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Reproducing the scalp microbiota community: co‐colonization of a 3D reconstructed human epidermis with C. acnes and M. restricta
Author(s) -
Meloni Marisa,
Balzaretti Silvia,
Collard Nathalie,
Desaint Stephane,
Laperdrix Celine
Publication year - 2021
Publication title -
international journal of cosmetic science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.532
H-Index - 62
eISSN - 1468-2494
pISSN - 0142-5463
DOI - 10.1111/ics.12688
Subject(s) - epidermis (zoology) , dandruff , scalp , chemistry , phenotype , corneocyte , barrier function , microbiology and biotechnology , biophysics , biology , stratum corneum , biochemistry , shampoo , gene , anatomy , genetics , organic chemistry
Objective A 3D reconstructed human epidermis (RHE) model colonized with specific microbial strains was developed to model the complex interactions between strains of the human scalp hair. Methods Reconstructed human epidermis was colonized with Cutibacterium acnes and Malassezia restricta for 72 h. The epidermal model was characterized in terms of morphology, using immune‐labelling targeting biomarkers for barrier structure, proliferation, differentiation and anti‐microbial defence. The barrier function was assessed by transepithelial electrical eesistance (TEER) measurements. In order to study the microorganisms on the epidermal model, viable counts and phenotype ultrastructure analysis were performed by scanning electron microscopy (SEM). Results The RHE colonized with C. acnes did not lead to severe modifications of the physiological barrier integrity and viability, though it shows aggregates. M. restricta formed large aggregates by a close interaction with the RHE, thus causing both a strong decrease in barrier function and structure degradation and an increased human beta defensin 2 (HBD2) expression. The co‐colonized model resulted in barrier depletion, but the overall damage was less severe, respecting the single colonization with M. restricta . The developed ‘scalp model’ allowed to identify morphological modifications leading to uncontrolled epidermal renewal. Conclusion This study shows a pre‐clinical model that recapitulates the interactions that can occur between site‐specific microbial strains and keratinocytes in dandruff condition. The model can be applied to assess ingredients and products’ mechanism of action.