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Cutibacterium acnes (Propionibacterium acnes) and acne vulgaris: a brief look at the latest updates.Journal of the European Academy of... Jun 2018While the commensal bacterium Propionibacterium acnes (P. acnes) is involved in the maintenance of a healthy skin, it can also act as an opportunistic pathogen in acne... (Review)
Review
While the commensal bacterium Propionibacterium acnes (P. acnes) is involved in the maintenance of a healthy skin, it can also act as an opportunistic pathogen in acne vulgaris. The latest findings on P. acnes shed light on the critical role of a tight equilibrium between members of its phylotypes and within the skin microbiota in the development of this skin disease. Indeed, contrary to what was previously thought, proliferation of P. acnes is not the trigger of acne as patients with acne do not harbour more P. acnes in follicles than normal individuals. Instead, the loss of the skin microbial diversity together with the activation of the innate immunity might lead to this chronic inflammatory condition. This review provides results of the most recent biochemical and genomic investigations that led to the new taxonomic classification of P. acnes renamed Cutibacterium acnes (C. acnes), and to the better characterisation of its phylogenetic cluster groups. Moreover, the latest data on the role of C. acnes and its different phylotypes in acne are presented, providing an overview of the factors that could participate in the virulence and in the antimicrobial resistance of acne-associated strains. Overall, this emerging key information offers new perspectives in the treatment of acne, with future innovative strategies focusing on C. acnes biofilms and/or on its acne-associated phylotypes.
Topics: Acne Vulgaris; Humans; Propionibacterium acnes
PubMed: 29894579
DOI: 10.1111/jdv.15043 -
F1000Research 2018The skin commensal , recently renamed , along with the other major pathophysiological factors of increased seborrhea, hyperkeratinization of the pilosebaceous unit, and... (Review)
Review
The skin commensal , recently renamed , along with the other major pathophysiological factors of increased seborrhea, hyperkeratinization of the pilosebaceous unit, and inflammation, has long been implicated in the pathogenesis of acne. Recent advances have contributed to our understanding of the role of in acne. Although there are no quantitative differences in of the skin of patients with acne compared with controls, the phylogenic groups display distinct genetic and phenotypic characteristics, biofilms are more frequent in acne, and different phylotypes may induce distinct immune responses in acne. plays a further important role in the homeostasis of the skin's microbiome, interacting with other cutaneous commensal or pathogenic microorganisms such as , , and species. In the era of increasing antimicrobial resistance, the selection of acne treatment targeting and the prevention of antibiotic resistance play a key role in improving outcomes in acne patients and public health.
Topics: Acne Vulgaris; Animals; Biofilms; Drug Resistance, Microbial; Gram-Positive Bacterial Infections; Humans; Microbiota; Propionibacterium acnes; Skin
PubMed: 30613388
DOI: 10.12688/f1000research.15659.1 -
The Journal of Investigative Dermatology Sep 2013The human skin microbiome has important roles in skin health and disease. However, bacterial population structure and diversity at the strain level is poorly understood....
The human skin microbiome has important roles in skin health and disease. However, bacterial population structure and diversity at the strain level is poorly understood. We compared the skin microbiome at the strain level and genome level of Propionibacterium acnes, a dominant skin commensal, between 49 acne patients and 52 healthy individuals by sampling the pilosebaceous units on their noses. Metagenomic analysis demonstrated that although the relative abundances of P. acnes were similar, the strain population structures were significantly different in the two cohorts. Certain strains were highly associated with acne, and other strains were enriched in healthy skin. By sequencing 66 previously unreported P. acnes strains and comparing 71 P. acnes genomes, we identified potential genetic determinants of various P. acnes strains in association with acne or health. Our analysis suggests that acquired DNA sequences and bacterial immune elements may have roles in determining virulence properties of P. acnes strains, and some could be future targets for therapeutic interventions. This study demonstrates a previously unreported paradigm of commensal strain populations that could explain the pathogenesis of human diseases. It underscores the importance of strain-level analysis of the human microbiome to define the role of commensals in health and disease.
