Abstract
Unmitigated UV radiation (UVR) induces skin photoaging and multiple forms of cutaneous carcinoma by complex pathways that include those mediated by UV-induced reactive oxygen species (ROS). Upon UVR exposure, a cascade of events is induced that overwhelms the skin’s natural antioxidant defenses and results in DNA damage, intracellular lipid and protein peroxidation, and the dysregulation of pathways that modulate inflammatory and apoptotic responses. To this end, natural products with potent antioxidant properties have been developed to prevent, mitigate, or reverse this damage with varying degrees of success. Mitochondria are particularly susceptible to ROS and subsequent DNA damage as they are a major intracellular source of oxidants. Therefore, the development of mitochondrially targeted agents to mitigate mitochondrial oxidative stress and resulting DNA damage is a logical approach to prevent and treat UV-induced skin damage. We summarize evidence that some existing natural products may reduce mitochondrial oxidative stress and support for synthetically generated mitochondrial targeted cyclic nitroxides as potential alternatives for the prevention and mitigation of UVR-induced skin damage.
Highlights
Reviewed by: Caroline Gaucher, Université de Lorraine, France George A
We summarize evidence that some existing natural products may reduce mitochondrial oxidative stress and support for synthetically generated mitochondrial targeted cyclic nitroxides as potential alternatives for the prevention and mitigation of UV radiation (UVR)-induced skin damage
UVR absorbed from solar radiation can induce extensive skin damage through a variety of mechanisms ranging from direct DNA damage to those resulting from the oxidative stress caused by UVR induced reactive oxygen species (ROS)
Summary
The skin has evolved multiple protective mechanisms to prevent extensive damage from UVR. The conversion leads to intracellular ROS generation and oxidative DNA damage, PAF release and altered cytokine release, resulting in cell growth arrest and antigen presentation impairment (Gibbs and Norval, 2013) while simultaneously increasing protective [1α25(OH)2D3] vitamin D3 levels (Landeck et al, 2016). In addition to protective chromophores, the skin constitutively expresses enzymatic and non-enzymatic antioxidants to defend against oxidative stress by preventing ROS generation, interfering with the free radicals generated, or removing damaged molecules before they accumulate to levels that can alter cell metabolism and viability. Given these increasingly apparent susceptibilities, it is not surprising that there is increasing interest in the development and identification of agents capable of preventing or mitigating ROS-induced mitochondrial damage. Strategies to protect mitochondria from UV induced ROS damage hold particular promise for the prevention and treatment of UVR-induced carcinogenesis and photoaging
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