Abstract

Breast cancer-related lymphedema (BCRL) is characterized by skin changes, swelling, fibrosis, and recurrent skin infections. Clinical studies have suggested that lymphedema results in skin barrier defects; however, the underlying cellular mechanisms and the effects of bacterial contamination on skin barrier function remain unknown. In matched biopsies from patients with unilateral BCRL, we observed decreased expression of filaggrin and the tight junction protein zona occludens-1 (ZO-1) in skin affected by moderate lymphedema, or by subclinical lymphedema in which dermal backflow of lymph was identified by indocyanine green lymphography, relative to controls (areas without backflow and from the unaffected arm). In vitro stimulation of keratinocytes with lymph fluid obtained from patients undergoing lymphedema surgery led to the same changes, as well as increased expression of keratin 14, a marker of immature keratinocytes. Finally, using mouse models of lymphedema, we showed that like the clinical scenario, the expression of skin barrier proteins was decreased relative to normal skin and that colonization with S. epidermidis bacteria amplified this effect, as well as lymphedema severity. Taken together, our findings suggest that lymphatic fluid stasis contributes to skin barrier dysfunction in lymphedema.

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