Role of Forkhead Box Protein O1 (FoxO1) in Stroke: A Literature Review

Stroke is one of the most prevalent causes of death around the world. When a stroke occurs, many cellular signaling cascades and regulators are activated, which results in severe cellular dysfunction and debilitating long-term disability. One crucial regulator of cell fate and function is mammalian...

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Bibliographic Details
Published inAging and disease Vol. 13; no. 2; pp. 521 - 533
Main Authors Guo, Sichao, Mangal, Ruchi, Dandu, Chaitu, Geng, Xiaokun, Ding, Yuchuan
Format Journal Article
LanguageEnglish
Published United States JKL International 01.04.2022
JKL International LLC
Subjects
Development and progression
Genetic aspects
Gluconeogenesis
Health aspects
Oxidative stress
Review
Stroke (Disease)
China
apoptosis
BBB
inflammation
transcription factors
gluconeogenesis
oxidative stress
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Summary:Stroke is one of the most prevalent causes of death around the world. When a stroke occurs, many cellular signaling cascades and regulators are activated, which results in severe cellular dysfunction and debilitating long-term disability. One crucial regulator of cell fate and function is mammalian Forkhead box protein O1 (FoxO1). Many studies have found FoxO1 to be implicated in many cellular processes, including regulating gluconeogenesis and glycogenolysis. During a stroke, modifications of FoxO1 have been linked to a variety of functions, such as inducing cell death and inflammation, inhibiting oxidative injury, affecting the blood brain barrier (BBB), and regulating hepatic gluconeogenesis. For these functions of FoxO1, different measures and treatments were applied to FoxO1 after ischemia. However, the subtle mechanisms of post-transcriptional modification and the role of FoxO1 are still elusive and even contradictory in the development of stroke. The determination of these mechanisms will lead to further enlightenment for FoxO1 signal transduction and the identification of targeted drugs. The regulation and function of FoxO1 may provide an important way for the prevention and treatment of diseases. Overall, the functions of FoxO1 are multifactorial, and this paper will summarize all of the significant pathways in which FoxO1 plays an important role during stroke damage and recovery.
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ISSN:2152-5250
2152-5250
DOI:10.14336/AD.2021.0826