ABCG2 deficiency in skin impairs re-epithelialization in cutaneous wound healing

Autor:	Wei-Chao Huang, Hsiao-Min Chang, Sung-Jan Lin, Chia-Rui Shen, Chia-Ning Shen, Wan-Yu Mao, Wen-Yen Huang
Rok vydání:	2016
Předmět:	Adult Male 0301 basic medicine medicine.medical_specialty Pathology animal structures Abcg2 DNA damage Dermatology Biochemistry 03 medical and health sciences Basal (phylogenetics) Re-Epithelialization Side population medicine ATP Binding Cassette Transporter Subfamily G Member 2 Animals Humans Progenitor cell Molecular Biology Mice Knockout integumentary system biology Epidermis (botany) business.industry Neoplasm Proteins Transplantation Adult Stem Cells 030104 developmental biology Epidermal Cells embryonic structures biology.protein Female sense organs Epidermis Reactive Oxygen Species Wound healing business DNA Damage
Zdroj:	Experimental Dermatology. 25:355-361
ISSN:	0906-6705
DOI:	10.1111/exd.12936
Popis:	The ATP-binding cassette transporter ABCG2 is expressed in the interfollicular epidermis and mediates the side-population phenotype in skin cells. However, the role of ABCG2 in skin is unclear. Increased expression levels of ABCG2 were found at the basal layer of transitional epidermis adjacent to cutaneous wounds in human patients, indicating that ABCG2 may be involved in regulating the wound healing process. To investigate the role of ABCG2 in cutaneous wound healing, full-thickness skin wounds were created in ABCG2 knockout (ABCG2-KO) and wild-type mice. The healing process was analysed and revealed that ABCG2 deficiency in skin results in delays in wound closure and impairments in re-epithelialization, as evidenced by reductions in both suprabasal differentiation and in p63-expressing keratinocytes migrating from transitional epidermis to epithelial tongues. The reduction in p63-expressing cells may be due to elevated levels of reactive oxygen species in ABCG2-KO epidermis, which can cause DNA damage and lead to proliferation arrest. To determine whether ABCG2 deficiency affects the potency of epidermal stem/progenitor cells (EPCs), transplantation studies were carried out, which demonstrated that ABCG2-KO EPCs display higher levels of γH2AX and lose the capacity to differentiate into suprabasal keratinocytes. A competitive repopulation assay confirmed that ABCG2 expression is critical for the proper expansion and differentiation of EPCs in cutaneous wounds. As EPCs are known to contribute to the healing of larger wounds, the current findings imply a functional role for ABCG2 in the expansion and differentiation of p63-expressing EPCs. Thus, ABCG2 deficiency in skin impairs re-epithelialization in cutaneous wound healing.
Databáze:	OpenAIRE
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