Topics: Acne Vulgaris; Adult; DNA, Bacterial; Female; Genomics; Gram-Positive Bacterial Infections; Humans; Male; Metagenome; Propionibacterium acnes; RNA, Bacterial; RNA, Ribosomal; Ribotyping; Sebaceous Glands; Skin; Young Adult
PubMed: 23337890
DOI: 10.1038/jid.2013.21 -
BioMed Research International 2013
Topics: Humans; Propionibacterium acnes; Skin Diseases, Bacterial
PubMed: 24455697
DOI: 10.1155/2013/493564 -
Applied Microbiology and Biotechnology Jan 2018Bacteria from the Propionibacterium genus consists of two principal groups: cutaneous and classical. Cutaneous Propionibacterium are considered primary pathogens to... (Review)
Review
Bacteria from the Propionibacterium genus consists of two principal groups: cutaneous and classical. Cutaneous Propionibacterium are considered primary pathogens to humans, whereas classical Propionibacterium are widely used in the food and pharmaceutical industries. Bacteria from the Propionibacterium genus are capable of synthesizing numerous valuable compounds with a wide industrial usage. Biomass of the bacteria from the Propionibacterium genus constitutes sources of vitamins from the B group, including B12, trehalose, and numerous bacteriocins. These bacteria are also capable of synthesizing organic acids such as propionic acid and acetic acid. Because of GRAS status and their health-promoting characteristics, bacteria from the Propionibacterium genus and their metabolites (propionic acid, vitamin B12, and trehalose) are commonly used in the cosmetic, pharmaceutical, food, and other industries. They are also used as additives in fodders for livestock. In this review, we present the major species of Propionibacterium and their properties and provide an overview of their functions and applications. This review also presents current literature concerned with the possibilities of using Propionibacterium spp. to obtain valuable metabolites. It also presents the biosynthetic pathways as well as the impact of the genetic and environmental factors on the efficiency of their production.
Topics: Bacteriocins; Biomass; Biosynthetic Pathways; Fermentation; Industrial Microbiology; Propionates; Propionibacterium; Trehalose; Vitamin B 12
PubMed: 29167919
DOI: 10.1007/s00253-017-8616-7 -
Brazilian Journal of Biology = Revista... 2022The gastrointestinal microflora regulates the body's functions and plays an important role in its health. Dysbiosis leads to a number of chronic diseases such as...
The gastrointestinal microflora regulates the body's functions and plays an important role in its health. Dysbiosis leads to a number of chronic diseases such as diabetes, obesity, inflammation, atherosclerosis, etc. However, these diseases can be prevented by using probiotics - living microorganisms that benefit the microflora and, therefore, improve the host organism's health. The most common probiotics include lactic acid bacteria of the Bifidobacterium and Propionibacterium genera. We studied the probiotic properties of the following strains: Bifidobacterium adolescentis АС-1909, Bifidobacterium longum infantis АС-1912, Propionibacterium jensenii В-6085, Propionibacterium freudenreichii В-11921, Propionibacterium thoenii В-6082, and Propionibacterium acidipropionici В-5723. Antimicrobial activity was determined by the 'agar blocks' method against the following test cultures: Escherichia coli ATCC 25922, Salmonella enterica ATCC 14028, Staphylococcus aureus ATCC 25923, Pseudomonas aeruginosa B6643, Proteus vulgaris ATCC 63, and Listeria monocytogenes ATCC 7644. Moderate antimicrobial activity against all the test cultures was registered in Bifidobacterium adolescentis АС-1909, Propionibacterium jensenii В-6085, and Propionibacterium thoenii В-6082. Antioxidant activity was determined by the DPPH inhibition method in all the lactic acid strains. Our study indicated that some Propionibacterium and Bifidobacterium strains or, theoretically, their consortia could be used as probiotic cultures in dietary supplements or functional foods to prevent a number of chronic diseases.
Topics: Anti-Infective Agents; Bifidobacterium; Escherichia coli; Gastrointestinal Tract; Probiotics; Propionibacteriaceae; Propionibacterium
PubMed: 35544788
DOI: 10.1590/1519-6984.256945 -
Current Biology : CB Aug 2012
Topics: Brevibacterium; Cheese; Microbial Consortia; Odorants; Penicillium; Propionibacterium
PubMed: 22877773
DOI: 10.1016/j.cub.2012.06.014 -
MSphere Jan 2020Porphyrins are intermediate metabolites in the biosynthesis of vital molecules, including heme, cobalamin, and chlorophyll. Bacterial porphyrins are known to be... (Comparative Study)
Comparative Study
Porphyrins are intermediate metabolites in the biosynthesis of vital molecules, including heme, cobalamin, and chlorophyll. Bacterial porphyrins are known to be proinflammatory, with high levels linked to inflammatory skin diseases. species are dominant skin commensals and play essential roles in defending against pathogens and in triggering an inflammatory response. To better understand how the inflammatory potential of the skin microbiome may vary depending on its propionibacterial composition, we compared the production levels of porphyrins among , , , and strains. We found that porphyrin production varied among these species, with type I strains producing significantly larger amounts of porphyrins than type II and III strains and other species. strains that are highly associated with the common skin condition acne vulgaris responded to vitamin B supplementation with significantly higher porphyrin production. In contrast, vitamin B supplementation had no effect on the porphyrin production of health-associated strains and other propionibacteria. We observed low-level porphyrin production in most strains harboring the repressor gene, with the exception of strains belonging to type I clades IB-3 and IC. Our findings shed light on the proinflammatory potential of distinct phylogenetic lineages of as well as other resident skin propionibacteria. We demonstrate that the overall species and strain composition is important in determining the metabolic output of the skin microbiome in health and disease. Porphyrins are a group of metabolites essential to the biosynthesis of heme, cobalamin, and chlorophyll in living organisms. Bacterial porphyrins can be proinflammatory, with high levels linked to human inflammatory diseases, including the common skin condition acne vulgaris. Propionibacteria are among the most abundant skin bacteria. Variations in propionibacteria composition on the skin may lead to different porphyrin levels and inflammatory potentials. This study characterized porphyrin production in all lineages of , the most dominant skin , and other resident skin propionibacteria, including , , and We revealed that type I strains produced significantly more porphyrins than did type II and III strains and other species. The findings from this study shed light on the proinflammatory potential of the skin microbiome and can be used to guide the development of effective acne treatments by modulating the skin microbiome and its metabolic activities.
