Transient alteration of the vestibular calyceal junction and synapse in response to chronic ototoxic insult in rats

Transient alteration of the vestibular calyceal junction and synapse in response to chronic ototoxic insult in rats

Show other versions (1)

Ototoxicity is known to cause permanent loss of vestibule function through degeneration of sensory hair cells (HCs). However, functional recovery has been reported during washout after chronic ototoxicity, although the mechanisms underlying this reversible dysfunction are unknown. Here, we study thi...

Full description

Bibliographic Details
Main Authors: Lara Sedó-Cabezón, Paulina Jedynak, Pere Boadas-Vaello, Jordi Llorens
Format: Article
Language:English
Published: The Company of Biologists 2015-10-01
Series:Disease Models & Mechanisms
Subjects:
Ototoxicity
Vestibular system
Calyx endings
CASPR1
Calyceal junctions
Ribbon synapses
3,3′-Iminodipropionitrile
Online Access:http://dmm.biologists.org/content/8/10/1323
id doaj-cbcac729ca0449058b2f9021504a7307
record_format Article
spelling doaj-cbcac729ca0449058b2f9021504a73072020-11-24T21:57:43ZengThe Company of BiologistsDisease Models & Mechanisms1754-84111754-84032015-10-018101323133710.1242/dmm.021436021436Transient alteration of the vestibular calyceal junction and synapse in response to chronic ototoxic insult in ratsLara Sedó-Cabezón0Paulina Jedynak1Pere Boadas-Vaello2Jordi Llorens3 Departament de Ciències Fisiològiques II, Universitat de Barcelona, 08907 L'Hospitalet de Llobregat, Catalonia, Spain Departament de Ciències Fisiològiques II, Universitat de Barcelona, 08907 L'Hospitalet de Llobregat, Catalonia, Spain Departament de Ciències Mèdiques, Facultat de Medicina, Universitat de Girona, 17071 Girona, Catalonia, Spain Departament de Ciències Fisiològiques II, Universitat de Barcelona, 08907 L'Hospitalet de Llobregat, Catalonia, Spain Ototoxicity is known to cause permanent loss of vestibule function through degeneration of sensory hair cells (HCs). However, functional recovery has been reported during washout after chronic ototoxicity, although the mechanisms underlying this reversible dysfunction are unknown. Here, we study this question in rats chronically exposed to the ototoxic compound 3,3′-iminodipropionitrile (IDPN). Pronounced alterations in vestibular function appeared before significant loss of HCs or stereociliary coalescence became evident by ultrastructural analyses. This early dysfunction was fully reversible if the exposure was terminated promptly. In cristae and utricles, the distinct junctions formed between type I HCs (HCI) and calyx endings were completely dismantled at these early stages of reversible dysfunction, and completely rebuilt during washout. Immunohistochemical observations revealed loss and recovery of the junction proteins CASPR1 and tenascin-C and RT-PCR indicated that their loss was not due to decreased gene expression. KCNQ4 was mislocalized during intoxication and recovered control-like localization after washout. At early stages of the intoxication, the calyces could be classified as showing intact or lost junctions, indicating that calyceal junction dismantlement is triggered on a calyx-by-calyx basis. Chronic toxicity also altered the presence of ribeye, PSD-95 and GluA2 puncta in the calyces. These synaptic alterations varied between the two types of calyx endings (formed by calyx-only or dimorphic afferents) and some persisted at the end of the washout period. The present data reveal new forms of plasticity of the calyx endings in adult mammals, including a robust capacity for rebuilding the calyceal junction. These findings contribute to a better understanding of the phenomena involved in progressive vestibular dysfunction and its potential recovery during and after ototoxic exposure.http://dmm.biologists.org/content/8/10/1323OtotoxicityVestibular systemCalyx endingsCASPR1Calyceal junctionsRibbon synapses3,3′-Iminodipropionitrile
collection DOAJ
language English
format Article
sources DOAJ
author Lara Sedó-Cabezón
