Your browser doesn't support javascript.
loading
The Helicobacter pylori methylome is acid-responsive due to regulation by the two-component system ArsRS and the type I DNA methyltransferase HsdM1 (HP0463).
Zimmerman, Elise H; Ramsey, Erin L; Hunter, Katherine E; Villadelgado, Sarah M; Phillips, Celeste M; Shipman, Ryan T; Forsyth, Mark H.
Afiliação
  • Zimmerman EH; Department of Biology, William & Mary , Williamsburg, Virginia, USA.
  • Ramsey EL; Department of Biology, William & Mary , Williamsburg, Virginia, USA.
  • Hunter KE; Department of Biology, William & Mary , Williamsburg, Virginia, USA.
  • Villadelgado SM; Department of Biology, William & Mary , Williamsburg, Virginia, USA.
  • Phillips CM; Department of Biology, William & Mary , Williamsburg, Virginia, USA.
  • Shipman RT; Department of Biology, William & Mary , Williamsburg, Virginia, USA.
  • Forsyth MH; Department of Biology, William & Mary , Williamsburg, Virginia, USA.
J Bacteriol ; 206(1): e0030923, 2024 01 25.
Article em En | MEDLINE | ID: mdl-38179929
ABSTRACT
In addition to its role in genome protection, DNA methylation can regulate gene expression. In this study, we characterized the impact of acidity, phase variation, and the ArsRS TCS on the expression of the Type I m6A DNA methyltransferase HsdM1 (HP0463) of Helicobacter pylori 26695 and their subsequent effects on the methylome. Transcription of hsdM1 increases at least fourfold in the absence of the sensory histidine kinase ArsS, the major acid-sensing protein of H. pylori. hsdM1 exists in the phase-variable operon hsdR1-hsdM1. Phase-locking hsdR1 (HP0464), the restriction endonuclease gene, has significant impacts on the transcription of hsdM1. To determine the impacts of methyltransferase transcription patterns on the methylome, we conducted methylome sequencing on samples cultured at pH 7 or pH 5. We found differentially methylated motifs between these growth conditions and that deletions of arsS and/or hsdM1 interfere with the epigenetic acid response. Deletion of arsS leads to altered activity of HsdM1 and multiple other methyltransferases under both pH conditions indicating that the ArsRS TCS, in addition to direct effects on regulon transcription during acid acclimation, may also indirectly impact gene expression via regulation of the methylome. We determined the target motif of HsdM1 (HP0463) to be the complementary bipartite sequence pair 5'-TCAm6AVN6TGY-3' and 3'-AGTN6GAm6ACA-5'. This complex regulation of DNA methyltransferases, and thus differential methylation patterns, may have implications for the decades-long persistent infection by H. pylori. IMPORTANCE This study expands the possibilities for complex, epigenomic regulation in Helicobacter pylori. We demonstrate that the H. pylori methylome is plastic and acid sensitive via the two-component system ArsRS and the DNA methyltransferase HsdM1. The control of a methyltransferase by ArsRS may allow for a layered response to changing acidity. Likely, an early response whereby ArsR~P affects regulon expression, including the methyltransferase hsdM1. Then, a somewhat later effect as the altered methylome, due to altered HsdM1 expression, subsequently alters the expression of other genes involved in acclimation. The intermediate methylation of certain motifs supports the hypothesis that methyltransferases play a regulatory role. Untangling this additional web of regulation could play a key role in understanding H. pylori colonization and persistence.
Assuntos
Palavras-chave

Texto completo: 1 Base de dados: MEDLINE Assunto principal: Helicobacter pylori Idioma: En Ano de publicação: 2024 Tipo de documento: Article

Texto completo: 1 Base de dados: MEDLINE Assunto principal: Helicobacter pylori Idioma: En Ano de publicação: 2024 Tipo de documento: Article