Taking control over microbial populations: Current approaches for exploiting biological noise in bioprocesses

Delvigne, Frank; Baert, Jonathan; Sassi, Hosni; Fickers, Patrick; Grünberger, Alexander; Dusny, Christian

doi:10.1002/biot.201600549

Cited by 36 publications

(32 citation statements)

References 140 publications

(191 reference statements)

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“…This inhibition becomes very significant in a defined medium when acetate is sole carbon source . It is known that bacterial populations become more asynchronous under stress and contain cells at all stages of the division cycle among others due to an increase in noise in gene expression leading to a higher level of heterogeneity . Hence, our hypothesis was that the enhanced stress during growth on acetate would lead to increased heterogeneity levels of the population, compared to growth on glucose.…”

Section: Discussionmentioning

confidence: 98%

“…The CV can be correlated to noise in gene expression, which describes how expression of two identical copies of a gene leads to deviations in different cells of an isogenic population (intrinsic noise), respectively, is influenced by interaction of the cell with its environment (extrinsic noise) . Noise in gene expression was found to be one major cause of population heterogeneity influencing bioprocess efficiency . Upon occurrence, it leads to a broadening of distributions or multimodality .…”

Section: Introductionmentioning

confidence: 99%

“…Additionally, an inverse correlation between noise and gene expression could be established; highly expressed genes exhibit low levels of noise whereas the opposite was found for weakly expressed genes . Therefore, it was suspected that noise in gene expression is used as a regulatory strategy to increase, respectively, decrease the level of population heterogeneity depending on what is beneficial for the cell population …”

Section: Introductionmentioning

confidence: 99%

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The effect of acetate on population heterogeneity in different cellular characteristics of Escherichia coli in aerobic batch cultures

Heins

Lundin

Nunes

et al. 2019

Biotechnology Progress

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Acetate as the major by-product in industrial-scale bioprocesses with Escherichia coli is found to decrease process efficiency as well as to be toxic to cells, which has several effects like a significant induction of cellular stress responses. However, the underlying phenomena are poorly explored. Therefore, we studied time-resolved population heterogeneity of the E. coli growth reporter strain MG1655/pGS20PrrnBGFPAAV expressing destabilized green fluorescent protein during batch growth on acetate and glucose as sole carbon sources. Additionally, we applied five fluorescent stains targeting different cellular properties (viability as well as metabolic and respiratory activity). Quantitative analysis of flow cytometry data verified that bacterial populations in the bioreactor are more heterogeneous in growth as well as stronger metabolically challenged during growth on acetate as sole carbon source, compared to growth on glucose or acetate after diauxic shift. Interestingly, with acetate as sole carbon source, significant subpopulations were found with some cells that seem to be more robust than the rest of the population. In conclusion, following batch cultures population heterogeneity was evident in all measured parameters.Our approach enabled a deeper study of heterogeneity during growth on the favored substrate glucose as well as on the toxic by-product acetate. Using a combination of activity fluorescent dyes proved to be an accurate and fast alternative as well as a supplement to the use of a reporter strain. However, the choice of combination of stains should be well considered depending on which population traits to aim for. K E Y W O R D Sflow cytometry, growth on acetate, metabolic activity, population heterogeneity, reporter strain, viability

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Section: Discussionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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The effect of acetate on population heterogeneity in different cellular characteristics of Escherichia coli in aerobic batch cultures

Heins

Lundin

Nunes

et al. 2019

Biotechnology Progress

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“…In order to facilitate these changes sensory systems that accurately detect and allow subsequent control of population heterogeneity and quality must ultimately be selected from the scientific advances and translated to commercial scale. 89 For fluorescent optical sensors, in particular, fluorescent nanosensors, to acquire broad utility as a medical diagnostic tools it is important that their signals can be accurately obtained from thick and turbid samples, such as tissue and organs. Currently, it is challenging to obtain fluorescent signals at depths using high powered objective lenses, due to their short working distance, while turbid samples are known to scatter light such that accurate signal reconstruction is challenging.…”

Section: Discussionmentioning

confidence: 99%

Enhancing cell and gene therapy manufacture through the application of advanced fluorescent optical sensors (Review)

