Sevoflurane Induces a Cyclophilin D-Dependent Decrease of Neural Progenitor Cells Migration

Lü, Ping; Liang, Feng; Dong, Yuanlin; Xie, Zhongcong; Zhang, Yiying

doi:10.3390/ijms24076746

IJMS

2023

DOI: 10.3390/ijms24076746

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Sevoflurane Induces a Cyclophilin D-Dependent Decrease of Neural Progenitor Cells Migration

Ping Lü

Feng Liang

Yuanlin Dong

et al.

Abstract: Clinical studies have suggested that repeated exposure to anesthesia and surgery at a young age may increase the risk of cognitive impairment. Our previous research has shown that sevoflurane can affect neurogenesis and cognitive function in young animals by altering cyclophilin D (CypD) levels and mitochondrial function. Neural progenitor cells (NPCs) migration is associated with cognitive function in developing brains. However, it is unclear whether sevoflurane can regulate NPCs migration via changes in CypD… Show more

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“…LU PAN et al employ a model of neural progenitor cell (NPCs) migration assay to answer the unsolved problem of the impacts of sevoflurane anesthesia on the impairment of NPC migration and, as such, on cognitive function. They were able to show that a sevoflurane-induced decrease in NPC migration is dependent on cyclophilin D (CypD) levels [ 3 ].…”

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Special Issue “Stem Cell Biology & Regenerative Medicine”

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2023

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Melatonin attenuates sevoflurane-induced hippocampal damage and cognitive deficits in neonatal mice by suppressing CypD in parvalbumin neurons

Zou,

Zhang,

Qiang

et al. 2023

Brain Research Bulletin

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Nissl Granules, Axonal Regeneration, and Regenerative Therapeutics: A Comprehensive Review

Bhati,

Thakre,

Anjankar

2023

Cureus

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Nissl granules, traditionally recognized for their pivotal role in protein synthesis within neuronal cell bodies, are emerging as intriguing components with far-reaching implications in the realm of regenerative therapeutics. This abstract encapsulates the essence of a comprehensive review, exploring the nexus between Nissl granules, axonal regeneration, and their transformative applications in regenerative medicine. The molecular intricacies of Nissl granules form the foundation of this exploration, unraveling their dynamic role in orchestrating cellular responses, particularly in the context of axonal regeneration. As we delve into the interplay between Nissl granules and regenerative processes, this review highlights the diverse mechanisms through which these granules contribute to neuronal repair and recovery. Beyond their conventional association with neurobiology, recent advancements underscore the translational potential of Nissl granules as therapeutic agents. Insights into their involvement in enhancing axonal regeneration prompt a reconsideration of these granules as key players in the broader field of regenerative medicine. The abstract encapsulates evidence suggesting that modulating Nissl granule-related pathways holds promise for augmenting tissue regeneration, extending their applicability beyond the confines of the nervous system. This review aims to serve as a valuable resource for medical professionals, researchers, and clinicians seeking to comprehend the multifaceted role of Nissl granules in regenerative therapeutics. By illuminating the intricate connections between Nissl granules, axonal regeneration, and therapeutic applications, this work aspires to catalyze further research and innovation, ultimately contributing to the evolution of regenerative strategies that harness the innate reparative capacities within cellular constituents.

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Sevoflurane Induces a Cyclophilin D-Dependent Decrease of Neural Progenitor Cells Migration

Cited by 3 publications

References 45 publications

Special Issue “Stem Cell Biology & Regenerative Medicine”

Special Issue “Stem Cell Biology & Regenerative Medicine”

Melatonin attenuates sevoflurane-induced hippocampal damage and cognitive deficits in neonatal mice by suppressing CypD in parvalbumin neurons

Nissl Granules, Axonal Regeneration, and Regenerative Therapeutics: A Comprehensive Review

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