Pathogenic Determinants of the <i>Mycobacterium kansasii</i> Complex: An Unsuspected Role for Distributive Conjugal Transfer

• Main Authors: Florian Tagini, Trestan Pillonel, Claire Bertelli, Katia Jaton, Gilbert Greub
• Format: Article
• Language: English
• Published: MDPI AG 2021-02-01
• Series: Microorganisms
• Subjects: whole-genome sequencing; virulence; virulence factor; nontuberculous mycobacteria; genomics; conjugative plasmid
• Online Access: https://www.mdpi.com/2076-2607/9/2/348

The <i>Mycobacterium kansasii</i> species comprises six subtypes that were recently classified into six closely related species; <i>Mycobacterium kansasii </i>(formerly <i>M. kansasii</i> subtype 1),<i> Mycobacterium persicum </i>(subtype 2),<i> Mycobacterium pseudokansasii </i>(subtype 3),<i> Mycobacterium ostraviense </i>(subtype 4),<i> Mycobacterium innocens </i>(subtype 5) and<i> Mycobacterium attenuatum </i>(subtype 6). Together with <i>Mycobacterium gastri</i>, they form the <i>M. kansasii</i> complex. <i>M. kansasii</i> is the most frequent and most pathogenic species of the complex. <i>M. persicum</i> is classically associated with diseases in immunosuppressed patients, and the other species are mostly colonizers, and are only very rarely reported in ill patients. Comparative genomics was used to assess the genetic determinants leading to the pathogenicity of members of the <i>M. kansasii</i> complex. The genomes of 51 isolates collected from patients with and without disease were sequenced and compared with 24 publicly available genomes. The pathogenicity of each isolate was determined based on the clinical records or public metadata. A comparative genomic analysis showed that all <i>M. persicum</i>, <i>M. ostraviense</i>, <i>M innocens</i> and <i>M. gastri </i>isolates lacked the ESX-1-associated EspACD locus that is thought to play a crucial role in the pathogenicity of <i>M. tuberculosis</i> and other non-tuberculous mycobacteria. Furthermore, <i>M. kansasii</i> was the only species exhibiting a 25-Kb-large genomic island encoding for 17 type-VII secretion system-associated proteins. Finally, a genome-wide association analysis revealed that two consecutive genes encoding a hemerythrin-like protein and a nitroreductase-like protein were significantly associated with pathogenicity. These two genes may be involved in the resistance to reactive oxygen and nitrogen species, a required mechanism for the intracellular survival of bacteria. Three non-pathogenic <i>M. kansasii</i> lacked these genes likely due to two distinct distributive conjugal transfers (DCTs) between <i>M. attenuatum</i> and <i>M. kansasii</i>, and one DCT between <i>M. persicum</i> and <i>M. kansasii</i>. To our knowledge, this is the first study linking DCT to reduced pathogenicity.