Effects of L-Serine Against Cisplatin-Mediated Reactive Oxygen Species Generation in Zebrafish Vestibular Tissue Culture and HEI-OC1 Auditory Hybridoma Cells.

Cisplatin is a platinum-based chemotherapy compound effective against a variety of cancers. However, it can cause increased reactive oxygen species (ROS) production in auditory and vestibular tissue leading to permanent hearing and balance loss. The amino acid, L-serine, has been shown to reduce ROS in some tissue types. In this project, we first investigated whether L-serine could reduce cisplatin-mediated ROS generation in zebrafish utricular tissue culture using spectrophotometry and the fluorescent ROS detector dye, H2DCFDA. Then, we examined whether L-serine could prevent the effect of cisplatin against cellular viability in the mouse auditory hybridoma cell line, HEI-OC1, using the spectrophotometric (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide) (MTT) assay. As a final step, we used H2DCFDA dye and flow cytometry analysis to determine if L-serine could counteract the effect of cisplatin on ROS production in this cell line. We found that cisplatin and L-serine treatment may influence ROS production in utricular tissue. Further, although L-serine did not counteract the effect of cisplatin against HEI-OC1 cellular viability, the amino acid did prevent the platinum compound's effect to increase ROS in these cells. These results suggest that L-serine may act in auditory and vestibular tissues as an effective protectant against cisplatin-mediated toxicity.

The monofunctional platinum(II) compounds, phenanthriplatin and pyriplatin, modulate apoptosis signaling pathways in HEI-OC1 auditory hybridoma cells.

Cisplatin is a platinum(II) chemotherapy drug that can cause the side-effect of ototoxicity and hearing loss. The monofunctional platinum(II) complexes, phenanthriplatin and pyriplatin, have recently been investigated as anti-cancer agents but their side-effects are largely unknown. Here, we used the auditory hybridoma cell line, HEI-OC1, to investigate the ototoxicity of cisplatin, phenanthriplatin and pyriplatin. The effect of these compounds against cellular viability, on reactive oxygen species (ROS) production, mitochondrial membrane polarization, caspase-3/7 activity, DNA integrity and caspase-12 expression were measured using spectrophotometric, flow cytometric and blot analyses. We found that the monofunctional complexes and cisplatin decreased cellular viability. All three compounds increased ROS yield at 24 h, but at 48 h, ROS levels returned to normal. Also, the compounds did not depolarize the mitochondrial membrane. All three compounds reduced caspase-3/7 activity at 24 h; cisplatin increased caspase-3/7 activity and caused apoptosis at 48 h. Caspase-12 expression was associated with all three compounds. In summary, the monofunctional complexes may cause ototoxicity like cisplatin. Phenanthriplatin and pyriplatin may cause ototoxicity initially by inducing ROS production, but they may also signal through distinct apoptotic pathways that do not integrate caspases-3/7, or may act at different time-points in the same pathways.