Abstract

Abstract Introduction and aims We aim to investigate the lysate of Lactobacillus rhamnosus GG (LGG), a bacterium previously established as a gut probiotic, and to examine its postulated ability to enhance and restore human skin barrier function. Compromised skin barriers are implicated in various skin conditions including atopic dermatitis. Furthermore, skin barrier function decreases with age leading to dryness and sensitivity. Previous research has shown promising effects of LGG lysates on keratinocytes, including increasing transepidermal electrical resistance, increasing tight junction protein expression, cell migration promotion and mitigation of Staphylococcus aureus toxicity. This study aims to take a closer look at the molecular mechanisms behind the effect of LGG lysates on the skin, including terminal differentiation, lamin dispersal and nuclear degradation in keratinocytes. Methods Normal human epithelial keratinocytes and rat epithelial keratinocytes were grown and treated with the LGG lysate. Western blot analysis was used to determine the relative concentrations of tight junction proteins and other differentiation markers. A phosphoproteomic study was performed to identify key pathways activated by the LGG lysate. A Staphylococcus epidermidis lysate control was used to filter out any nonspecific bacterial effects. Immunostaining of nuclear proteins was used to visualize the effects of LGG lysate on lamin dispersal and nuclear degradation. short hairpin RNA filaggrin knockdown normal human keratinocytes were developed to create a ‘barrier impaired’ model to assess ability of the lysate to ‘rescue’ the skin barrier. Results The LGG lysate was shown to increase tight junction protein expression in normal human keratinocytes and increase keratinocyte terminal differentiation markers. We present Results that show decreased tight junction protein expression in filaggrin knockdown cells. Conclusions These Results show the potential for LGG lysate to enhance and restore skin barrier function and begin to suggest potential mechanisms for this effect.

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