The unconstrained evolution of fast and efficient antibiotic-resistant bacterial genomes

Reding, Carlos; Hewlett, Mark; Duxbury, Sarah J. N.; Gori, Fabio; Gudelj, Ivana; Beardmore, Robert

doi:10.1038/s41559-016-0050

Cited by 66 publications

(78 citation statements)

References 38 publications

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“…The distribution of non-transmissible plasmids with respect to their size is multimodal [12], and those around 5kb in size are the second most frequent type. pGW155B also harbours the tetracycline resistance gene tet (36), a ribosome-protection type resistance protein [37] that I used as advantageous, selectable trait. Importantly each construct is tagged with different fluorescence proteins, that I use to identify them in mixed culture conditions.…”

Section: Resultsmentioning

confidence: 99%

“…Despite their lower growth rate, the construct R, harbouring pGW155B, attained larger population sizes during the stationary phase compared to S. Optical density data reports similar dynamics ( Figure S1), so the larger population size is likely caused by an increase in cell number as Figure S2 illustrates. Thus, I used this parameter-population size in the equilibrium, K -to estimate the biomass yield (y) of both strains, a proxy for metabolic efficiency defined as y = K/glc [36,38], where glc is the supply of glucose. This metric suggests the construct R is more efficient than S, despite their slower growth rate (y S = 0.222 ± 0.004 normalised relative fluorescence units (nRFU) per mg of glucose in construct S, for y R = 0.305 ± 0.013 nRFU per mg of glucose in construct R; mean ± standard error with 8 replicates; Mann-Whitney U-test p = 3.108 × 10 −4 , ranksum = 37; Figure 1B).…”

Section: Resultsmentioning

confidence: 99%

“…Crucially, growth curves can provide insight into metabolic changes undergoing in bacteria. The transition between efficient and inefficient glucose metabolism, for example, can be detected by analysing them [36]. Therefore, to study the persistence of non-transmissible plasmids I sought changes in the growth curves of two strains of Escherichia coli MC4100 (see methods); one of which (R) bears the plasmid pGW155B [37].…”

Section: Resultsmentioning

confidence: 99%

“…I inoculated a 96-well microtitre plate containing 150µg/mL of supplemented M9 media with a mixture of two overnight cultures, one of E. coli GB(c) and another of E. coli Wyl ( Figure S2). The overnight culture for GB(c) was supplemented with 100ng/mL of tetracycline to preserve the plasmid pGW155B carrying tet (36) [59], centrifuged and removed prior adding to the microtitre plate. I incubated the plate at 30 o C in a commercial spectrophotometer and measured the optical density of each well at 600nm (OD 600 ), yellow florescence for the S strain (YFP excitation at 505nm, emission at 540nm), and cyan fluorescence for the R strain (CFP at 430nm/480nm) every 20min for 24h.…”

Section: Methodsmentioning

confidence: 99%

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Plasmid carriage and the unorthodox use of fitness in microbial evolution

Reding

2019

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Microbes without plasmids divide faster than those harbouring them. Microbiolo-6 gists rely on this difference in growth rate between both types to foresee whether 7 a plasmid will be maintained, or else purged by the host to avoid extinction. Here 8 I report that plasmids change multiple life-history traits, and I demonstrate that 9 growth rate alone can be a bad predictor for plasmid maintenance. Pairwise com-10 petition experiments between two constructs of Escherichia coli-one of which car-11 ries a plasmid-revealed that harbouring plasmids can also increase yield and delay 12 growth (lag). Crucially, yield engaged in a trade-off with growth rate. The plasmid 13 borne by one construct (R), non-transmissible and with a tetracycline-resistance 14 gene, reduced its host's growth rate by 20%. However, given this trade-off, R 15 outgrew its sensitive counterpart (S) in the absence of tetracycline when the com-16 petition favoured yield over growth rate. Trade-offs like this can challenge the 17 application of concepts that depend on carriage costs: R-mutants with additional 18 copies of the plasmid exploited this trade-off, and were selected for in tetracycline 19concentrations below the so-called 'minimal selective concentration'-the lowest an-20 timicrobial concentration thought to select for resistant mutants. My data suggests 21 that carriage costs interfere with multiple traits. Whether plasmids are costly to 22 maintain will therefore depend on the relationship between them, and which is un-23 der strongest selection. It also demonstrates that each trait reports different drug 24 sensitivity, exposing new opportunities for therapy design. 26Plasmids are independent genetic elements that complement the chromosome of prokaryotes 1,2 27 and eukaryotes 3 alike. They can benefit cells harbouring them-notoriously in the form of 28 resistance to antibiotics-but the metabolic costs associated with their upkeep can reduce the 29 host's growth rate 2,4 . Clinicians and evolutionary biologists exploit the sensitivity of growth rate 30 to plasmid carriage, using pairwise competition experiments to estimate the costs of plasmid 31 maintenance 5-8 and whether a plasmid will be maintained through time. Their conclusion is 32 straightforward: microbes without plasmids multiply faster in environments where plasmids are 33 not beneficial, and overthrow microbes harbouring them 4,7 . 34Plasmids will therefore be preserved when the benefits they provide outweigh the reduction 35 in growth rate that they impose. Bacteria, however, can maintain plasmids that have no evident 36 benefit-despite reducing their growth rate 2,[9][10][11] . So, where is the hidden benefit? Plasmids are 37 2 known to reduce the host's growth rate, but the metabolic alterations that plasmids introduce 38 are unclear [12][13][14][15] . Here I asked whether growth rate is the only life-history trait that is sensitive 39 to plasmid carriage, and it is not. I analysed the growth dynamics of two identical constructs 16 40 of Escherichia coli, one of which ...

