Injury-Induced Neurogenesis: Mechanisms and Relevance

Overview

Journal Neuroscientist

Publisher Sage Publications

Specialty Neurology

Date 2014 Dec 19

PMID 25520428

Citations 43

Authors

Tzong-Shiue Yu

Patricia M Washington

Steven G Kernie

Affiliations

Soon will be listed here.

Abstract

Partial recovery from brain injury due to trauma, hypoxia, or stroke, is ubiquitous and occurs largely through unknown mechanisms. It is now well accepted that injury enhances proliferation of quiescent stem and progenitor cells in specialized niches within the brain. However, whether this injury-induced neurogenesis contributes to recovery after brain injury remains controversial. Recent evidence suggests that hippocampal neural stem/precursor cell activation and subsequent neurogenesis are responsible for at least some aspects of spontaneous recovery following brain injury from a variety of causes. However, other aspects of injury-induced neurogenesis, including its contribution to adverse sequelae such as seizures, are still being investigated. The purpose of this review is to provide an overview of adult hippocampal neurogenesis and how it relates to injury and explain how current mouse technology is allowing for better understanding of whether manipulating this natural process might eventually help inform therapy following brain injury.

Citing Articles

Repetitive traumatic brain injury-induced complement C1-related inflammation impairs long-term hippocampal neurogenesis.

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URB447 Is Neuroprotective in Both Male and Female Rats after Neonatal Hypoxia-Ischemia and Enhances Neurogenesis in Females.

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Repeated mild traumatic brain injury causes sex-specific increases in cell proliferation and inflammation in juvenile rats.

Neale K, Reid H, Sousa B, McDonagh E, Morrison J, Shultz S J Neuroinflammation. 2023; 20(1):250.

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Targeting Neurogenesis in Seeking Novel Treatments for Ischemic Stroke.

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Xenon inhalation attenuates neuronal injury and prevents epilepsy in febrile seizure Sprague-Dawley pups.

Cheng Y, Zhai Y, Yuan Y, Li H, Zhao W, Fan Z Front Cell Neurosci. 2023; 17:1155303.

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