Targeting the SUMO pathway for neuroprotection in brain ischaemia.

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2016-09

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Abstract

Small ubiquitin-like modifier (SUMO) conjugation (SUMOylation) is a post-translational protein modification that modulates almost all major cellular processes, and has been implicated in many human diseases. A growing body of evidence from in vitro and in vivo studies demonstrates that increasing global levels of SUMO conjugated proteins (global SUMOylation) protects cells against ischaemia-induced damage, while suppressing global SUMOylation promotes cell injury after ischaemia. Indeed, SUMOylation has emerged as a potential therapeutic target for neuroprotection in brain ischaemia, including global brain ischaemia and focal brain ischaemia (ischaemic stroke). Here, we summarise findings on the role of SUMOylation in human diseases, brain ischaemia in particular, and review recent developments in drug discovery targeting SUMOylation with a major focus on its neuroprotective applications.

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Brain, Animals, Humans, Brain Ischemia, Small Ubiquitin-Related Modifier Proteins, Neuroprotective Agents, Drug Discovery, Sumoylation, Molecular Targeted Therapy, Drug Development

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https://hdl.handle.net/10161/23261

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10.1136/svn-2016-000031

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Yang, Wei, Huaxin Sheng and Haichen Wang (2016). Targeting the SUMO pathway for neuroprotection in brain ischaemia. Stroke and vascular neurology, 1(3). pp. 101–107. 10.1136/svn-2016-000031 Retrieved from https://hdl.handle.net/10161/23261.

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Yang

Wei Yang

Professor in Anesthesiology
Sheng

Huaxin Sheng

Associate Professor in Anesthesiology

We have successfully developed various rodent models of brain and spinal cord injuries in our lab, such as focal cerebral ischemia, global cerebral ischemia, head trauma, subarachnoid hemorrhage, intracerebral hemorrhage, spinal cord ischemia, and compression injury. We also established cardiac arrest and hemorrhagic shock models for studying multiple organ dysfunction.  Our current studies focus on two projects. One is to examine the efficacy of catalytic antioxidants in treating cerebral ischemia, and the other is to investigate the effectiveness of post-conditioning on the outcome of subarachnoid hemorrhage-induced cognitive dysfunction.

We are a part of the NIH Stroke Preclinical Assessment Network (SPAN).

Wang

Haichen Wang

Assistant Professor in Neurology

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