Harrison

Chauhan

2017

Biointerphases

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Cell and gene therapies (CGTs) are examples of future therapeutics that can be used to cure or alleviate the symptoms of disease, by repairing damaged tissue or reprogramming defective genetic information. However, despite the recent advancements in clinical trial outcomes, the path to wide-scale adoption of CGTs remains challenging, such that the emergence of a “blockbuster” therapy has so far proved elusive. Manufacturing solutions for these therapies require the application of scalable and replicable cell manufacturing techniques, which differ markedly from the existing pharmaceutical incumbent. Attempts to adopt this pharmaceutical model for CGT manufacture have largely proved unsuccessful. The most significant challenges facing CGT manufacturing are process analytical testing and quality control. These procedures would greatly benefit from improved sensory technologies that allow direct measurement of critical quality attributes, such as pH, oxygen, lactate and glucose. In turn, this would make manufacturing more robust, replicable and standardized. In this review, the present-day state and prospects of CGT manufacturing are discussed. In particular, the authors highlight the role of fluorescent optical sensors, focusing on their strengths and weaknesses, for CGT manufacture. The review concludes by discussing how the integration of CGT manufacture and fluorescent optical sensors could augment future bioprocessing approaches.

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“…Phenotypic heterogeneity has been shown to have an impact on medical care, concerning antibiotic resistance, treatment persistence, and biofilm formation (Turner et al, 2000;Sumner and Avery, 2002;Balaban et al, 2004;Grote et al, 2015;Dhar et al, 2016;Sadiq et al, 2017;Van Den Bergh et al, 2017) but also in biomedical research for drug discovery, cancer therapy, and diagnostics due to the variable effectiveness of care treatments on different phenotypes (Almendro et al, 2013;Gough et al, 2017). Understanding cell-to-cell heterogeneity in bioprocessing is currently a big challenge due to its implications in processes' performance and therefore product yield in largescale production (Delvigne et al, 2014(Delvigne et al, , 2017. Hence, the quantitation of heterogeneity becomes relevant for an efficient process optimization in every field of biotechnology.…”

Section: Introductionmentioning

confidence: 99%

Quantitation and Comparison of Phenotypic Heterogeneity Among Single Cells of Monoclonal Microbial Populations

Calabrese

Voloshynovska²,

Musat

et al. 2019

Front. Microbiol.

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Phenotypic heterogeneity within microbial populations arises even when the cells are exposed to putatively constant and homogeneous conditions. The outcome of this phenomenon can affect the whole function of the population, resulting in, for example, new "adapted" metabolic strategies and impacting its fitness at given environmental conditions. Accounting for phenotypic heterogeneity becomes thus necessary, due to its relevance in medical and applied microbiology as well as in environmental processes. Still, a comprehensive evaluation of this phenomenon requires a common and unique method of quantitation, which allows for the comparison between different studies carried out with different approaches. Consequently, in this study, two widely applicable indices for quantitation of heterogeneity were developed. The heterogeneity coefficient (HC) is valid when the population follows unimodal activity, while the differentiation tendency index (DTI) accounts for heterogeneity implying outbreak of subpopulations and multimodal activity. We demonstrated the applicability of HC and DTI for heterogeneity quantitation on stable isotope probing with nanoscale secondary ion mass spectrometry (SIP-nanoSIMS), flow cytometry, and optical microscopy datasets. The HC was found to provide a more accurate and precise measure of heterogeneity, being at the same time consistent with the coefficient of variation (CV) applied so far. The DTI is able to describe the differentiation in single-cell activity within monoclonal populations resolving subpopulations with low cell abundance, individual cells with similar phenotypic features (e.g., isotopic content close to natural abundance, as detected with nanoSIMS). The developed quantitation approach allows for a better understanding on the impact and the implications of phenotypic heterogeneity in environmental, medical and applied microbiology, microbial ecology, cell biology, and biotechnology.

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Taking control over microbial populations: Current approaches for exploiting biological noise in bioprocesses

Cited by 36 publications

References 140 publications

The effect of acetate on population heterogeneity in different cellular characteristics of Escherichia coli in aerobic batch cultures

The effect of acetate on population heterogeneity in different cellular characteristics of Escherichia coli in aerobic batch cultures

Enhancing cell and gene therapy manufacture through the application of advanced fluorescent optical sensors (Review)

Quantitation and Comparison of Phenotypic Heterogeneity Among Single Cells of Monoclonal Microbial Populations

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