Topics: Humans; Microbiota; Phylogeny; Porphyrins; Propionibacteriaceae; Propionibacterium; Propionibacterium acnes; Skin
PubMed: 31941813
DOI: 10.1128/mSphere.00793-19 -
Respiratory Investigation Jun 2013Propionibacterium acnes is the only microorganism isolated from sarcoid lesions by bacterial culture. Numerous P. acnes genomes are found in lymph node samples from... (Review)
Review
Propionibacterium acnes is the only microorganism isolated from sarcoid lesions by bacterial culture. Numerous P. acnes genomes are found in lymph node samples from Japanese and European patients with sarcoidosis, whereas a few genomes are found in some non-sarcoid samples. The high frequency and specificity of detecting P. acnes within sarcoid granulomas suggests that this indigenous bacterium causes granuloma formation in many patients with sarcoidosis. P. acnes is the most common commensal bacterium in the lungs and lymph nodes. Occasional detection of P. acnes in non-granulomatous areas of these organs from non-sarcoid patients suggests that host factors are more critical than agent factors in the etiology of sarcoidosis. A particular protein, i.e., trigger factor, from P. acnes causes a cellular immune response only in sarcoid patients. The P. acnes trigger-factor protein induces pulmonary granulomas in mice sensitized with the protein and adjuvant, but only in those with latent P. acnes infection in their lungs. Eradication of P. acnes by antibiotics prevents the development of granulomas in this experimental model. P. acnes can cause latent infection in the lung and lymph nodes and persists in a cell wall-deficient form. The dormant form is endogenously activated under certain conditions and proliferates at the site of latent infection. In patients with P. acnes hypersensitivity, granulomatous inflammation is triggered by intracellular proliferation of the bacterium. Proliferating bacteria may escape granulomatous isolation, spreading to other organs. Latent P. acnes infection in systemic organs can be reactivated by another triggering event, leading to systemic sarcoidosis.
Topics: Gram-Positive Bacterial Infections; Humans; Propionibacterium acnes; Sarcoidosis
PubMed: 23790733
DOI: 10.1016/j.resinv.2013.01.001 -
Clinical Microbiology Reviews Jul 2018The recent description of the genus has altered the taxonomy of species. These organisms still belong to the genera of the skin coryneform group, and the most-studied... (Review)
Review
The recent description of the genus has altered the taxonomy of species. These organisms still belong to the genera of the skin coryneform group, and the most-studied species remains . is also a known skin commensal. This underrecognized microorganism can, however, act as a pathogen after bacterial seeding and can be considered opportunistic, causing either superficial or deep/invasive infections. It can cause numerous infections, including but not limited to breast infections, skin abscesses, infective endocarditis, and device-related infections. The ecological niche of is clearly different from that of other members of the genus: it is found in the axillary region or at wet sites rather than in dry, exposed areas, and the number of microorganisms increases during puberty. Historically, it has been used for its ability to modulate the immune response and for its antitumor properties. Conventional microbial culture methods and identification processes allow for its accurate identification and characterization. Thanks to the modern omics tools used for phylogenomic approaches, understanding pathogenesis (including host-bacterium interactions and virulence factor characterization) is becoming easier, allowing for more thorough molecular characterization. These analyses have revealed that causes diverse diseases mediated by multiple virulence factors. The recent genome approach has revealed specific genomic regions within this species that are involved in adherence and biofilm formation as well as fitness, survival, and defense functions. Numerous regions show the presence of phages and horizontal gene transfer. remains highly sensitive to a broad spectrum of antibiotics, such as β-lactams, fluoroquinolones, macrolides, and rifampin, although erythromycin and clindamycin resistance has been described. A long-term treatment regimen with a combination of antibiotics is required to successfully eliminate the remaining adherent bacteria, particularly in the case of deep infections after debridement surgery.
Topics: Actinomycetales Infections; Anti-Bacterial Agents; Humans; Phylogeny; Propionibacterium
PubMed: 29848774
DOI: 10.1128/CMR.00064-17