Effect of Reactive Oxygen Species Photoproduced in Different Water Matrices on the Photostability of Gadusolate and Mycosporine-Serinol

Mar Drugs. 2024 Oct 16;22(10):473. doi: 10.3390/md22100473.

Abstract

In the past few years, there has been an increasing interest in mycosporines-UV-absorbing molecules-bringing important insights into their intrinsic properties as natural sunscreens. Herein, mycosporine-serinol and gadusol (enolate form)/gadusolate were exposed to UV radiation via a solar simulator and the photostability was assessed in pure water and different natural matrices like river, estuary and ocean water. In general, this study revealed that the photodegradation of gadusolate and mycosporine-serinol was higher in natural matrices than in pure water due to the generation of singlet oxygen on UV irradiation. In pure water, in terms of photostability, both gadusolate and mycosporine-serinol were found to offer good protection and high performance in terms of photodegradation quantum yield ((0.8 ± 0.2) × 10-4 and (1.1 ± 0.6) × 10-4, respectively). Nonetheless, the photostability of mycosporine-serinol was found to be superior to that of gadusolate in natural water, namely, ocean, estuary and river. The present work highlights how mycosporine-serinol and gadusolate resist photodegradation, and supports their role as effective and stable UV-B sunscreens.

Keywords: UV filters; aquatic matrices; gadusol; mycosporines; photodegradation; photosensitizer; photostability; porphine; riboflavin.

MeSH terms

  • Cyclohexanols
  • Glycine / analogs & derivatives
  • Photolysis*
  • Reactive Oxygen Species / chemistry
  • Rivers / chemistry
  • Singlet Oxygen / chemistry
  • Sunscreening Agents* / chemistry
  • Ultraviolet Rays*
  • Water / chemistry

Substances

  • Sunscreening Agents
  • Reactive Oxygen Species
  • mycosporine-2-glycine
  • Singlet Oxygen
  • Water
  • Cyclohexanols
  • Glycine