Abstract
Many chemicals have been reported to induce phototoxicity. The absorbance of light energy within the sunlight range is a common characteristic of phototoxicity. The 3T3 NRU phototoxicity test (PT) in 3T3 mouse skin fibroblasts has been used to identify the phototoxic potential induced by excited chemicals after exposure to ultra violet (UV). However, as phototoxicity may occur in ocular cells, it is necessary to develop a more suitable test for cornea-derived cells. In this study, we attempted to establish a new in vitro PT method in rabbit corneal cell lines (SIRC). We evaluated five ophthalmic agents, ciprofloxacin, levofloxacin, lomefloxacin, norfloxacin, and tetracycline, for their cytotoxic potential and in vitro phototoxicity. The results obtained using 3D human corneal models revealed that the UV-induced eye tissue toxicity by the test substances showed good correlation with those obtained using the in vitro phototoxicity test. However, the results from the 3D PT for ciprofloxacin, norfloxacin, and tetracycline in the 3D human cornea model were only partially comparable. Therefore, we suggest the SIRC cell line as a new phototoxicity test model; however, a sequential testing strategy, such as 3D PT, was also proposed to obtain relevant information for topical eye agents.
Highlights
The phototoxic effects of cosmetics and pharmaceuticals is of interest to patients, toxicologists, and the relevant industries
Chlorpromazine was dissolved in ethanol, tetracycline was dissolved in DMSO (Sigma), L-histidine and sodium lauryl sulfate were dissolved in phosphate-buffered saline (PBS, Gibco BRL, NY, USA), and ciprofloxacin and norfloxacin were dissolved in PBS with 0.1 N NaOH
The UV absorption ranges of chlorpromazine, L-histidine, and sodium lauryl sulfate are shown in Fig 1 and S1 File
Summary
The phototoxic effects of cosmetics and pharmaceuticals is of interest to patients, toxicologists, and the relevant industries. The expanding market of medications and cosmetics, in combination with relatively high ultraviolet (UV) exposure, have potentiated this problem [1]. Two categories of photoreaction occur in response to UVA: phototoxicity (photoirritation) and photoallergy [2, 3]. Exposure to several photosensitizers and light/UV radiation can elicit an acute toxic response [1] and chemical exposure after light/UV radiation.
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