Background
Memory T cells, a highly effective subset of T lymphocytes, have been reported to be involved in many inflammatory skin disorders. However, the potential role of memory T cells in keloid disease (KD) remains unclear.
Objectives
Due to their important role in regulating inflammation, we investigated the characteristics of CD45RO+ memory T cells in KD.
Methods
Primary cutaneous cells were isolated from keloid scars and normal skin by enzymic digestion. Peripheral blood mononuclear cells were isolated from a related blood sample, and flow cytometry was applied to identify the phenotypic and functional abnormalities of memory T cells in KD.
Results
We observed that the majority of T lymphocytes in keloid scars had the memory phenotype, and a greater number of the CD8+ memory T cells in keloid scars produced lower levels of tumour necrosis factor (TNF)‐α. This abnormal cytokine production was even more distinct in Forkhead box (FOX)P3− CD8− memory T cells, with lower TNF‐α production and enhanced interferon‐γ production. Furthermore, FOXP3+ CD8− memory T cells in keloid scars were abnormal, including showing reduced CD25 and cytotoxic T‐lymphocyte‐associated antigen 4 expression and interleukin‐10 production. In addition, a significant decrease in the number of CD4+ CD25high FOXP3+ regulatory T cells was identified in patients with multiple keloid scars. We also found that there was significantly increased infiltration of CD103+ CD8+ memory T cells in keloid scars.
Conclusions
Our findings preliminarily elucidate the abnormalities of CD45RO+ memory T cells in keloid scars and provide early evidence that a disrupted T‐cell response contributes to the progression of KD.