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Plasmid carriage and the unorthodox use of fitness in microbial evolution

Reding

2019

Preprint

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“…When performing an MIC assay, one 5 assumes that the antibiotic does not degrade over the timescale of the assay. Antibiotic 6 stability is also assumed in a host of other bacterial growth assays that are used to 7 determine antibiotic mechanism of action [2][3][4][5], interactions between antibiotics [6-9], 8 and evolution of antibiotic resistance [10][11][12][13][14].…”

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confidence: 99%

Stability ofβ-lactam antibiotics in bacterial growth media

Brouwers

Vass

Dawson

et al. 2020

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Laboratory assays such as MIC tests assume that antibiotic molecules are stable in the chosen growth medium -but rapid degradation has been observed for antibiotics including β-lactams under some conditions in aqueous solution. Degradation rates in bacterial growth medium are less well known. Here, we develop a 'delay time bioassay' that provides a simple way to estimate antibiotic stability in bacterial growth media. We use the bioassay to measure degradation half-lives of the β-lactam antibiotics mecillinam, aztreonam and cefotaxime in widely-used bacterial growth media based on MOPS and Luria-Bertani (LB) broth. We find that mecillinam degradation can occur rapidly, with a half-life as short as 2 hours in MOPS medium at 37 • C and pH 7.4, and 4-5 hours in LB, but that adjusting the pH and temperature can increase its stability to a half-life around 6 hours without excessively perturbing growth. Aztreonam and cefotaxime were found to have half-lives longer than 6 hours in MOPS medium at 37 • C and pH 7.4, but still shorter than the timescale of a typical minimum inhibitory concentration (MIC) assay. Taken together, our results suggest that care is needed in interpreting MIC tests and other laboratory growth assays for β-lactam antibiotics, since there may be significant degradation of the antibiotic during the assay.Antibiotic efficacy is usually quantified by the minimal inhibitory concentration (MIC), 2 or the concentration of antibiotic needed to prevent bacterial growth over 24 hours in a 3 standard laboratory growth medium [1]; the MIC value plays a central role in 4 diagnostic and therapeutic decision-making. When performing an MIC assay, one 5 assumes that the antibiotic does not degrade over the timescale of the assay. Antibiotic 6 stability is also assumed in a host of other bacterial growth assays that are used to 7 determine antibiotic mechanism of action [2][3][4][5], interactions between antibiotics [6-9], 8 and evolution of antibiotic resistance [10][11][12][13][14]. 9Antibiotic degradation in aqueous solution has been extensively studied in the 10 chemical literature [15][16][17][18][19], and it is well-known that, under some conditions, 11 antibiotics can degrade on timescales much shorter than a typical bacterial growth assay. 12 There has been little work, however, on how quickly antibiotics degrade in standard 13 laboratory growth media, such as those used for MIC assays. Here, we develop a 14 'delay-time bioassay', based on growth measurements in a plate reader, that allows 15 simple estimation of the rate of antibiotic degradation in bacterial growth media. 16Bacterial growth media are chemically complex, since bacterial proliferation requires 17 carbon, nitrogen, phosphorous, iron and a diverse array of micronutrients [20,21]. 18April 14, 2020 1/18 "Undefined" growth media contain ingredients such as yeast extract, blood or beef 19 extract, whose detailed chemical composition is not known. Luria-Bertani (LB) medium, 20 which consists of water, tryptone, sodium chloride and yeast extract, i...

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