Olivia Zobiri scite author profile

The aim of the present study was to characterize human side population (SP) epidermal keratinocytes isolated from primary cell cultures. For that purpose, keratinocytes were isolated from normal adult breast skin samples and the Hoechst 33342 exclusion assay described for hematopoietic cells was adapted to keratinocytes. Three types of keratinocytes were studied: the SP, the main population (MP), and the unsorted initial population. SP keratinocytes represented 0.16% of the total population. In short-term cultures, they exhibited an increased colony-forming efficiency and produced more actively growing colonies than did unsorted and MP keratinocytes. In long-term cultures, SP cells exhibited an extensive expansion potential, performing a mean of 44 population doublings for up to 12 successive passages after cell sorting. Moreover, even in longterm cultures, SP keratinocytes were able to form a pluristratified epidermis when seeded on a dermal substrate. Unsorted and MP keratinocytes promoted a reduced expansion: mean values of 14 population doublings for five passages and 12 population doublings for four successive passages, respectively. To further characterize SP cells, cDNA microarrays were used to identify their molecular signature. Transcriptome profiling showed that 41 genes were differentially expressed in SP (vs. MP) cells, with 37 upregulated genes and only four downregulated genes in SP cells. The majority of these genes were functionally related to the regulation of transcription and cell signaling. In conclusion, SP human keratinocytes isolated from primary cultures exhibited both short-and long-term high proliferative potential, formed a pluristratified epidermis, and were characterized by a specific gene expression profile. STEM CELLS 2006;24:965-974

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Evolution of the clonogenic potential of human epidermal stem/progenitor cells with age

Zobiri

Deshayes²,

Rathman-Josserand³

2012

SCCAA

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A number of clinical observations have indicated that the regenerative potential and overall function of the epidermis is modified with age. The epidermis becomes thinner, repairs itself less efficiently after wounding, and presents modified barrier function recovery. In addition, the dermal papillae flatten out with increasing age, suggesting a modification in the interaction between epidermal and dermal compartments. As the epidermal regenerative capacity is dependent upon stem and progenitor cell function, it is naturally of interest to identify and understand age-related changes in these particular keratinocyte populations. Previous studies have indicated that the number of stem cells does not decrease with age in mouse models but little solid evidence is currently available concerning human skin. The objective of this study was to evaluate the clonogenic potential of keratinocyte populations isolated from the epidermis of over 50 human donors ranging from 18 to 71 years old. The data indicate that the number of epidermal cells presenting high regenerative potential does not dramatically decline with age in human skin. The authors believe that changes in the microenvironment controlling epidermal basal cell activity are more likely to explain the differences in epidermal function observed with increasing age.

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Repeated Exposures to UVA1 and Particulate Matter‒Associated Pollutants Trigger Epidermal Barrier Dysfunction in Skin Epithelialization Model

Zobiri¹,

Zucchi²,

Dimitrov³

et al. 2022

Journal of Investigative Dermatology

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Olivia Zobiri

Photo-pollution stress in skin: Traces of pollutants (PAH and particulate matter) impair redox homeostasis in keratinocytes exposed to UVA1

Human Side Population Keratinocytes Exhibit Long-Term Proliferative Potential and a Specific Gene Expression Profile and Can Form a Pluristratified Epidermis

Evolution of the clonogenic potential of human epidermal stem/progenitor cells with age

Repeated Exposures to UVA1 and Particulate Matter‒Associated Pollutants Trigger Epidermal Barrier Dysfunction in Skin Epithelialization Model

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