Defining a temporal order of genetic requirements for development of mycobacterial biofilms

Yang, Yong; Thomas, J. Gill; Li, Yunlong; Vilchèze, Catherine; Derbyshire, Keith M.; Jacobs, William R.; Ojha, Anil K.

doi:10.1111/mmi.13734

Cited by 43 publications

(75 citation statements)

References 50 publications

(78 reference statements)

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“…1A). While colonies and pellicles represent different growth models in vitro , the two have overlapping gene expression patterns in M. smegmatis (14). Inclusion of both models in the Tn-seq screen allowed similarities and differences in genetic requirements for Mtb fitness to be determined in these two models of aggregated growth.…”

Section: Resultsmentioning

confidence: 99%

“…We thus hypothesized that the signal regulating inlps induction is dependent on the specific nature of growth environment in mature pellicle biofilms, which are not created by other growth conditions, including during colony development on agar surfaces and in high-density detergent-free shaken cultures. To address this hypothesis we used a previously described, hyper-aggregating suppressor strain of M. smegmatis that reports gene regulation responsive to cell-surface properties and/or biofilm microenvironments (14). The strain carries a suppressor mutation in the glycopeptidolipid biosynthesis gene ( mps ) in a Δ lsr2 background that rescues the deficiencies in cell-cell adhesion and biofilm formation of the parent Δ lsr2 strain(14).…”

Section: Resultsmentioning

confidence: 99%

“…Growth and development of biofilms is a multi-stage process that requires dedicated genetic programs expressed in a spatiotemporal order(13–15). Initial stages involving substratum attachment of planktonic cells and aggregated growth are followed by a maturation stage accompanied by synthesis of an extracellular matrix (13, 14). Physical contacts and chemical communications among cells in developing biofilms, as well as physiological adaptation to self-generated gradients of nutrients and oxygen stratify the architecture resulting in phenotypically heterogeneous cells (15–18).…”

Section: Introductionmentioning

confidence: 99%

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Adaptation of Mycobacterium tuberculosis to biofilm growth is genetically linked to drug tolerance

Richards

Cai

Zill

et al. 2019

Preprint

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21Mycobacterium tuberculosis (Mtb) spontaneously grows at the air-medium interface 22 forming pellicle biofilms, which harbor more drug tolerant persisters than planktonic 23 cultures. The underlying basis for increased persisters in Mtb biofilms is unknown. 24 Using a Tn-seq approach, we show here that multiple genes that are necessary for 25 fitness of Mtb cells within biofilms, but not in planktonic cultures, are also important for 26 their tolerance to a diverse set of stressors and antibiotics. Thus, development of Mtb 27 biofilms appears to be associated with population enrichment, in which endogenous 28 stresses presumably generated by challenging growth conditions within biofilm 29 architecture select for cells that maintain tolerance to exogenous stresses including 30 antibiotic exposure. We further observed that the intrinsic drug tolerance of constituent 31 cells of biofilms determines the frequency of persisters: morphologically 32 indistinguishable monoculture biofilms of a ΔpstC2A1 mutant hypersensitive to 33 rifampicin harbor ~20-fold fewer persisters than wild-type. These findings together allow 34 us to propose that the selection of elite cells during biofilm development significantly 35 contributes to the persister frequency. Furthermore, probing the possibility that the 36 population enrichment is an outcome of unique environment within biofilms, we 37 demonstrate biofilm-specific induction in the synthesis of isonitrile lipopeptides (INLP). 38 Mutation analysis indicates that INLP is necessary for the architecture development of 39 Mtb biofilms. In summary, the study offers an insight into persistence of Mtb biofilms 40 under antibiotic exposure, while identifying INLP as a biomarker for further investigation 41 of this phenomenon. 42 3 SIGNIFICANCE 43 The tuberculosis (TB) pathogen Mycobacterium tuberculosis (Mtb) is one of the 44 deadliest bacterial pathogens known to mankind, and TB treatment is inefficient. A 45 lengthy chemotherapy for TB is attributed to a small subpopulation of Mtb bacilli 46 exhibiting phenotypic tolerance to antibiotics. Drugs targeting these persisters are 47 55 Treatment of tuberculosis (TB), caused by Mycobacterium tuberculosis (Mtb), entails a 56 multi-drug regimen administered for at least 6 months. A lengthy treatment is 57presumably necessitated by the persistence of a small subpopulation of bacilli, which 58 exhibit phenotypic tolerance to antibiotics (1, 2). Although the mechanism underlying the 59 development of Mtb persisters during infection is unclear, in vitro studies suggest that 60 these bacilli probably develop through both stochastic and induced mechanisms(3-6). 61The persistence of microbes against antibiotics has been closely linked to their 62 ability to grow as sessile, three-dimensionally organized, matrix encapsulated, 63 multicellular communities called biofilms (7-11). Biofilm-related antibiotic tolerance is 64 rendered particularly relevant by the fact that a majority of chronic microbial infections in 65 humans occur as biofi...

