baumannii was associated with transposon-mediated transmission of a carbapenemase gene, rather than clonal expansion or spread of a carbapenemase-harbouring plasmid. Additionally, we found evidence of homologous recombination creating diversity within the local GC2 population, including several events resulting in replacement of the capsule locus. We identified likely donors of the imported capsule locus sequences amongst the A. baumannii isolated on the same ward, suggesting that diversification was largely facilitated via reassortment and sharing of genetic material within the localized A. baumannii population.

Published
2016

43. A large conjugative Acinetobacter baumannii plasmid carrying the sul2 sulphonamide and strAB streptomycin resistance genes.

Author

Hamidian, M, Ambrose, SJ, Hall, RM, Hamidian, M, Ambrose, SJ, and Hall, RM

Abstract

Acinetobacter baumannii is an important nosocomial pathogen that often complicates treatment because of its high level of resistance to antibiotics. Though plasmids can potentially introduce various genes into bacterial strains, compared to other Gram-negative bacteria, information about the unique A. baumannii plasmid repertoire is limited. Here, whole genome sequence data was used to determine the plasmid content of strain A297 (RUH875), the reference strain for the globally disseminated multiply resistant A. baumannii clone, global clone 1(GC1). A297 contains three plasmids. Two known plasmids were present; one, pA297-1 (pRAY*), carries the aadB gentamicin, kanamycin and tobramycin resistance gene and another is an 8.7kb cryptic plasmid often found in GC1 isolates. The third plasmid, pA297-3, is 200kb and carries the sul2 sulphonamide resistance gene and strAB streptomycin resistance gene within Tn6172 and a mer mercuric ion resistance module elsewhere. pA297-3 transferred sulphonamide, streptomycin and mercuric ion resistance at high frequency to a susceptible A. baumannii recipient, and contains several genes potentially involved in conjugative transfer. However, a relaxase gene was not found. It also includes several genes encoding proteins involved in DNA metabolism such as partitioning. However, a gene encoding a replication initiation protein could not be found. pA297-3 includes two copies of a Miniature Inverted-Repeat Transposable Element (MITE), named MITE-297, bracketing a 77.5kb fragment, which contains several IS and the mer module. Several plasmids related to but smaller than pA297-3 were found in the GenBank nucleotide database. They were found in different A. baumannii clones and are wide spread. They all contain either Tn6172 or a variant in the same position in the backbone as Tn6172 in pA297-3. Some related plasmids have lost the segment between the MITE-297 copies and retain only one MITE-297. Others have segments of various lengths between two

Published
2016

44. A novel method for isolation and recovery of ceramic nanoparticles and metal wear debris from serum lubricants at ultra-low wear rates.

Author

Lal, S, Hall, RM, Tipper, JL, Lal, S, Hall, RM, and Tipper, JL

Abstract

UNLABELLED: Ceramics have been used to deliver significant improvements in the wear properties of orthopaedic bearing materials, which has made it challenging to isolate wear debris from simulator lubricants. Ceramics such as silicon nitride, as well as ceramic-like surface coatings on metal substrates have been explored as potential alternatives to conventional implant materials. Current isolation methods were designed for isolating conventional metal, UHMWPE and ceramic wear debris. In this paper, we describe a methodology for isolation and recovery of ceramic or ceramic-like coating particles and metal wear particles from serum lubricants under ultra-low and low wear performance. Enzymatic digestion was used to digest the serum proteins and sodium polytungstate was used as a novel density gradient medium to isolate particles from proteins and other contaminants by ultracentrifugation. This method demonstrated over 80% recovery of particles and did not alter the size or morphology of ceramic and metal particles during the isolation process. STATEMENT OF SIGNIFICANCE: Improvements in resistance to wear and mechanical damage of the articulating surfaces have a large influence on longevity and reliability of joint replacement devices. Modern ceramics have demonstrated ultra-low wear rates for hard-on-hard total hip replacements. Generation of very low concentrations of wear debris in simulator lubricants has made it challenging to isolate the particles for characterisation and further analysis. We have introduced a novel method to isolate ceramic and metal particles from serum-based lubricants using enzymatic digestion and novel sodium polytungstate gradients. This is the first study to demonstrate the recovery of ceramic and metal particles from serum lubricants at lowest detectable in vitro wear rates reported in literature.

Published
2016

45. IncM Plasmid R1215 Is the Source of Chromosomally Located Regions Containing Multiple Antibiotic Resistance Genes in the Globally Disseminated Acinetobacter baumannii GC1 and GC2 Clones.

