苯扎溴铵
角膜
毒性
角膜上皮
细胞生物学
化学
生物
病理
神经科学
医学
有机化学
作者
Noémie Bonneau,Anaïs Potey,Michael-Adrien Vitoux,Romain Magny,Camille Guerin,Christophe Baudouin,Jean‐Michel Peyrin,Françoise Brignole‐Baudouin,Annabelle Réaux‐Le Goazigo
出处
期刊:Ocular Surface
[Elsevier BV]
日期:2023-10-01
卷期号:30: 307-319
被引量:8
标识
DOI:10.1016/j.jtos.2023.11.004
摘要
Part of the lacrimal functional unit, the cornea protects the ocular surface from numerous environmental aggressions and xenobiotics. Toxicological evaluation of compounds remains a challenge due to complex interactions between corneal nerve endings and epithelial cells. To this day, models do not integrate the physiological specificity of corneal nerve endings and are insufficient for the detection of low toxic effects essential to anticipate Toxicity-Induced Dry Eye (TIDE). Using high-content imaging tool, we here characterize toxicity-induced cellular alterations using primary cultures of mouse trigeminal sensory neurons and corneal epithelial cells in a compartmentalized microfluidic chip. We validate this model through the analysis of benzalkonium chloride (BAC) toxicity, a well-known preservative in eyedrops, after a single (6h) or repeated (twice a day for 15 min over 5 days) topical 5.10−4% BAC applications on the corneal epithelial cells and nerve terminals. In combination with high-content image analysis, this advanced microfluidic protocol reveal specific and tiny changes in the epithelial cells and axonal network as well as in trigeminal cells, not directly exposed to BAC, with ATF3/6 stress markers and phospho-p44/42 cell activation marker. Altogether, this corneal neuroepithelial chip enables the evaluation of toxic effects of ocular xenobiotics, distinguishing the impact on corneal sensory innervation and epithelial cells. The combination of compartmentalized co-culture/high-content imaging/multiparameter analysis opens the way for the systematic analysis of toxicants but also neuroprotective compounds.
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