Bacteriophage-Based Methods for Detection of Viable Mycobacterium avium subsp. paratuberculosis and Their Potential for Diagnosis of Johne's Disease

Grant, Irene R.

doi:10.3389/fvets.2021.632498

Cited by 14 publications

(7 citation statements)

References 34 publications

(38 reference statements)

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“…Furthermore, mycobacteriophage D29, a lytic phage, is commonly used in phage amplification studies in order to infect the viable MAP cells and liberate DNAs from the recovered cells. Although, D29 is not a specific phage for only MAP 28 , 31 , 32 , it specifically expresses its DNA in its viable mycobacterial hosts 33 .…”

Section: Discussionmentioning

confidence: 99%

A rapid phage assay for detection of viable Mycobacterium avium subsp. paratuberculosis in milk

Hosseiniporgham

Rebechesu

Pintore

et al. 2022

Sci Rep

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Paratuberculosis is an incurable gastroenteritis among ruminants that is promoted by Mycobacterium avium subsp. paratuberculosis (MAP), an acid-fast mycobacterium. To accelerate the detection of viable pathogen, a conventional (peptide mediated magnetic separation: PMS) and novel (phage-bead qPCR: PBQ) phage based assay was optimized. A superior limit of detection (LOD) of 10 MAP per 10 mL milk was suggested for PBQ compared to 100 cells/10 mL for PMS-phage assay. Via PBQ, viable MAP was found in 48.78% out 41 unpasteurized sheep and goat milk samples. Sheep milk samples (n = 29) that were tested by PMS-phage assay contained no viable MAP. The absence of viable MAP in milk collected from 21 of the recent sheep animals was also confirmed by PBQ after a 2-week gap. Although, the two phage assays comparably detected no viable MAP in the milk samples, MAP DNA and antibodies against MAP were recognized in milk and sera of some of these animals within two instances of sampling representing that some sheep animals were MAP shedders. In conclusion, PBQ and PMS-phage could be promising methods for the assessment of MAP viability in milk samples. However, PBQ was privileged over the PMS-phage assay due to the lower LOD, rapidity, higher sensitivity, lack of need to M. smegmatis and consequent virucidal treatment that are essential in PMS-phage assay for making lawn and inactivation of exogenous mycobacteriophages respectively.

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Section: Discussionmentioning

confidence: 99%

A rapid phage assay for detection of viable Mycobacterium avium subsp. paratuberculosis in milk

Hosseiniporgham

Rebechesu

Pintore

et al. 2022

Sci Rep

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“…The capability of mycobacteriophages in crossing the mycobacterial barriers has turned them into practical tools for diagnosing pathogenic and non-pathogenic mycobacteria. Some of the most-known phage-based diagnostic techniques are as follows: shuttle plasmids [ 7 , 19 , 72 , 162 ] and transduction of fluorescent or non-fluorescent foreign DNA into the mycobacterial genome and distinguishing the antibiotic resistance or viability of mycobacteria through fluorescent emission or formation of turbid lysogenic plaques [ 19 , 20 , 163 ]; phage amplification and detection of the viability of mycobacteria [ 24 , 25 , 164 , 165 ]; capture of viable target mycobacteria using mycobacteriophage proteins [ 166 ] or whole phages as ligands [ 79 , 87 , 88 ].…”

Section: Mycobacteriophages and Detection Of Pathogenic Mycobacteriamentioning

confidence: 99%

“…D29 was initially applied in the FASTPlaqueTB phage assay to detect the viability of M. tuberculosis complex in human sputum specimens taken from patients suspected of having tuberculosis in 2005 [ 164 ]. Between 2007 and 2021, D29 was exploited to determine the viability of MAP in dairy products [ 24 ], blood, and feces [ 25 ] within an adapted FASTPlaqueTB [ 24 ] assay, Actiphage core 2-day assay, or modified phage amplification techniques. From 2013 to 2020, phage amplification via D29 underwent modifications, including changes in the protocol of DNA extraction from lysed cells that were indicated with plaques (i.e., heating agar plaques [ 24 ]; purification of the extracted DNA from excised plaques via Zymoclean DNA Clean and Concentrator columns [ 181 , 182 ]); selective capture and concentrating MAP cells in samples via magnetic beads coated with MAP-specific complementary peptides (i.e., aMp3 and aMptD) and consequent magnetic separation.…”

Section: Mycobacteriophages and Detection Of Pathogenic Mycobacteriamentioning

confidence: 99%

“…Today, mycobacteriophages in isolation/cocktail [ 15 ] or within a synergistic therapy along with antibiotics opened new horizons in the treatment of infections caused by pathogenic mycobacteria [ 16 , 17 , 18 ]. Furthermore, mycobacteriophages have been exploited in diagnostic approaches of slow-/fast-growing mycobacteria through shuttle plasmids that express resistance against antibiotics and induce the production of lysogenic plaques in target mycobacteria [ 19 ]; transduction of nanoluciferase reporter gene cassettes that discriminate viable drug-resistant and -sensitive strains [ 20 ]; phage amplification for detection of antimicrobial resistance species [ 21 , 22 , 23 ]; and viability assessment of target mycobacteria in various samples (i.e., dairy products, blood, stool [ 24 , 25 ]). This review aimed to look back on some of the most used mycobacteriophages in research, elucidating their applications in the diagnosis and treatment of drug-resistant pathogenic mycobacteria with a focus on three pathogenic mycobacterial species, M. tuberculosis , MAP, and M. abscessus, from past to now.…”

