Eric F Bernstein1, Douglas B Brown, Mark D Schwartz, Kays Kaidbey, Sergey M Ksenzenko. 1. DakDak Photoaging Technologies, Division of Charles River Laboratories, Inc., Pennsylvania College of Optometry, Elkins Park KGL Inc., Ivy Laboratories University City Science Center, Philadelphia, Pennsylvania, USA.
Abstract
BACKGROUND: Ultraviolet (UV) radiation damages skin through a variety of mechanisms, including the generation of free radicals. Gluconolactone is a polyhydroxy acid (PHA) that is capable of chelating metals and may also function by scavenging free radicals, thereby protecting skin from some of the damaging effects of UV radiation. OBJECTIVE: This study measured the ability of gluconolactone to protect against UV radiation-induced damage. METHODS: The ability of gluconolactone to prevent UV radiation-induced elastin promoter activation was determined in vitro using a transgenic model of cutaneous photoaging. Gluconolactone was also evaluated to determine its ability to promote the formation of sunburn cells in human skin after exposure to UV radiation. RESULTS: Gluconolactone provided up to 50% protection against UV radiation, as measured in our in vitro system, and did not significantly increase sunburn cells in human skin. CONCLUSIONS: These results demonstrate the ability of the PHA gluconolactone to protect against UV radiation-induced elastin promoter activation. In addition, in vivo studies demonstrated that gluconolactone treatment does not result in a significant increase in sunburn cells. Further investigation of this and other PHAs is necessary to identify their potential role in preventing and repairing cutaneous photodamage.
BACKGROUND: Ultraviolet (UV) radiation damages skin through a variety of mechanisms, including the generation of free radicals. Gluconolactone is a polyhydroxy acid (PHA) that is capable of chelating metals and may also function by scavenging free radicals, thereby protecting skin from some of the damaging effects of UV radiation. OBJECTIVE: This study measured the ability of gluconolactone to protect against UV radiation-induced damage. METHODS: The ability of gluconolactone to prevent UV radiation-induced elastin promoter activation was determined in vitro using a transgenic model of cutaneous photoaging. Gluconolactone was also evaluated to determine its ability to promote the formation of sunburn cells in human skin after exposure to UV radiation. RESULTS:Gluconolactone provided up to 50% protection against UV radiation, as measured in our in vitro system, and did not significantly increase sunburn cells in human skin. CONCLUSIONS: These results demonstrate the ability of the PHAgluconolactone to protect against UV radiation-induced elastin promoter activation. In addition, in vivo studies demonstrated that gluconolactone treatment does not result in a significant increase in sunburn cells. Further investigation of this and other PHAs is necessary to identify their potential role in preventing and repairing cutaneous photodamage.
Authors: Sérgio Schalka; Denise Steiner; Flávia Naranjo Ravelli; Tatiana Steiner; Aripuanã Cobério Terena; Carolina Reato Marçon; Eloisa Leis Ayres; Flávia Alvim Sant'anna Addor; Helio Amante Miot; Humberto Ponzio; Ida Duarte; Jane Neffá; José Antônio Jabur da Cunha; Juliana Catucci Boza; Luciana de Paula Samorano; Marcelo de Paula Corrêa; Marcus Maia; Nilton Nasser; Olga Maria Rodrigues Ribeiro Leite; Otávio Sergio Lopes; Pedro Dantas Oliveira; Renata Leal Bregunci Meyer; Tânia Cestari; Vitor Manoel Silva dos Reis; Vitória Regina Pedreira de Almeida Rego Journal: An Bras Dermatol Date: 2014 Nov-Dec Impact factor: 1.896
Authors: Anna Bryland; Anders Wieslander; Ola Carlsson; Thomas Hellmark; Gabriela Godaly Journal: Diab Vasc Dis Res Date: 2011-11-01 Impact factor: 3.291
Authors: Marija V Medovic; Vladimir Lj Jakovljevic; Vladimir I Zivkovic; Nevena S Jeremic; Jovana N Jeremic; Sergey B Bolevich; Ana B Ravic Nikolic; Vesna M Milicic; Ivan M Srejovic Journal: Oxid Med Cell Longev Date: 2022-03-12 Impact factor: 6.543