CUTIS-SEQ, a flexible bilocus sequence typing scheme that provides high resolution of Cutibacterium acnes strains across all subspecies

Joseph McLaughlin; István Nagy; Georgios Miliotis; Andrew McDowell

doi:10.1016/j.anaerobe.2022.102671

CUTIS-SEQ, a flexible bilocus sequence typing scheme that provides high resolution of Cutibacterium acnes strains across all subspecies

Anaerobe. 2023 Feb:79:102671. doi: 10.1016/j.anaerobe.2022.102671. Epub 2022 Nov 29.

Authors

Joseph McLaughlin¹, István Nagy², Georgios Miliotis³, Andrew McDowell⁴

Affiliations

¹ Personalised Medicine Centre, School of Medicine, Ulster University, Londonderry, UK.
² Institute of Biochemistry, Biological Research Centre, Szeged, Hungary; Seqomics Biotechnology Ltd., Mórahalom, Hungary.
³ School of Medicine, National University of Ireland, Galway, Ireland.
⁴ Personalised Medicine Centre, School of Medicine, Ulster University, Londonderry, UK; Nutrition Innovation Centre for Food and Health (NICHE), School of Biomedical Sciences, Ulster University, Coleraine, UK. Electronic address: a.mcdowell@ulster.ac.uk.

PMID: 36455756
DOI: 10.1016/j.anaerobe.2022.102671

Abstract

Objectives: A 'high resolution' Single Locus Sequence Typing (SLST) scheme has been described for the anaerobic skin bacterium Cutibacterium acnes that seemingly discriminates sequence types (STs) to a level commensurate with previously described Multilocus Sequence Typing (MLST) methods (MLST₄; MLST₈; MLST₉). However, no quantifiable evaluation of SLST versus MLST for differentiation of C. acnes strains, especially in relation to the subspecies of the bacterium, known as C. acnes subsp. acnes (type I), C. acnes subsp. defendens (type II) and C. acnes subsp. elongatum (type III), has been performed which is vital given its increasing use. To address this, we examined the discriminatory power of SLST versus MLST with a large group of isolates representative of all subspecies.

Methods: Simpson's index of diversity (D) was used for quantitative comparison of the resolving power of the SLST and MLST schemes for 186 isolates of C. acnes covering all three subspecies.

Results: When strains were considered collectively, SLST and all three MLST approaches had similar D values > 90%. However, at the subspecies level there were significant differences between the methods, most strikingly a reduced discrimination of type II and type III strains (D <80%) by SLST versus MLST₈, and to a lesser extent MLST₄. The MLST₉ method also performed poorly for type II strains (D <70%), but did display the best results for type I (D = 90%). By combining the SLST locus with the camp2 gene sequence to create a novel and flexible high-resolution Bilocus Sequence Typing (BLST) scheme, known as CUTIS-SEQ typing (CUTIbacterium acneS BilocuS sEQuence Typing), we achieved improved resolution at both species and, critically, subspp. levels.

Conclusions: CUTIS-SEQ provides an opportunity to improve differentiation of C. acnes isolates by SLST without significantly impacting laboratory workload, or compromising application to complex biological communities. A CUTIS-SEQ isolate database is now available as part of the C. acnes PubMLST database at https://pubmlst.org.

Keywords: CUTIS-SEQ typing; Cutibacterium acnes; Discrimination; MLST; Recombination; SLST.

MeSH terms

Acne Vulgaris* / microbiology
Humans
Multilocus Sequence Typing
Propionibacterium acnes
Skin* / microbiology