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dc.contributor.supervisor Kong, Jiming (Human Anatomy and Cell Science) en_US
dc.contributor.author Weng, Jiequn
dc.date.accessioned 2012-07-20T15:16:51Z
dc.date.available 2012-07-20T15:16:51Z
dc.date.issued 2012-07-20
dc.identifier.uri http://hdl.handle.net/1993/8109
dc.description.abstract The BNIP3 family, a group of death-inducing mitochondrial proteins, includes BNIP3, NIX and BNIP3h. These proteins share structural and functional similarities. BNIP3 causes neuronal cell death in a necrosis-like, caspase-independent manner with mitochondrial dysfunction. We reported that BNIP3 plays a role in delayed neuronal death in stroke models. Over-expression of BNIP3 causes up to 70% neuronal death, while knockdown of BNIP3 only protects 23% neurons from hypoxia. Thus, we hypothesize that other members of the BNIP3 subfamily compensate for the loss of BNIP3. BNIP3 and NIX were highly upregulated in the oxygen and glucose deprivation (OGD)/reoxygenation model, and knockdown of BNIP3 or NIX protected about 20% - 44% of neurons. Knockdown of BNIP3 family reduced neuronal death by 48%. Mitochondrial membrane potential loss, mitochondrial permeability transition pore (MPTP) opening and reactive oxygen species (ROS) production were all significantly attenuated by BNIP3 and/or NIX inhibition. AIF and EndoG were reported involving in caspase-independent cell death in ischemic stroke. We found that AIF was released from mitochondria and translocated into nuclei in neurons after OGD/reoxygenation, while inhibition of BNIP3 blocked AIF and EndoG translocation and prevented neuronal death. Over-expression of BNIP3 and NIX caused AIF translocation and subsequent neuronal death. These data reveal the effects of the BNIP3 family in neuronal death and indicate that AIF and EndoG are two downstream factors in the BNIP3-mediated cell death pathway. Meanwhile, necrostatin-1 (Nec-1), an inhibitor for a caspase-independent necrotic cell death, is able to protect neurons from death in stroke, mechanism of which is unclear. Here, we confirmed that Nec-1 significantly increased survival of neurons in models of stroke in vivo and in vitro. It also attenuated hypoxia or BNIP3-induced mitochondrial dysfunction and prevented mitochondrial release of AIF. Nec-1 did not affect the expression levels of BNIP3 but prevented its integration into mitochondria. These results suggest that Nec-1 protects neurons against ischemia by targeting BNIP3. In summary, this research indicates that the BNIP3 family is one of the regulators of caspase-independent neuronal death in stroke and that Nec-1 is an inhibitor for BNIP3 and a potential therapeutic agent for stroke. en_US
dc.subject BNIP3 en_US
dc.subject ischemia en_US
dc.subject AIF en_US
dc.subject stroke en_US
dc.title Protect neurons from ischemia-induced death by targeting BNIP3 gene family en_US
dc.degree.discipline Human Anatomy and Cell Science en_US
dc.contributor.examiningcommittee Vrontakis-Lautatzis, Maria (Human Anatomy and Cell Science) Anderson, Judith (Biological Science) Parkinson, Fiona (Pharmacology & Therapeutics) Namaka, Mike (Pharmacy) Wang, Yutian (University of British Columbia) en_US
dc.degree.level Doctor of Philosophy (Ph.D.) en_US
dc.description.note October 2012 en_US


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