Estee Lauder Research Laboratories

Melville, NY, United States

Estee Lauder Research Laboratories

Melville, NY, United States
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Pelle E.,New York University | Pelle E.,Estee Lauder Research Laboratories | Jian J.,New York University | Declercq L.,Estee Lauder Research Laboratories | And 7 more authors.
Photodermatology Photoimmunology and Photomedicine | Year: 2011

Background/purpose: Human skin is constantly exposed to ultraviolet A (UVA), which can generate reactive oxygen species and cause iron release from ferritin, leading to oxidative damage in biomolecules. This is particularly true in post-menopausal skin due to an increase in iron as a result of menopause. As iron is generally released through desquamation, the skin becomes a main portal for the release of excess iron in this age group. In the present study, we examined a strategy for controlling UVA- and iron-induced oxidative stress in skin using a keratinocyte post-menopausal cellular model system. Methods: Keratinocytes that had been cultured under normal or high-iron, low-estrogen conditions were treated with (2-nitrophenyl) ethyl pyridoxal isonicotinoyl hydrazone (2-PNE-PIH). 2-PNE-PIH is a caged-iron chelator that does not normally bind iron but can be activated by UVA radiation to bind iron. Following incubation with 2-PNE-PIH, the cells were exposed to 5J/cm 2 UVA and then measured for changes in lipid peroxidation and ferritin levels. Results: 2-PNE-PIH protected keratinocytes against UVA-induced lipid peroxidation and ferritin depletion. Further, 2-PNE-PIH was neither cytotoxic nor did it alter iron metabolism. Conclusion: 2-PNE-PIH may be a useful deterrent against UVA-induced oxidative stress in post-menopausal women. © 2011 John Wiley & Sons A/S.

Jian J.,New York University | Pelle E.,New York University | Pelle E.,Estee Lauder Research Laboratories | Yang Q.,New York University | And 3 more authors.
Experimental Dermatology | Year: 2011

Oestrogen deficiency is regarded as the main causative factor in postmenopausal skin ageing and photoageing. While women after menopause experience low levels of oestrogen because of cease of ovarian function, they are also exposed to high levels of iron as a result of cessation of menstruation. In this study, we investigated whether this increase in iron presents a risk to the postmenopausal skin. Because of the lack of appropriate animal models to closely mimic the low oestrogen and high iron conditions, we tested the hypothesis in a high iron and low oestrogen culture model. Here, we showed that primary human dermal fibroblasts exposed to iron did not affect the baseline levels of matrix metalloproteinase-1 (MMP-1) activity. However, the iron-exposed fibroblasts were sensitized to UVA exposure, which resulted in a synergistic increase in MMP-1. UVA activated the three members of MAPK family: ERKs, p38, and JNKs. Additional activation of ERKs by iron contributed to the synergistic increases. Primary normal human epidermal keratinocytes (NHEK) did not respond to iron or UVA exposure as measured by MMP-1, but produced tumor necrosis factor-alpha (TNF-α) in the media, which then stimulated MMP-1 in fibroblasts. Our results indicate that iron and UVA increase MMP-1 activity in dermal fibroblasts not only directly through ERK activation but also by an indirect paracrine loop through TNF-α released by NHEK. We conclude that in addition to oestrogen deficiency, increased iron as a result of menopause could be a novel risk factor by sensitizing postmenopausal skin to solar irradiation. © 2010 John Wiley & Sons A/S.

Dong K.,Estee Lauder Research Laboratories | Pelle E.,Estee Lauder Research Laboratories | Pelle E.,New York University | Yarosh D.B.,Estee Lauder Research Laboratories | Pernodet N.,Estee Lauder Research Laboratories
Experimental Dermatology | Year: 2012

Sirtuins (SIRT) are NAD +-dependent deacetylases and ADP-ribosyltransferases that play a critical role in metabolism and epigenetics. SIRT3 and SIRT4 are of particular interest because they are localized in the mitochondria where energy is generated and their expression is inversely proportional to each other. Here, we report data, for the first time, demonstrating the presence of SIRT4 in normal human epidermal keratinocytes (NHEK) and confirm that its expression is inversely related to SIRT3 in these cells and that they follow a temporal cycle. Further, UVB radiation modified their expression, as well as ATP and H 2O 2 levels. These deviations from the normal sirtuin cycles after UVB exposure can be an epigenetic indicator of lower metabolism levels. © 2012 John Wiley & Sons A/S.

McCarthy J.T.,Estee Lauder Research Laboratories | Pelle E.,Estee Lauder Research Laboratories | Pelle E.,New York University | Dong K.,Estee Lauder Research Laboratories | And 4 more authors.
Experimental Dermatology | Year: 2013

Ozone is a tropospheric pollutant that can form at ground level as a result of an interaction between sunlight and hydrocarbon engine emissions. As ozone is an extremely oxidative reaction product, epidermal cells are in the outer layer of defense against ozone. We exposed normal human epidermal keratinocytes (NHEK) to concentrations of ozone that have been measured in cities and assayed for its effects. Hydrogen peroxide and IL-1α levels both increased while ATP levels decreased. We found a decrease in the NAD-dependent histone deacetylase, sirtuin 3. Lastly, we found that ozone increased DNA damage as evaluated by Comet assay. Taken together, our results show increased damage to NHEK that will ultimately impair normal cellular function as a result of an environmentally relevant ozone exposure. © 2013 John Wiley & Sons A/S.

Pelle E.,Estee Lauder Research Laboratories
Journal of cosmetic science | Year: 2012

Environmental trauma to human skin can lead to oxidative damage of proteins and affect their activity and structure. When methionine becomes oxidized to its sulfoxide form, methionine sulfoxide reductase A (MSRA) reduces it back to methionine. We report here the increase in MSRA in normal human epidermal keratinocytes (NHEK) after ultraviolet B (UVB) radiation, as well as the reduction in hydrogen peroxide levels in NHEK pre-treated with MSRA after exposure. Further, when NHEK were pre-treated with a non-cytotoxic pentapeptide containing methionine sulfoxide (metSO), MSRA expression increased by 18.2%. Additionally, when the media of skin models were supplemented with the metSO pentapeptide and then exposed to UVB, a 31.1% reduction in sunburn cells was evident. We conclude that the presence of MSRA or an externally applied peptide reduces oxidative damage in NHEK and skin models and that MSRA contributes to the protection of proteins against UVB-induced damage in skin.

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