The Estée Lauder companies showcases skin metabolomics at world congress of dermatology

The Estée Lauder Companies Inc. (NYSE: EL) Research & Development (R&D) team will present data focused on new findings in skin metabolomics, skin defense, ingredient science, and anti-aging research at the 2019 World Congress of Dermatology (WCD) in Milan, Italy from June 10 -15.

Additionally, a sponsored symposium, "Metabolomics as a New Diagnostic to Assess Skin Health" will take place on June 12, presented by Session Chair, Leihong Xiang, M.D. Ph.D., Keynote Speaker, Paolo Sassone-Corsi, Ph.D., University of California, Kirk Beebe, Ph.D., Metabolon, Inc. and Nadine Pernodet, Ph.D., The Estée Lauder Companies. The symposium will unveil novel metabolomics research illustrating the complex relationship between genetics and the environment, unveiling the role they play in skin and how their changes reflect skin's condition.

The Estée Lauder Companies' R&D team is a global leader in understanding the factors that impact our skin and in using the data found in the skin to understand how it behaves and appears. The following summarizes the Estée Lauder Companies' R&D team's research that will be presented at the 2019 WCD meeting:

Skin metabolomics can help us better understand young and aging skin and the impact of circadian rhythm changes in the human skin metabolome.

The relationship between autophagy and inflammation in skin cells, with a look at the link between autophagy and resolution phase, a mechanism in the inflammation process that helps protect the skin against chronic inflammation.

Development of a skin model to further understand the causes of post inflammatory hyperpigmentation (PIH) and how those findings offer more options to explore the underlying biological causes.

Macrocystis pyrifera (Kelp) ferment is effective in addressing inflammation and in enhancing fibroblast migration. Together these activities may help skin maintain its natural integrity and a state of visible calm.

UP302, a plant-derived tyrosinase enzyme inhibitor, acts as a whitening agent to reduce pigmentation, outperforming the benchmark compound, Kojic Acid, at the industry-standard concentration.

There is a beneficial link between sirtuins and maintaining the integrity of natural cellular activity.

Examining changes in skin physiology induced by exposure to small particles (PM 2.5) can help inform skin protection against the detrimental effects from the environment.

A multi-prong approach to acne treatment significantly reduced facial lesions after a 12-week trial.

"The Estée Lauder Companies' R&D team is a global leader in understanding the impact of biological processes like those in the skin," said Nadine Pernodet, Ph.D., Vice President, Skin Biology and BioActives, Research and Development, The Estée Lauder Companies. "These new findings provide us with an unprecedented snapshot of skin status, enabling new precision approaches and treatments to improve skin's appearance. As the first in our industry to use metabolomics in relation to time, we have a better understanding of key factors of skin repair efficiency and damage accumulation and their relationship to skin circadian rhythm. We will continue to apply this knowledge to formulate products that can address and improve optimal skin processes, leading to younger looking skin."

The following research posters will be presented by The Estée Lauder Companies R&D at the 2019 WCD meeting, and are summarized below:

First assessment of skin circadian metabolomics on young and aging subjects, The Estée Lauder Companies and Metabolon, Inc., [Poster #5638]

Metabolomics is a comprehensive study of metabolites, which are small molecule (

Autophagy and inflammation relation in skin cells, The Estée Lauder Companies, [Poster #3897]

Autophagy, a major cellular degradative and recycling pathway, is critical for cellular longevity and has been linked to the aging process. A decrease in autophagy leads to increased cellular damage as we age. For the first time in skin cells, a relationship between autophagy and the resolution phase of inflammation has been found, showing their link in protecting the skin against long-lasting inflammation and its visible effects.

Development of a post inflammatory hyperpigmentation model in reconstructed skins, The Estée Lauder Companies [Poster #4263]

Prominently seen in people with darker skin tones, post inflammatory hyperpigmentation (PIH) occurs following an inflammatory insult, such as acne or a cutaneous injury, and results in a hyperpigmented area of the skin. Little is known about the cause of PIH, but new research using in vitro models offers the chance to screen the skin pigmentation effects of migration inhibitors on melanocytes--offering more options to explore the underlying biological causes.

Macrocystis pyrifera ferment: Anti-inflammatory and pro-resolution properties, The Estée Lauder Companies and Max Huber Research Laboratories [Poster #2331]

Research has shown that inflammation, especially chronic inflammation, is a potential cause of accelerated skin aging. The resolution of inflammation is an actively coordinated and dynamic process that attenuates inflammation and enables skin's natural repair and helps skin maintain its natural integrity. In this study, the anti-inflammatory and pro-resolution activities of the Macrocystis pyrifera (kelp) ferment were assessed. Results show that the use of the kelp ferment is effective in addressing all three phases of inflammation and in enhancing fibroblast migration. Together these activities may help skin maintain a state of visible calm and its natural integrity.

Evaluation of a potent skin whitening agent, The Estée Lauder Companies [Poster #4255]

UP302, a plant-derived tyrosinase enzyme inhibitor, acts as a whitening agent by preventing melanin synthesis through the conversion of tyrosinase in human skin. Using a clinical whitening test measuring Skin Lightening Factor, both in vitro and in vivo, against Kojic acid (the industry standard), the UP302 treatments demonstrated a more-significant decrease in melanin, indicating a decrease in tyrosinase activity and pigmentation.

Sirtuins and their importance in skin, The Estée Lauder Companies [Poster #3893]

Increasing evidence has demonstrated the importance of Sirtuins, also known as longevity proteins, in maintaining optimal skin cell processes such as metabolism, genomic stability, inflammation, energy, environmental stress response and aging. The effects of environmental stressors were examined through the response of skin cells to UVB and ozone (measured by the effect on energy (ATP) production and oxidative damage (ROS), along with the effect on mechanical properties). This research demonstrates a beneficial link between sirtuins and cellular integrity and activity, and for the first time, introduces the role of Sirtuin-2 in supporting skin cells' natural mechanical properties.

The effect of exposure to PM 2.5 on skin physiological function, The Estée Lauder Companies [Poster #4260]

Using an in vitro model, changes in skin physiology induced by exposure to fine particles (PM 2.5) were observed. Results suggested that these particles may be damaging to the epidermis and compromise skin barrier function, as well as impact morphology, physiology, and inflammatory response in cells. Findings showed that skins treated with PM 2.5 had compromised skin barrier integrity and an increase in cellular proteins indicating a possible inflammatory response.

A multi-prong approach to acne significantly reduced facial lesions after a 12-week treatment, The Estée Lauder Companies [Poster #4194]

The pathogenesis of acne is complex, with strong evidence supporting the involvement of sebaceous hyperplasia, follicular hyperkeratinization, bacterial hypercolonization, and inflammation. In order to combat acne and address these components, researchers used a multi-prong formulation to assess its effect on the overall lesion count in a population with acne. Findings showed treatments significantly reduced the total lesion count after 12 weeks.

"As science and technology enable more a more holistic and in-depth look at skin over time, The Estée Lauder Companies can continue to better understand the biological mechanisms that drive how skin behaves and how to combat environmental stressors and insults to skin. We will continue to apply our research findings to help define and advance the future of beauty for our global consumers." said Tom Mammone, Ph.D., Vice President, Skin Physiology and Pharmacology, Research & Development, The Estée Lauder Companies.

Credit: 
Spectrum Science