神经退行性痴呆症中副突触中间神经元功能障碍的作用

IF 12.5 1区 医学 Q1 CELL BIOLOGY
Carmelo Luca Smeralda , Siddhartha Pandit , Sonia Turrini , Julianne Reilly , Annalisa Palmisano , Giulia Sprugnoli , Harald Hampel , Alberto Benussi , Barbara Borroni , Daniel Press , Alexander Rotenberg , Georges El Fakhri , Giacomo Koch , Simone Rossi , Emiliano Santarnecchi
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引用次数: 0

摘要

副发光素阳性(PV+)篮状神经元是一种快速激动的非适应性抑制性中间神经元,其振荡活动对于调节大脑皮层的兴奋/抑制平衡至关重要。它们的功能障碍会导致大脑皮层过度兴奋和伽马节律紊乱,这已成为阿尔茨海默病(AD)的诱因和潜在治疗靶点。最近的证据表明,PV+细胞在额颞叶痴呆症(FTD)和路易体痴呆症(DLB)中也会受损。然而,目前还没有人尝试将这些发现整合到一个连贯的病理生理学框架中,以解决 PV+ 神经元功能障碍对 FTD 和 DLB 中皮质过度兴奋性和伽马节律紊乱的产生所起的作用。为了填补这一空白,我们总结了 AD、FTD 和 DLB 中 PV+中间神经元功能障碍的最新证据,重点研究了它对皮质过度兴奋和伽马振荡紊乱的产生所起的作用,以及它们与错误折叠蛋白积累、神经元死亡和临床症状发作之间的相互作用。我们的研究加深了目前对PV+中间神经元功能障碍在各种神经退行性痴呆症中的作用的理解,突出了AD、FTD和DLB之间的共性和差异,从而为确定治疗这些疾病的新型生物标记物和潜在治疗靶点铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The role of parvalbumin interneuron dysfunction across neurodegenerative dementias
Parvalbumin-positive (PV+) basket neurons are fast-spiking, non-adapting inhibitory interneurons whose oscillatory activity is essential for regulating cortical excitation/inhibition balance. Their dysfunction results in cortical hyperexcitability and gamma rhythm disruption, which have recently gained substantial traction as contributing factors as well as potential therapeutic targets for the treatment of Alzheimer’s Disease (AD). Recent evidence indicates that PV+ cells are also impaired in Frontotemporal Dementia (FTD) and Dementia with Lewy bodies (DLB). However, no attempt has been made to integrate these findings into a coherent pathophysiological framework addressing the contribution of PV+ interneuron dysfunction to the generation of cortical hyperexcitability and gamma rhythm disruption in FTD and DLB. To fill this gap, we epitomized the most recent evidence on PV+ interneuron impairment in AD, FTD, and DLB, focusing on its contribution to the generation of cortical hyperexcitability and gamma oscillatory disruption and their interplay with misfolded protein accumulation, neuronal death, and clinical symptoms’ onset. Our work deepens the current understanding concerning the role of PV+ interneuron dysfunction across neurodegenerative dementias, highlighting commonalities and differences among AD, FTD, and DLB, thus paving the way for identifying novel biomarkers and potential therapeutic targets for the treatment of these diseases.
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来源期刊
Ageing Research Reviews
Ageing Research Reviews 医学-老年医学
CiteScore
19.80
自引率
2.30%
发文量
216
审稿时长
55 days
期刊介绍: With the rise in average human life expectancy, the impact of ageing and age-related diseases on our society has become increasingly significant. Ageing research is now a focal point for numerous laboratories, encompassing leaders in genetics, molecular and cellular biology, biochemistry, and behavior. Ageing Research Reviews (ARR) serves as a cornerstone in this field, addressing emerging trends. ARR aims to fill a substantial gap by providing critical reviews and viewpoints on evolving discoveries concerning the mechanisms of ageing and age-related diseases. The rapid progress in understanding the mechanisms controlling cellular proliferation, differentiation, and survival is unveiling new insights into the regulation of ageing. From telomerase to stem cells, and from energy to oxyradical metabolism, we are witnessing an exciting era in the multidisciplinary field of ageing research. The journal explores the cellular and molecular foundations of interventions that extend lifespan, such as caloric restriction. It identifies the underpinnings of manipulations that extend lifespan, shedding light on novel approaches for preventing age-related diseases. ARR publishes articles on focused topics selected from the expansive field of ageing research, with a particular emphasis on the cellular and molecular mechanisms of the aging process. This includes age-related diseases like cancer, cardiovascular disease, diabetes, and neurodegenerative disorders. The journal also covers applications of basic ageing research to lifespan extension and disease prevention, offering a comprehensive platform for advancing our understanding of this critical field.
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