<i>Mycobacterium</i>phage Butters-encoded proteins contribute to host defense against viral attack

Mageeney, Catherine M.; Mohammed, Hamidu T.; Dies, Marta; Anbari, Samira; Cudkevich, Netta; Chen, Yanyan; Buceta, Javier; Ware, Vassie C.

doi:10.1101/2020.04.27.053744

Cited by 2 publications

(12 citation statements)

References 47 publications

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“…Additionally, Butters blocks infection by the heterotypic phage Island3 through a repressor-independent system (Dedrick et al . 2017; Mageeney et al . 2020).…”

Section: Resultsmentioning

confidence: 99%

“…Its repressor blocks infection by other cluster N phages (Dedrick et al 2017). Additionally, Butters blocks infection by the heterotypic phage Island3 through a repressorindependent system (Dedrick et al 2017;Mageeney et al 2020). To explore the mechanism of defense and to identify putative Island3 targets of Butters prophage defense, we pursued isolation of Island3 defense escape mutants (DEMs) -mutants that have escaped Butters prophage-mediated defense and consequently, can efficiently infect a Butters lysogen [mc 2 155(Butters)].…”

Section: Resultsmentioning

confidence: 99%

“…Cluster N mycobacteriophages, in particular, have been highlighted for the diversity that characterizes the central region of their genomes between more conserved sequences in the left and right arms (Dedrick et al 2017). Genes within the central region of cluster N mycobacteriophages are expressed in cluster N lysogens and have been implicated in prophage-mediated defense mechanisms that defend the host from heterotypic viral attack (Dedrick et al 2017;Mageeney et al 2020). Cluster N and I1 mycobacteriophage genomes are notable in their continuum of genetic similarity and are proposed to exchange genetic modules at a relatively faster rate (Mavrich and Hatfull 2017).…”

Section: Introductionmentioning

confidence: 99%

“…Genes within the central region of cluster N mycobacteriophages are expressed in cluster N lysogens and have been implicated in prophage-mediated defense mechanisms that defend the host from heterotypic viral attack (Dedrick et al . 2017; Mageeney et al . 2020).…”

Section: Introductionmentioning

confidence: 99%

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Characterization of Novel Recombinant Mycobacteriophages derived from Homologous Recombination between two Temperate Phages

Mohammed

Mageeney

Korenberg

et al. 2022

Preprint

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Comparative analyses of mycobacteriophage genomes reveal extensive genetic diversity in genome organization and gene content, contributing to widespread mosaicism. We previously reported that the prophage of mycobacteriophage Butters (cluster N) provides defense against infection by Island3 (subcluster I1). To explore the anti-Island3 defense mechanism, we attempted to isolate Island3 defense escape mutants on a Butters lysogen, but only uncovered phages with recombinant genomes comprised of regions of Butters and Island3 arranged from left arm to right arm as Butters-Island3-Butters (BIBs). Recombination occurs within two distinct homologous regions that encompass lysin A, lysin B, and holin genes in one segment, and RecE and RecT genes in the other. Structural genes of mosaic BIB genomes are contributed by Butters while the immunity cassette is derived from Island3. Consequently, BIBs are morphologically identical to Butters (as shown by transmission electron microscopy) but are homoimmune with Island3. A reverse experiment where an Island3 lysogen was infected with Butters yielded Butters phages and no recombinants, demonstrating directionality to the recombination phenomenon. Recombinant phages overcome antiphage defense and silencing of the lytic cycle. We leverage this observation to propose a stratagem to generate novel phages for therapeutic use.

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“…Additionally, Butters blocks infection by the heterotypic phage Island3 through a repressor-independent system (Dedrick et al . 2017; Mageeney et al . 2020).…”

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Characterization of Novel Recombinant Mycobacteriophages derived from Homologous Recombination between two Temperate Phages

Mohammed

Mageeney

Korenberg

et al. 2022

Preprint

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show abstract

“…No reuse allowed without permission. smegmatis mc 2 155 lysogen against several heterotypic phages (26,28). Butters has a genome size of 41,491bp, a GC content of 66%, and an overall architecture similar to other cluster N phages (29).…”

Section: Introductionmentioning

confidence: 99%

Identification of a new antiphage system inMycobacteriumphage Butters

Mohammed

Mageeney

Ware

2023

Preprint

Self Cite

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During lysogeny temperate phages establish a truce with the bacterial host. In this state, the phage genome (prophage) is maintained within the host environment. Consequently, many prophages have evolved systems to protect the host from heterotypic viral attack. This phenomenon of prophages mediating defense of their host against competitor phages is widespread among temperate mycobacteriophages. We previously showed that theMycobacteriumphage Butters prophage encodes a two-component system (gp30/31) that inhibits infection from a subset of mycobacteriophages that include PurpleHaze, but not Island3. Here we show that Butters gp57r is both necessary and sufficient to inhibit infection by Island3 and other phages. Gp57r acts post-DNA injection and its antagonism results in the impairment of Island3 DNA amplification. Gp57r inhibition of Island3 is absolute with no defense escape mutants. However, mutations mapping to minor tail proteins allow PurpleHaze to overcome gp57r defense. Gp57r has a HEPN domain which is present in many proteins involved in inter-genomic conflicts, suggesting that gp57r may inhibit heterotypic phage infections via its HEPN domain. We also show that Butters gp57r has orthologues in clinical isolates ofMycobacterium abscessussp. including the phage therapy candidate strain GD91 which was found to be resistant to the panel of phages tested. It is conceivable that this GD91 orthologue of gp57r may mediate resistance to the subset of phages tested. Challenges of this nature underscore the importance of elucidating mechanisms of antiphage systems and mutations that allow for escape from inhibition.

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Mycobacteriumphage Butters-encoded proteins contribute to host defense against viral attack

Cited by 2 publications

References 47 publications

Characterization of Novel Recombinant Mycobacteriophages derived from Homologous Recombination between two Temperate Phages

Characterization of Novel Recombinant Mycobacteriophages derived from Homologous Recombination between two Temperate Phages

Identification of a new antiphage system inMycobacteriumphage Butters

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