CONCLUSION: An 18-mer peptide derived from the neurotrophic region of prosaposin (PS-pep) prevents hearing loss and cochlear damage due to transient cochlear ischaemia by activating an anti-apoptotic pathway. PS-pep is a potent candidate molecule for alleviating ischaemia-induced hearing loss. OBJECTIVE: PS-pep was investigated for its protective effects against ischaemia-induced hearing loss and cochlear damage. METHODS: Ischaemia was induced in both cochleae in Mongolian gerbils by pulling the ligatures around both vertebral arteries in an anterior direction using 5 g weights for 15 min. PS-pep was synthesized artificially and administered subcutaneously four times after the induction of transient cochlear ischaemia. RESULTS: An increase in the auditory brainstem response threshold was alleviated in animals treated with 2.0 mg/kg PS-pep. Histological examinations conducted on day 7 showed that the loss of inner hair cells (IHCs) was more prominent than that of outer hair cells. Higher doses of PS-pep significantly alleviated IHC loss. An increase in the anti-apoptotic factor bcl-2 was also noted in the IHCs treated with PS-pep.
CONCLUSION: An 18-mer peptide derived from the neurotrophic region of prosaposin (PS-pep) prevents hearing loss and cochlear damage due to transient cochlear ischaemia by activating an anti-apoptotic pathway. PS-pep is a potent candidate molecule for alleviating ischaemia-induced hearing loss. OBJECTIVE: PS-pep was investigated for its protective effects against ischaemia-induced hearing loss and cochlear damage. METHODS: Ischaemia was induced in both cochleae in Mongolian gerbils by pulling the ligatures around both vertebral arteries in an anterior direction using 5 g weights for 15 min. PS-pep was synthesized artificially and administered subcutaneously four times after the induction of transient cochlear ischaemia. RESULTS: An increase in the auditory brainstem response threshold was alleviated in animals treated with 2.0 mg/kg PS-pep. Histological examinations conducted on day 7 showed that the loss of inner hair cells (IHCs) was more prominent than that of outer hair cells. Higher doses of PS-pep significantly alleviated IHC loss. An increase in the anti-apoptotic factor bcl-2 was also noted in the IHCs treated with PS-pep.
Authors: Jakub Litak; Cezary Grochowski; Joanna Litak; Ida Osuchowska; Krzysztof Gosik; Elżbieta Radzikowska; Piotr Kamieniak; Jacek Rolinski Journal: Int J Mol Sci Date: 2020-04-28 Impact factor: 5.923
Authors: Sarah Jolly; Narges Bazargani; Alejandra C Quiroga; Nigel P Pringle; David Attwell; William D Richardson; Huiliang Li Journal: Glia Date: 2017-08-10 Impact factor: 7.452