Phototoxicity, also called photoirritation, is a chemically induced skin irritation, requiring light, that does not involve the immune system. It is a type of photosensitivity. The skin response resembles an exaggerated sunburn. The involved chemical may enter into the skin by topical administration or it may reach the skin via systemic circulation following ingestion or parenteral administration. The chemical needs to be "photoactive," which means that when it absorbs light, the absorbed energy produces molecular changes that cause toxicity. Many synthetic compounds, including drug substances like tetracyclines or fluoroquinolones, are known to cause these effects. Surface contact with some such chemicals causes photodermatitis; many plants cause phytophotodermatitis. Light-induced toxicity is a common phenomenon in humans; however, it also occurs in other animals.
Scientific background
A phototoxic substance is a chemical compound which becomes toxic when exposed to light.
Some plant juices: parsley, lime, and Heracleum mantegazzianum
Porphyrins, a class of natural molecules occurring in the body and accumulating in patients with certain genetic defects in the building chain of the red blood dye heme: porphyria
3T3 Neutral Red Phototoxicity Test – An in vitro toxicological assessment test used to determine the cytotoxic and phototoxicity effect of a test article to murine fibroblasts in the presence or absence of UVA light.
"The 3T3 Neutral Red Uptake Phototoxicity Assay can be utilized to identify the phototoxic effect of a test substance induced by the combination of test substance and light and is based on the comparison of the cytotoxic effect of a test substance when tested after the exposure and in the absence of exposure to a non-cytotoxic dose of UVA/vis light. Cytotoxicity is expressed as a concentration-dependent reduction of the uptake of the vital dye - Neutral Red. Substances that are phototoxic in vivo after systemic application and distribution to the skin, as well as compounds that could act as phototoxicants after topical application to the skin can be identified by the test. The reliability and relevance of the 3T3 NRU PT have been evaluated and has been shown to be predictive when compared with acute phototoxicity effects in vivo in animals and humans." Taken with permission from
When performing microscopy on live samples, one needs to be aware that too high light dose can damage or kill the specimens and lead to experimental artefacts. This is particularly important in confocal and superresolution microscopy.