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Fluorescent Lighting Linked to Inflammation

Fluorescent Lighting Linked to Inflammation

Fluorescent Lighting Linked to Inflammation

Fluorescent Lighting Linked to Inflammation

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Fluorescent lighting has become one of the most common artificial light sources in use today, but new research from Texas State University suggests there may be unexpected consequences at the genetic level.

The research team, comprised of Mikki Boswell, Yuan Lu, William Boswell, Markita Savage, Raquel Salinas and Ronald B. Walter from the Xiphophorus Genetic Stock Center in the Department of Chemistry and Biochemistry at Texas State, along with Kim Hildreth and Christi Walter from the Department of Cell Systems and Anatomy at the University of Texas Health San Antonio, have published their findings, "Fluorescent Light Incites a Conserved Immune and Inflammatory Genetic Response within Vertebrate Organs," in the online journal Genes.

"Evolution occurred over many millennia exclusively under the full spectrum of sunlight. Thus, life had the opportunity to conscript each wavelength in the solar spectrum for regulation of specific gene expression pathways," Walter explained. "Over the past 60 years, we have increasingly relied on artificial light sources that emit much narrower wavelength spectrums than does the sun. Yet, little research has been conducted to determine gene expression consequences, if any, from use of common artificial light sources."

In research using zebrafish (Danio rerio), Japanese rice fish (Oryzias latipes) and the hairless mouse (Mus musculus), the Texas State team identified genes activated by the wavelengths emitted by fluorescent light. The results show increased inflammation in tissue and organs in the subject animals, regardless of whether the species is primarily active in the day or night. 

"In this report we show genome-wide changes of gene expression patterns in skin, brain and liver for two commonly utilized fish experimental models (zebrafish and Japanese rice fish, also known as medaka), and a mammalian (mice), following exposure to 4,100 K 'cool-white' fluorescent light," Walter said. "In spite of the extreme divergence of these animals (i.e., estimated divergence of mice and fish about 450 million years), and drastically different lifestyles (i.e., diurnal fish and nocturnal mice), the same highly conserved primary genetic response that involves activation of inflammation and immune pathways as part of an overall acute phase response was observed in the skin, brain and liver of all three animals. Follow-up studies to further define this response in mice are underway."  

The team now hypothesizes that under broad-spectrum daylight conditions, these genes would be subsequently deactivated by wavelengths from a different part of the spectrum — but these additional wavelengths may be absent in fluorescent lighting. 

The skin and brain of the three animals as well as the liver of both fish models all exhibit increased inflammation and immune responses; however, the mouse liver suppressed this reaction. Overall, the conserved nature of the genetic responses observed, among fishes and a mammal, suggest the presence of light responsive genetic circuitry that is deeply embedded in the vertebrate genome.

This article has been republished from materials provided by Texas State University. Note: material may have been edited for length and content. For further information, please contact the cited source.

Fluorescent Light Incites a Conserved Immune and Inflammatory Genetic Response within Vertebrate Organs (Danio rerio, Oryzias latipes and Mus musculus). Mikki Boswell, Yuan Lu, William Boswell, Markita Savage, Kim Hildreth, Raquel Salinas, Christi A. Walter and Ronald B. Walter. Genes 2019, 10(4), 271; https://doi.org/10.3390/genes10040271.