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Intranasal Delivery of Anti-Apoptotic siRNA Complexed with Fas-Signaling Blocking Peptides Attenuates Cellular Apoptosis in Brain Ischemiaopen access

Authors
Chung, KunhoUllah, IrfanYi, YujongKang, EunhwaYun, GyeongjuHeo, SeoyounKim, MinkyungChung, Seong-EunPark, SeongjunLim, JaeyeoungLee, MinhyungRhim, TaiyounLee, Sang-Kyung
Issue Date
Feb-2024
Publisher
Multidisciplinary Digital Publishing Institute (MDPI)
Keywords
ischemic stroke; cell death; apoptosis; Fas signaling; Fas-blocking peptide (FBP); intranasal; siRNA
Citation
Pharmaceutics, v.16, no.2, pp 1 - 19
Pages
19
Indexed
SCIE
SCOPUS
Journal Title
Pharmaceutics
Volume
16
Number
2
Start Page
1
End Page
19
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/196593
DOI
10.3390/pharmaceutics16020290
ISSN
1999-4923
1999-4923
Abstract
Ischemic stroke-induced neuronal cell death leads to the permanent impairment of brain function. The Fas-mediating extrinsic apoptosis pathway and the cytochrome c-mediating intrinsic apoptosis pathway are two major molecular mechanisms contributing to neuronal injury in ischemic stroke. In this study, we employed a Fas-blocking peptide (FBP) coupled with a positively charged nona-arginine peptide (9R) to form a complex with negatively charged siRNA targeting Bax (FBP9R/siBax). This complex is specifically designed to deliver siRNA to Fas-expressing ischemic brain cells. This complex enables the targeted inhibition of Fas-mediating extrinsic apoptosis pathways and cytochrome c-mediating intrinsic apoptosis pathways. Specifically, the FBP targets the Fas/Fas ligand signaling, while siBax targets Bax involved in mitochondria disruption in the intrinsic pathway. The FBP9R carrier system enables the delivery of functional siRNA to hypoxic cells expressing the Fas receptor on their surface-a finding validated through qPCR and confocal microscopy analyses. Through intranasal (IN) administration of FBP9R/siCy5 to middle cerebral artery occlusion (MCAO) ischemic rat models, brain imaging revealed the complex specifically localized to the Fas-expressing infarcted region but did not localize in the non-infarcted region of the brain. A single IN administration of FBP9R/siBax demonstrated a significant reduction in neuronal cell death by effectively inhibiting Fas signaling and preventing the release of cytochrome c. The targeted delivery of FBP9R/siBax represents a promising alternative strategy for the treatment of brain ischemia.
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