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Adaptation of Mycobacterium tuberculosis to biofilm growth is genetically linked to drug tolerance

Richards

Cai

Zill

et al. 2019

Preprint

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“…Mycobacterium smegmatis strain ΔMSMEG_2952 [63] and its derivatives (Table 1) were grown in Middlebrook 7H9 medium with albumin/dextrose/catalase supplementation (ADC; final concentrations, 5 g/L bovine serum albumin fraction V, 2 g/L dextrose, 0.85 g/L NaCl, and 3 mg/L catalase), 0.2% glycerol, and 0.05% Tween 80. Cultures were shaken at 200 rpm and 37°C to an optical density at 600 nm (OD 600 ) of ∼0.8 at the time of harvest.…”

Section: Methodsmentioning

confidence: 99%

“…All constructs (pSS303 and derivatives noted in Table 1) were built using NEBuilder HiFi DNA Assembly Master Mix (E2621). Each assembled plasmid was integrated in M. smegmatis ΔMSMEG_2952 [63] at the Giles phage site, and selected with 200 µg/mL hygromycin.…”

Section: Methodsmentioning

confidence: 99%

The impact of leadered and leaderless gene structures on translation efficiency, transcript stability, and predicted transcription rates inMycobacterium smegmatis

Nguyen

Vargas-Blanco

Roberts

et al. 2019

Preprint

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16Regulation of gene expression is critical for the pathogen Mycobacterium tuberculosis to tolerate 17 stressors encountered during infection, and for non-pathogenic mycobacteria such as 18Mycobacterium smegmatis to survive stressors encountered in the environment. Unlike better 19 studied models, mycobacteria express ~14% of their genes as leaderless transcripts. However, the 20 impacts of leaderless transcript structures on mRNA half-life and translation efficiency in 21 mycobacteria have not been directly tested. For leadered transcripts, the contributions of 5' UTRs 22 to mRNA half-life and translation efficiency are similarly unknown. In both M. tuberculosis and 23 M. smegmatis, the essential sigma factor, SigA, is encoded by an unstable transcript with a 24 relatively short half-life. We hypothesized that sigA's long 5' UTR caused this instability. To test 25 this, we constructed fluorescence reporters and then measured protein abundance, mRNA 26 abundance, and mRNA half-life. From these data we also calculated relative transcription rates. 27We found that the sigA 5' UTR confers an increased transcription rate, a shorter mRNA half-life, 28 and a decreased translation rate compared to a synthetic 5' UTR commonly used in mycobacterial 29 expression plasmids. Leaderless transcripts produced less protein compared to any of the leadered 30 transcripts. However, translation rates were similar to those of transcripts with the sigA 5' UTR, 31 and the protein levels were instead explained by lower transcript abundance. A global comparison 32 of M. tuberculosis mRNA and protein abundances failed to reveal systematic differences in 33 protein:mRNA ratios for natural leadered and leaderless transcripts, consistent with the idea that 34 variability in translation efficiency among mycobacterial genes is largely driven by factors other 35 than leader status. The variability in mRNA half-life and predicted transcription rate among our 36 constructs could not be explained by their different translation efficiencies, indicating that other 37 factors are responsible for these properties and highlighting the myriad and complex roles played 38 by 5' UTRs and other sequences downstream of transcription start sites. 39 40 41 5' UTRs can also regulate gene expression by altering mRNA turnover rates. This can be a 57 consequence of altered translation rates, as impairments to translation often lead to faster mRNA 58 decay [16][17][18][19][20][21][22]. In other cases, mRNA stability is directly affected by sRNA binding to 5' UTRs or 59 by UTR secondary structure [9,[23][24][25][26][27][28]. In E. coli, the half-life of the short-lived transcript bla can 60 be significantly increased when its native 5' UTR is replaced with the 5' UTR of ompA, a long-61 lived transcript [29][30][31]. Conversely, deletion of ompA's native 5' UTR decreased its half-life by 62 5-fold [30]. The longevity conferred by the ompA 5' UTR was attributed to the presence of a non-63 specific stem-loop as well as the specific RBS sequence [30][31][32]. Secondary ...

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Mycobacterium fortuitum fabG4knockdown studies: Implication as pellicle and biofilm specific drug target

2022

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The fatty acid biosynthesis pathway is crucial for the formation of the mycobacterial cell envelope. The fatty acid synthase type-II (FAS-II) components are attractive targets for designing anti-biofilm inhibitors.Literature review, bioinformatics analysis, cloning, and sequencing led to the identification of a novel Mycobacterium fortuitum FAS-II gene MFfabG4 which interacts with mycobacterial proteins involved in biofilm formation. A manually curated M. fortuitum fatty acid biosynthesis pathway has been proposed exploiting functional studies from the Kyoto Encyclopedia of Genes and Genomes and Mycobrowser databases for MFFabG4. M. fortuitum MFfabG4 knockdown strain (FA) was constructed and validated by quantitative polymerase chain reaction. The FA strain displayed unstructured smooth colony architecture, correlating with decreased pathogenicity and virulence. MFfabG4 knockdown resulted in diminished pellicle and attenuated biofilm formation, along with impaired sliding motility, and reduced cell sedimentation. The FA strain showed lowered cell surface hydrophobicity, indicating attenuation in M. fortuitum intracellular infection-causing ability. Stress survival studies showed the requirement of MFfabG4 for survival in a nutrient-starved environment. The results indicate that MFfabG4 maintains the physiology of the cell envelope and is required for the formation of M. fortuitum pellicle and biofilm. The study corroborates the role of MFfabG4 as a pellicle-and biofilm-specific drug target and a potential diagnostic marker for M. fortuitum and related pathogenic mycobacteria.

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Defining a temporal order of genetic requirements for development of mycobacterial biofilms

Cited by 43 publications

References 50 publications

Adaptation of Mycobacterium tuberculosis to biofilm growth is genetically linked to drug tolerance

Adaptation of Mycobacterium tuberculosis to biofilm growth is genetically linked to drug tolerance

The impact of leadered and leaderless gene structures on translation efficiency, transcript stability, and predicted transcription rates inMycobacterium smegmatis

Mycobacterium fortuitum fabG4knockdown studies: Implication as pellicle and biofilm specific drug target

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