High bacterial colonization and lipase activity in microcomedones

Josse, Gwendal; Mias, Céline; Digabel, Jimmy Le; Filiol, Jerome; Ipinazar, Célia; Villaret, Aurélie; Gomiero, Caroline; Bevilacqua, Marc; Redoulès, Daniel; Nocera, Thérèse; Saurat, Jean‐Hilaire; Gontier, Etienne

doi:10.1111/exd.14069

Cited by 30 publications

(50 citation statements)

References 35 publications

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“…However, given the abundance of P. acnes in the human HF microbiome, it may be relevant for acne-related activities of monocyte-derived perifollicular macrophages that excessive skin colonization with certain P. acnes strains can increase TLR2-mediated monocyte secretion of IL-12 and IL-8, thus promoting an inflammatory response. [129][130][131] Retinoids and tetracyclines, two standard acne therapies, both modulate the skin microbiome, presumably causing a decrease in Propionibacteria and an increase in Staphylococci, Streptococci and overall species diversity. 132 However, a recent study has reported the opposite: a higher density of P. acnes and a decrease of Staphylococci and Enterococci in healthy controls compared with patients with acne.…”

Section: Acne Vulgarismentioning

confidence: 99%

“…However, given the abundance of P. acnes in the human HF microbiome, it may be relevant for acne‐related activities of monocyte‐derived perifollicular macrophages that excessive skin colonization with certain P. acnes strains can increase TLR2‐mediated monocyte secretion of IL‐12 and IL‐8, thus promoting an inflammatory response 129–131 …”

Section: Dysbiosis Of the Human Hair Follicle Microbiome And Associated Hair Diseasesmentioning

confidence: 99%

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Exploring the human hair follicle microbiome*

et al. 2021

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Section: Acne Vulgarismentioning

confidence: 99%

Section: Dysbiosis Of the Human Hair Follicle Microbiome And Associated Hair Diseasesmentioning

confidence: 99%

Exploring the human hair follicle microbiome*

et al. 2021

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“…C. acnes macrocolonies of more than 1,000 bacterial cells can be observed in association with the follicular epithelium of the pilosebaceous unit; they are more often present in follicles from acneic skin biopsies than in follicles of individuals with healthy skin ( Jahns et al., 2012 ). High bacterial colonization of the follicles was recently also observed in transmission electron microscopy images of microcomedones ( Josse et al., 2020 ). As C. acnes growth and proliferation in the pilosebaceous unit is considered one of the factors that contributes to the etiology of acne, we first investigated the ability of strains belonging to phylotypes I and II to associate with HaCaT keratinocytes and SZ95 sebocytes.…”

Section: Discussionmentioning

confidence: 62%

Cutibacterium acnes Phylotype I and II Strains Interact Differently With Human Skin Cells

Spittaels

Ongena

Zouboulis

et al. 2020

Front. Cell. Infect. Microbiol.

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Section: Where Org Anot Ypi C S Kin Culture S " S Hine"mentioning

confidence: 99%

“…Another common skin disorder ripe for in vitro modelling is acne vulgaris , where genetic predispositions, hormonal changes, stress and environmental factors lead to the formation of microcomedones, 65‐67 many of which can become inflamed 68 . Inflammatory microcomedones are caused by hyperseborrhoea, where fatty acid composition of sebum becomes altered, leading to accumulation of peroxidized squalene and favouring expansion of C. acnes 66,69,70 .…”

Section: Where Organotypic Skin Cultures “Shine”mentioning

confidence: 99%

Fostering a healthy culture: Biological relevance of in vitro and ex vivo skin models

Atwood

Plikus

2021

Experimental Dermatology

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The field of experimental dermatology research has dramatically benefited from the insights yielded by in vivo studies on animal models. Indeed, much of our understanding of the mechanisms that regulate embryonic skin development, adult skin homeostasis and physiological skin responses to stress, such as wound healing, has been educated by studies conducted in animal models, including mutant mice. These works become commonly published on the pages of Experimental Dermatology and, in fact, represent one of the core interests of the journal. Highlighting in vivo mouse model studies are recent works on hair follicle development and growth 1-5 and wound healing. 6-8 Further, studies in animal models often help to elucidate aspects of disease pathogenesis, and mouse models are used to investigate mechanisms of human skin conditions such as atopic dermatitis, 9-13 contact dermatitis, 14-16 psoriasis, 17,18 rosacea 19 and squamous cell carcinoma 20 to name a few. On the other hand, not all human skin diseases or aspects of human skin physiology can be reliably modelled in rodents. This is not surprising, considering that humans and rodents are separated by an estimated 96 million years of evolution. 21 Addressing this fact, many studies are being conducted on patient-derived primary skin cells, including human keratinocytes, 22-25 melanocytes, 26-30 fibroblasts 31-34 and cell co-cultures. 35-37 However, typical in vitro culture conditions fail to replicate and, in fact, do not come close to imitating the biomechanical and biochemical complexity of the microenvironment in which cells exist and to which they respond to in native tissues. Further, ingredients in commonly used cell culture media and the two-dimensional constraints of growth on plastic result in cells being exposed to a lot of artificial cues, to which they adapt but also prominently alter their gene expression profile and functional activities in the process. Therefore, behaviours displayed by skin cells in twodimensional cultures need to be comprehensively validated under more native-like conditions in order to be deemed biologically and physiologically relevant. Helping to bridge the gap, threedimensional (3D) organotypic cultures and organ culture techniques have long been a highly instructive tool for investigating complex, tissue-level behaviours by skin cells.

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High bacterial colonization and lipase activity in microcomedones

Cited by 30 publications

References 35 publications

Exploring the human hair follicle microbiome*

Exploring the human hair follicle microbiome*

Cutibacterium acnes Phylotype I and II Strains Interact Differently With Human Skin Cells

Fostering a healthy culture: Biological relevance of in vitro and ex vivo skin models

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