Paulina Jedynak
Pere Boadas-Vaello
Jordi Llorens
spellingShingle Lara Sedó-Cabezón
Paulina Jedynak
Pere Boadas-Vaello
Jordi Llorens
Transient alteration of the vestibular calyceal junction and synapse in response to chronic ototoxic insult in rats
Disease Models & Mechanisms
Ototoxicity
Vestibular system
Calyx endings
CASPR1
Calyceal junctions
Ribbon synapses
3,3′-Iminodipropionitrile
author_facet Lara Sedó-Cabezón
Paulina Jedynak
Pere Boadas-Vaello
Jordi Llorens
author_sort Lara Sedó-Cabezón
title Transient alteration of the vestibular calyceal junction and synapse in response to chronic ototoxic insult in rats
title_short Transient alteration of the vestibular calyceal junction and synapse in response to chronic ototoxic insult in rats
title_full Transient alteration of the vestibular calyceal junction and synapse in response to chronic ototoxic insult in rats
title_fullStr Transient alteration of the vestibular calyceal junction and synapse in response to chronic ototoxic insult in rats
title_full_unstemmed Transient alteration of the vestibular calyceal junction and synapse in response to chronic ototoxic insult in rats
title_sort transient alteration of the vestibular calyceal junction and synapse in response to chronic ototoxic insult in rats
publisher The Company of Biologists
series Disease Models & Mechanisms
issn 1754-8411
1754-8403
publishDate 2015-10-01
description Ototoxicity is known to cause permanent loss of vestibule function through degeneration of sensory hair cells (HCs). However, functional recovery has been reported during washout after chronic ototoxicity, although the mechanisms underlying this reversible dysfunction are unknown. Here, we study this question in rats chronically exposed to the ototoxic compound 3,3′-iminodipropionitrile (IDPN). Pronounced alterations in vestibular function appeared before significant loss of HCs or stereociliary coalescence became evident by ultrastructural analyses. This early dysfunction was fully reversible if the exposure was terminated promptly. In cristae and utricles, the distinct junctions formed between type I HCs (HCI) and calyx endings were completely dismantled at these early stages of reversible dysfunction, and completely rebuilt during washout. Immunohistochemical observations revealed loss and recovery of the junction proteins CASPR1 and tenascin-C and RT-PCR indicated that their loss was not due to decreased gene expression. KCNQ4 was mislocalized during intoxication and recovered control-like localization after washout. At early stages of the intoxication, the calyces could be classified as showing intact or lost junctions, indicating that calyceal junction dismantlement is triggered on a calyx-by-calyx basis. Chronic toxicity also altered the presence of ribeye, PSD-95 and GluA2 puncta in the calyces. These synaptic alterations varied between the two types of calyx endings (formed by calyx-only or dimorphic afferents) and some persisted at the end of the washout period. The present data reveal new forms of plasticity of the calyx endings in adult mammals, including a robust capacity for rebuilding the calyceal junction. These findings contribute to a better understanding of the phenomena involved in progressive vestibular dysfunction and its potential recovery during and after ototoxic exposure.
topic Ototoxicity
Vestibular system
Calyx endings
CASPR1
Calyceal junctions
Ribbon synapses
3,3′-Iminodipropionitrile
url http://dmm.biologists.org/content/8/10/1323
work_keys_str_mv AT larasedocabezon transientalterationofthevestibularcalycealjunctionandsynapseinresponsetochronicototoxicinsultinrats
AT paulinajedynak transientalterationofthevestibularcalycealjunctionandsynapseinresponsetochronicototoxicinsultinrats
AT pereboadasvaello transientalterationofthevestibularcalycealjunctionandsynapseinresponsetochronicototoxicinsultinrats
AT jordillorens transientalterationofthevestibularcalycealjunctionandsynapseinresponsetochronicototoxicinsultinrats
_version_ 1725854016637763584

Similar Items