Tito A, Bimonte M, Carola A, De Lucia A, Barbulova A, Tortora A, Colucci G, Apone F
Arterra Bioscience srl, via B. Brin 69, Napoli, Italy.
VitaLab srl, via B. Brin 69, Napoli, Italy.
Int J Cosmet Sci. 2015 Dec;37(6):588-94. doi: 10.1111/ics.12236. Epub 2015 May 25.
Raspberry plants, belonging to the species of Rubus idaeus, are known for their excellent therapeutic properties as they are particularly rich in compounds with strong antioxidant activity, which promote health and well-being of human cells. Besides their high content of phenolic compounds, Rubus plants are rich in oil-soluble compounds, which are also primary components of the hydrolipidic film barrier of the skin. As plant cell cultures represented a valuable system to produce interesting compounds and ingredients for cosmetic applications, we developed liquid suspension cultures from Rubus idaeus leaves and used them to obtain an active ingredient aimed at improving hydration and moisturization capacity in the skin.
Rubus idaeus cells, grown in the laboratory under sterile and controlled conditions as liquid suspension cultures, were processed to obtain an oil-soluble (liposoluble) extract, containing phenolic compounds and a wide range of fatty acids. The extract was tested on cultured keratinocytes and fibroblasts and then on the skin in vivo, to assess its cosmetic activities.
When tested on skin cell cultures, the extract induced the genes responsible for skin hydration, such as aquaporin 3, filaggrin, involucrin and hyaluronic acid synthase, and stimulated the expression and the activity of the enzyme glucocerebrosidase, involved in ceramide production. Moreover, the liposoluble extract increased the synthesis of the extracellular matrix components in cultured fibroblasts and showed a remarkable skin-hydrating capacity when tested on human skin in vivo.
Thanks to these activities, the Rubus idaeus liposoluble extract has several potential applications in skin care cosmetics: it can be used as hydrating and moisturizing ingredient in face and body lotions, and as anti-ageing product in face creams specifically designed to fight wrinkle formation.
树莓植株属于悬钩子属,因其富含具有强大抗氧化活性的化合物而具有出色的治疗特性,这些化合物可促进人体细胞的健康和福祉。除了富含酚类化合物外,悬钩子属植物还富含油溶性化合物,这些化合物也是皮肤脂质水合膜屏障的主要成分。由于植物细胞培养是生产用于化妆品应用的有趣化合物和成分的宝贵系统,我们从树莓叶片中开发了液体悬浮培养物,并用它们来获取一种旨在提高皮肤水合和保湿能力的活性成分。
在实验室无菌和受控条件下作为液体悬浮培养物生长的树莓细胞经过处理,以获得一种油溶性提取物,其中含有酚类化合物和多种脂肪酸。该提取物在培养的角质形成细胞和成纤维细胞上进行测试,然后在体内皮肤上进行测试,以评估其美容活性。
在皮肤细胞培养物上进行测试时,该提取物诱导了负责皮肤水合的基因,如水通道蛋白3、丝聚合蛋白、内披蛋白和透明质酸合酶,并刺激了参与神经酰胺产生的葡萄糖脑苷脂酶的表达和活性。此外,该油溶性提取物增加了培养的成纤维细胞中细胞外基质成分的合成,并且在体内对人体皮肤进行测试时显示出显著的皮肤水合能力。
由于这些活性,树莓油溶性提取物在护肤品化妆品中有多种潜在应用:它可以用作面部和身体乳液中的保湿成分,以及专门设计用于对抗皱纹形成的面霜中的抗衰老产品。
