Nature Communications (Mar 2024)

Microevolution, reinfection and highly complex genomic diversity in patients with sequential isolates of Mycobacterium abscessus

  • Sergio Buenestado-Serrano,
  • Miguel Martínez-Lirola,
  • Marta Herranz-Martín,
  • Jaime Esteban,
  • Antonio Broncano-Lavado,
  • Andrea Molero-Salinas,
  • Amadeo Sanz-Pérez,
  • Jesús Blázquez,
  • Alba Ruedas-López,
  • Carlos Toro,
  • Paula López-Roa,
  • Diego Domingo,
  • Ester Zamarrón,
  • María Jesús Ruiz Serrano,
  • Patricia Muñoz,
  • Laura Pérez-Lago,
  • Darío García de Viedma

DOI
https://doi.org/10.1038/s41467-024-46552-w
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 11

Abstract

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Abstract Mycobacterium abscessus is an opportunistic, extensively drug-resistant non-tuberculous mycobacterium. Few genomic studies consider its diversity in persistent infections. Our aim was to characterize microevolution/reinfection events in persistent infections. Fifty-three sequential isolates from 14 patients were sequenced to determine SNV-based distances, assign resistance mutations and characterize plasmids. Genomic analysis revealed 12 persistent cases (0-13 differential SNVs), one reinfection (15,956 SNVs) and one very complex case (23 sequential isolates over 192 months), in which a first period of persistence (58 months) involving the same genotype 1 was followed by identification of a genotype 2 (76 SNVs) in 6 additional alternating isolates; additionally, ten transient genotypes (88-243 SNVs) were found. A macrolide resistance mutation was identified from the second isolate. Despite high diversity, the genotypes shared a common phylogenetic ancestor and some coexisted in the same specimens. Genomic analysis is required to access the true intra-patient complexity behind persistent infections involving M. abscessus.