BACKGROUND: Noise exposure impairs outer hair cells (OHCs). The common basis for OHC dysfunction and loss by acoustic over-stimulation is represented by reactive oxygen species (ROS) overload that may affect the membrane structural organization through generation of lipid peroxidation. METHODS: Here we investigated in OHC different functional zones the mechanisms linking metabolic functional state (NAD(P)H intracellular distribution) to the generation of lipid peroxides and to the physical state of membranes by two photon fluorescence microscopy. RESULTS: In OHCs of control animals, a more oxidized NAD(P)H redox state is associated to a less fluid plasma membrane structure. Acoustic trauma induces a topologically differentiated NAD(P)H oxidation in OHC rows, which is damped between 1 and 6h. Peroxidation occurs after ~4h from noise insult, while ROS are produced in the first 0.2h and damage cells for a period of time after noise exposure has ended (~7.5h) when a decrease of fluidity of OHC plasma membrane occurs. OHCs belonging to inner rows, characterized by a lower metabolic activity with respect to other rows, show less severe metabolic impairment. CONCLUSIONS: Our data indicate that plasma membrane fluidity is related to NAD(P)H redox state and lipid peroxidation in hair cells. GENERAL SIGNIFICANCE: Our results could pave the way for therapeutic intervention targeting the onset of redox umbalance.
BACKGROUND: Noise exposure impairs outer hair cells (OHCs). The common basis for OHC dysfunction and loss by acoustic over-stimulation is represented by reactive oxygen species (ROS) overload that may affect the membrane structural organization through generation of lipid peroxidation. METHODS: Here we investigated in OHC different functional zones the mechanisms linking metabolic functional state (NAD(P)H intracellular distribution) to the generation of lipid peroxides and to the physical state of membranes by two photon fluorescence microscopy. RESULTS: In OHCs of control animals, a more oxidized NAD(P)H redox state is associated to a less fluid plasma membrane structure. Acoustic trauma induces a topologically differentiated NAD(P)H oxidation in OHC rows, which is damped between 1 and 6h. Peroxidation occurs after ~4h from noise insult, while ROS are produced in the first 0.2h and damage cells for a period of time after noise exposure has ended (~7.5h) when a decrease of fluidity of OHC plasma membrane occurs. OHCs belonging to inner rows, characterized by a lower metabolic activity with respect to other rows, show less severe metabolic impairment. CONCLUSIONS: Our data indicate that plasma membrane fluidity is related to NAD(P)H redox state and lipid peroxidation in hair cells. GENERAL SIGNIFICANCE: Our results could pave the way for therapeutic intervention targeting the onset of redox umbalance.
Authors: Chiara Tersigni; Fiorella Di Nicuolo; Giuseppe Maulucci; Alessandro Rolfo; Domenica Giuffrida; Manuela Veglia; Marco De Spirito; Giovanni Scambia; Tullia Todros; Nicoletta Di Simone Journal: PLoS One Date: 2016-10-25 Impact factor: 3.240
Authors: Fabio Ciccarone; Luca Di Leo; Giacomo Lazzarino; Giuseppe Maulucci; Flavio Di Giacinto; Barbara Tavazzi; Maria Rosa Ciriolo Journal: Br J Cancer Date: 2019-12-10 Impact factor: 7.640
Authors: Giuseppe Maulucci; Goran Bačić; Lori Bridal; Harald Hhw Schmidt; Bertrand Tavitian; Thomas Viel; Hideo Utsumi; A Süha Yalçın; Marco De Spirito Journal: Antioxid Redox Signal Date: 2016-06-01 Impact factor: 8.401