Section: Introductionmentioning

confidence: 99%

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A Review on Mycobacteriophages: From Classification to Applications

Hosseiniporgham

Sechi

2022

Pathogens

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Mycobacterial infections are a group of life-threatening conditions triggered by fast- or slow-growing mycobacteria. Some mycobacteria, such as Mycobacterium tuberculosis, promote the deaths of millions of lives throughout the world annually. The control of mycobacterial infections is influenced by the challenges faced in the diagnosis of these bacteria and the capability of these pathogens to develop resistance against common antibiotics. Detection of mycobacterial infections is always demanding due to the intracellular nature of these pathogens that, along with the lipid-enriched structure of the cell wall, complicates the access to the internal contents of mycobacterial cells. Moreover, recent studies depicted that more than 20% of M. tuberculosis (Mtb) infections are multi-drug resistant (MDR), and only 50% of positive MDR-Mtb cases are responsive to standard treatments. Similarly, the susceptibility of nontuberculosis mycobacteria (NTM) to first-line tuberculosis antibiotics has also declined in recent years. Exploiting mycobacteriophages as viruses that infect mycobacteria has significantly accelerated the diagnosis and treatment of mycobacterial infections. This is because mycobacteriophages, regardless of their cycle type (temperate/lytic), can tackle barriers in the mycobacterial cell wall and make the infected bacteria replicate phage DNA along with their DNA. Although the infectivity of the majority of discovered mycobacteriophages has been evaluated in non-pathogenic M. smegmatis, more research is still ongoing to find mycobacteriophages specific to pathogenic mycobacteria, such as phage DS6A, which has been shown to be able to infect members of the M. tuberculosis complex. Accordingly, this review aimed to introduce some potential mycobacteriophages in the research, specifically those that are infective to the three troublesome mycobacteria, M. tuberculosis, M. avium subsp. paratuberculosis (MAP), and M. abscessus, highlighting their theranostic applications in medicine.

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“…MAP can either be shed directly into milk by infected cows or be introduced via fecal contamination [ 8 , 9 , 10 , 11 ]. Viable MAP were found in pasteurized milk, cheese, and even in dried milk products such as infant formula [ 12 , 13 , 14 ]. This might have been caused by post-processing contamination, but there is also evidence of MAP being able to survive the pasteurization process [ 15 , 16 , 17 , 18 , 19 ].…”

Section: Introductionmentioning

confidence: 99%

Mycobacterium avium subsp. paratuberculosis Proteome Changes Profoundly in Milk

Kleinwort¹,

Hobmaier²,

Mayer

et al. 2021

Metabolites

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Mycobacterium avium subspecies paratuberculosis (MAP) are detectable viable in milk and other dairy products. The molecular mechanisms allowing the adaptation of MAP in these products are still poorly understood. To obtain information about respective adaptation of MAP in milk, we differentially analyzed the proteomes of MAP cultivated for 48 h in either milk at 37 °C or 4 °C or Middlebrook 7H9 broth as a control. From a total of 2197 MAP proteins identified, 242 proteins were at least fivefold higher in abundance in milk. MAP responded to the nutritional shortage in milk with upregulation of 32% of proteins with function in metabolism and 17% in fatty acid metabolism/synthesis. Additionally, MAP upregulated clusters of 19% proteins with roles in stress responses and immune evasion, 19% in transcription/translation, and 13% in bacterial cell wall synthesis. Dut, MmpL4_1, and RecA were only detected in MAP incubated in milk, pointing to very important roles of these proteins for MAP coping with a stressful environment. Dut is essential and plays an exclusive role for growth, MmpL4_1 for virulence through secretion of specific lipids, and RecA for SOS response of mycobacteria. Further, 35 candidates with stable expression in all conditions were detected, which could serve as targets for detection. Data are available via ProteomeXchange with identifier PXD027444.

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Bacteriophage-Based Methods for Detection of Viable Mycobacterium avium subsp. paratuberculosis and Their Potential for Diagnosis of Johne's Disease

Cited by 14 publications

References 34 publications

A rapid phage assay for detection of viable Mycobacterium avium subsp. paratuberculosis in milk

A rapid phage assay for detection of viable Mycobacterium avium subsp. paratuberculosis in milk

A Review on Mycobacteriophages: From Classification to Applications

Mycobacterium avium subsp. paratuberculosis Proteome Changes Profoundly in Milk

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