Microorganisms (Nov 2021)

Common Features and Intra-Species Variation of <i>Cutibacterium modestum</i> Strains, and Emended Description of the Species

  • Itaru Dekio,
  • Ken-ichi Okuda,
  • Masako Nishida,
  • Susumu Hamada-Tsutsumi,
  • Tomo Suzuki,
  • Shigeru Kinoshita,
  • Hiroto Tamura,
  • Kenichiro Ohnuma,
  • Yoshiyuki Murakami,
  • Yuki Kinjo,
  • Akihiko Asahina

DOI
https://doi.org/10.3390/microorganisms9112343
Journal volume & issue
Vol. 9, no. 11
p. 2343

Abstract

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Cutibacterium modestum is a new species coined in 2020 as the fifth species of genus Cutibacterium, which includes Cutibacterium acnes. The species is predicted as a minor but common member of skin microbiome and includes a group tentatively named as “Propionibacterium humerusii”. The description of the species has been provided only with a single strain. To establish the characteristics of C. modestum and search for possible disease-related subtypes, we investigated the biochemical characteristics of eight live strains and performed in silico comparison of nine genomes. The common features, which included the morphology of Gram-stain positive short rods, the negativity of phenylalanine arylamidase, and several unique MALDI-TOF MS spectral peaks, were considered useful in laboratory identification. Pairwise comparisons of the genomes by in silico DNA–DNA hybridization showed similarity values of 98.1% or larger, which were far higher than the subspecies cutoff of 79–80%. The 16S rRNA gene sequences of thirteen isolates and genomes were identical. Their recA gene sequences were identical except for two strains, HM-510 (HL037PA2) and Marseille-P5998, which showed unique one-nucleotide polymorphisms. The biochemical features using API kits were slightly different among the isolates but far closer than those of the nearest other species, C. acnes and Cutibacterium namnetense. Spectra of MALDI-TOF mass spectrometry showed slight differences in the presence of m/z 10,512 (10 kD chaperonin GroS) and three other peaks, further clustering the eight isolates into three subtypes. These results indicated that these isolates did not separate to form subspecies-level clusters, but subtyping is possible by using recA gene sequences or MALDI-TOF mass spectrometry spectra. Moreover, this work has confirmed that a group “P. humerusii” is included in C. modestum.

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