XBP1 mitigates aminoglycoside-induced endoplasmic reticulum stress and neuronal cell death

Abstract: Here we study links between aminoglycoside-induced mistranslation, protein misfolding and neuropathy. We demonstrate that aminoglycosides induce misreading in mammalian cells and assess endoplasmic reticulum (ER) stress and unfolded protein response (UPR) pathways. Genome-wide transcriptome and proteome analyses revealed upregulation of genes related to protein folding and degradation. Quantitative PCR confirmed induction of UPR markers including C/EBP homologous protein, glucose-regulated protein 94, binding … Show more

“…Interestingly, XBP1 could alleviate aminoglycoside-induced ER stress and hearing loss. Aminoglycoside-induced UPR was compromised and more severe hearing loss was observed in Xbp1 +/− mice compared with wild-type mice [41]. Moreover, treatment of the chemical chaperone tauroursodeoxycholic acid (TUDCA) attenuated aminoglycoside-induced hearing loss in Xbp1 +/− mice, further supporting the hypothesis that UPR could protect drug-induced hearing loss [41].…”

“…In cultured cells derived from mouse organ of Corti (HEI-OC1), APAP or NAPQI treatment alters eIF2α phosphorylation as well as CHOP expression independent of ATF4 activation, and results in cell death [40]. In contrast, aminoglycosides activate all three UPR pathways in cultured HEK293 cells [41]. Interestingly, XBP1 could alleviate aminoglycoside-induced ER stress and hearing loss.…”

“…Furthermore, perilymphatic perfusion of the ER-stress-activator tunicamycin results in profound hearing loss in rats [42]. In the cochlea, ER stress affects different cell types including hair cells (HCs), spiral ganglion cells (SGCs), and fibrocytes, depending on the chemicals used [39,41,42]. For example, tunicamycin induces ER stress in HCs and SGCs; in contrast, gentamicin induces ER stress in SGCs but not in HCs [41].…”

“…Animal and cell experiments have showed that ER stress is involved in hearing loss induced by ototoxic drugs such as aminoglycosides, 3-nitropropionic acid (3-NP), N-acetyl-para-aminophenol (APAP), and N-acetyl-p-benzoquinoneimine (NAPQI) [39][40][41]. Furthermore, perilymphatic perfusion of the ER-stress-activator tunicamycin results in profound hearing loss in rats [42].…”

Endoplasmic Reticulum Stress in Hearing Loss

“…Interestingly, XBP1 could alleviate aminoglycoside-induced ER stress and hearing loss. Aminoglycoside-induced UPR was compromised and more severe hearing loss was observed in Xbp1 +/− mice compared with wild-type mice [41]. Moreover, treatment of the chemical chaperone tauroursodeoxycholic acid (TUDCA) attenuated aminoglycoside-induced hearing loss in Xbp1 +/− mice, further supporting the hypothesis that UPR could protect drug-induced hearing loss [41].…”

“…In cultured cells derived from mouse organ of Corti (HEI-OC1), APAP or NAPQI treatment alters eIF2α phosphorylation as well as CHOP expression independent of ATF4 activation, and results in cell death [40]. In contrast, aminoglycosides activate all three UPR pathways in cultured HEK293 cells [41]. Interestingly, XBP1 could alleviate aminoglycoside-induced ER stress and hearing loss.…”

“…Furthermore, perilymphatic perfusion of the ER-stress-activator tunicamycin results in profound hearing loss in rats [42]. In the cochlea, ER stress affects different cell types including hair cells (HCs), spiral ganglion cells (SGCs), and fibrocytes, depending on the chemicals used [39,41,42]. For example, tunicamycin induces ER stress in HCs and SGCs; in contrast, gentamicin induces ER stress in SGCs but not in HCs [41].…”

“…Animal and cell experiments have showed that ER stress is involved in hearing loss induced by ototoxic drugs such as aminoglycosides, 3-nitropropionic acid (3-NP), N-acetyl-para-aminophenol (APAP), and N-acetyl-p-benzoquinoneimine (NAPQI) [39][40][41]. Furthermore, perilymphatic perfusion of the ER-stress-activator tunicamycin results in profound hearing loss in rats [42].…”

Endoplasmic Reticulum Stress in Hearing Loss

“…Immunofluorescence demonstrated the presence of GFP in gentamicin-and PTC124-treated cells transfected with H2B-GFP opal, whereas untreated cells did not demonstrate any signal, indicating the potency of these drugs in evoking readthrough ( Figure 5A). To demonstrate that gentamicin was actually present in the nucleus of hiPSC-CMs, genes known to be upregulated after gentamicin exposure 25 were examined by quantitative PCR. GRP94, CHOP, and BiP expressions were upregulated in gentamicin-treated hiPSC-CM R1638X and hiPSC-CM W156X compared with untreated cells from the same line ( Figure 5B).…”

Readthrough-Promoting Drugs Gentamicin and PTC124 Fail to Rescue Na _v 1.5 Function of Human-Induced Pluripotent Stem Cell–Derived Cardiomyocytes Carrying Nonsense Mutations in the Sodium Channel Gene SCN5A

Inflammation Potentiates Cochlear Uptake of Ototoxins and Drug-Induced Hearing Loss