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Literature DB >> 31272312

Prevention of brain damage after traumatic brain injury by pharmacological enhancement of KCNQ (Kv7, "M-type") K⁺ currents in neurons.

Fabio A Vigil¹, Eda Bozdemir², Vladislav Bugay¹, Sang H Chun², MaryAnn Hobbs¹, Isamar Sanchez¹, Shayne D Hastings¹, Rafael J Veraza¹, Deborah M Holstein², Shane M Sprague³, Chase M Carver¹, Jose E Cavazos⁴, Robert Brenner¹, James D Lechleiter², Mark S Shapiro¹.

Abstract

Nearly three million people in the USA suffer traumatic brain injury (TBI) yearly; however, there are no pre- or post-TBI treatment options available. KCNQ2-5 voltage-gated K+ channels underlie the neuronal "M current", which plays a dominant role in the regulation of neuronal excitability. Our strategy towards prevention of TBI-induced brain damage is predicated on the suggested hyper-excitability of neurons induced by TBIs, and the decrease in neuronal excitation upon pharmacological augmentation of M/KCNQ K+ currents. Seizures are very common after a TBI, making further seizures and development of epilepsy disease more likely. Our hypothesis is that TBI-induced hyperexcitability and ischemia/hypoxia lead to metabolic stress, cell death and a maladaptive inflammatory response that causes further downstream morbidity. Using the mouse controlled closed-cortical impact blunt TBI model, we found that systemic administration of the prototype M-channel "opener", retigabine (RTG), 30 min after TBI, reduces the post-TBI cascade of events, including spontaneous seizures, enhanced susceptibility to chemo-convulsants, metabolic stress, inflammatory responses, blood-brain barrier breakdown, and cell death. This work suggests that acutely reducing neuronal excitability and energy demand via M-current enhancement may be a novel model of therapeutic intervention against post-TBI brain damage and dysfunction.

Entities: Chemical Disease Gene Species

Keywords: Cell death; K+ channels; KCNQ; seizures; traumatic brain injury

Mesh：

Substances：

Year: 2019 PMID： 31272312 PMCID： PMC7238379 DOI： 10.1177/0271678X19857818

Source DB: PubMed Journal: J Cereb Blood Flow Metab ISSN： 0271-678X Impact factor: 6.200

127 in total

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