Single nucleotide variation catalog from clinical isolates mapped on tertiary and quaternary structures of ESX-1-related proteins reveals critical regions as putative Mtb therapeutic targets

Oren Tzfadia*, Abril Gijsbers, Alexandra Vujkovic, Jihad Snobre, Roger Vargas, Klaas Dewaele, Conor J. Meehan, Maha Farhat, Sneha Hakke, Peter J. Peters, Bouke C. de Jong*, Axel Siroy*, Raimond B. G. Ravelli

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Proteins encoded by the ESX-1 genes of interest are essential for full virulence in all Mycobacterium tuberculosis complex (Mtbc) lineages, the pathogens causing the highest mortality worldwide. Identifying critical regions in these ESX-1-related proteins could provide preventive or therapeutic targets for Mtb infection, the game changer needed for tuberculosis control. We analyzed a compendium of whole genome sequences of clinical Mtb isolates from all lineages from >32,000 patients and identified single nucleotide polymorphisms. When mutations corresponding to all non-synonymous single nucleotide polymorphisms were mapped on structural models of the ESX-1 proteins, fully conserved regions emerged. Some could be assigned to known quaternary structures, whereas others could be predicted to be involved in yet-to-be-discovered interactions. Some mutants had clonally expanded (found in >1% of the isolates); these mutants were mostly located at the surface of globular domains, remote from known intra- and inter-molecular protein-protein interactions. Fully conserved intrinsically disordered regions of proteins were found, suggesting that these regions are crucial for the pathogenicity of the Mtbc. Altogether, our findings highlight fully conserved regions of proteins as attractive vaccine antigens and drug targets to control Mtb virulence. Extending this approach to the whole Mtb genome as well as other microorganisms will enhance vaccine development for various pathogens. IMPORTANCE: We mapped all non-synonymous single nucleotide polymorphisms onto each of the experimental and predicted ESX-1 proteins' structural models and inspected their placement. Varying sizes of conserved regions were found. Next, we analyzed predicted intrinsically disordered regions within our set of proteins, finding two putative long stretches that are fully conserved, and discussed their potential essential role in immunological recognition. Combined, our findings highlight new targets for interfering with Mycobacterium tuberculosis complex virulence.

Original languageEnglish
Article numbere0381623
Number of pages19
JournalMicrobiology spectrum
Volume12
Issue number8
Early online date1 Jun 2024
DOIs
Publication statusPublished - 6 Aug 2024

Keywords

  • SNV
  • virulence factors
  • Mycobacterium tuberculosis
  • protein structure-function
  • AlphaFold
  • ESX-1 SECRETION SYSTEM
  • MYCOBACTERIUM-TUBERCULOSIS
  • VIRULENCE
  • TRANSLOCATION
  • RESISTANCE
  • DIVERSITY
  • INFECTION
  • SEQUENCES
  • CYTOSOL
  • DOMAIN

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