Author

Blackwell, GA, Hamidian, M, Hall, RM, Blackwell, GA, Hamidian, M, and Hall, RM

Abstract

Clear similarities between antibiotic resistance islands in the chromosomes of extensively antibiotic-resistant isolates from the two dominant, globally distributed Acinetobacter baumannii clones, GC1 and GC2, suggest a common origin. A close relative of the likely progenitor of both of these regions was found in R1215, a conjugative IncM plasmid from a Serratia marcescens strain isolated prior to 1980. The 37.8-kb resistance region in R1215 lies within the mucB gene and includes aacC1, aadA1, aphA1b, bla TEM, catA1, sul1, and tetA(A), genes that confer resistance to gentamicin, streptomycin and spectinomycin, kanamycin and neomycin, ampicillin, chloramphenicol, sulfamethoxazole, and tetracycline, respectively. The backbone of this region is derived from Tn1721 and is interrupted by a hybrid Tn2670 (Tn21)-Tn1696-type transposon, Tn6020, and an incomplete Tn1. After minor rearrangements, this R1215 resistance island can generate AbGRI2-0*, the predicted earliest form of the IS26-bounded AbGRI2-type resistance island of GC2 isolates, and to the multiple antibiotic resistance region (MARR) of AbaR0, the precursor of this region in AbaR-type resistance islands in the GC1 group. A 29.9-kb circle excised by IS26 has been inserted into the A. baumannii chromosome to generate AbGRI2-0*. To create the MARR of AbaR0, a different circular form, again generated by IS26 from an R1215 resistance region variant, has been opened at a different point by recombination with a copy of the sul1 gene already present in the AbaR precursor. Recent IncM plasmids related to R1215 have a variant resistance island containing a bla SHV gene in the same location. IMPORTANCE Two lineages of extensively antibiotic-resistant A. baumannii currently plaguing modern medicine each acquired resistance to all of the original antibiotics (ampicillin, tetracycline, kanamycin, and sulfonamides) by the end of the 1970s and then became resistant to antibiotics from newer families after they were introduced in

Published
2016

46. Destabilization of IncA and IncC plasmids by SGI1 and SGI2 type Salmonella genomic islands.

Author

Harmer, CJ, Hamidian, M, Ambrose, SJ, Hall, RM, Harmer, CJ, Hamidian, M, Ambrose, SJ, and Hall, RM

Abstract

Both the Salmonella genomic islands (SGI) and the conjugative IncC plasmids are known to contribute substantially to the acquisition of resistance to multiple antibiotics, and plasmids in the A/C group are known to mobilize the Salmonella genomic island SGI1, which also carries multiple antibiotic resistance genes. Plasmid pRMH760 (IncC; A/C2) was shown to mobilize SGI1 variants SGI1-I, SGI1-F, SGI1-K and SGI2 from Salmonella enterica to Escherichia coli where it was integrated at the preferred location, at the end of the trmE (thdF) gene. The plasmid was transferred at a similar frequency. However, we observed that co-transfer of the SGI and the plasmid was rarer. In E. coli to E. coli transfer, the frequency of transfer of the IncC plasmid pRMH760 was at least 1000-fold lower when the donor carried SGI1-I or SGI1-K, indicating that the SGI suppresses transfer of the plasmid. In addition, pRMH760 was rapidly lost from both E. coli and S. enterica strains that also carried SGI1-I, SGI1-F or SGI2. However, plasmid loss was not seen when the SGI1 variant was SGI1-K, which lacks two segments of the SGI1 backbone. The complete sequence of the SGI1-I and SGI1-F were determined and SGI1-K also carries two single base substitutions relative to SGI1-I. The IncA (A/C1) plasmid RA1 was also shown to mobilize SGI2-A and though there are significant differences between the backbones of IncA and IncC plasmids, RA1 was also rapidly lost when SGI2-A was present in the same cell. We conclude that there are multiple interactions, both cooperative and antagonistic, between an IncA or IncC plasmid and the SGI1 and SGI2 family genomic islands.

Published
2016

50. Genome Sequence of Acinetobacter baumannii Strain D36, an Antibiotic-Resistant Isolate from Lineage 2 of Global Clone

Author

Hamidian, M, Hawkey, J, Holt, KE, Hall, RM, Hamidian, M, Hawkey, J, Holt, KE, and Hall, RM

Abstract

Multiply antibiotic-resistant Acinetobacter baumannii isolate D36 was recovered in Australia in 2008 and belongs to a distinct lineage of global clone 1 (GC1). Here, we present the complete 4.13 Mbp genome sequence (chromosome plus 4 plasmids), generated via long read sequencing (PacBio).

Published
2015

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