Ammothumkandy Aswathy, Corona Luis, Ravina Kristine, Wolseley Victoria, Nelson Jeremy, Atai Nadiya, Abedi Aidin, Jimenez Nora, Armacost Michelle, D'Orazio Lina M, Zuverza-Chavarria Virginia, Cayce Alisha, McCleary Carol, Nune George, Kalayjian Laura, Lee Darrin J, Lee Brian, Chow Robert H, Heck Christianne, Russin Jonathan J, Liu Charles Y, Smith Jason A D, Bonaguidi Michael A
Department of Stem Cell Biology and Regenerative Medicine, Eli and Edythe Broad Center for Regenerative Medicine and Stem Cell Research, Keck School of Medicine, University of Southern California, Los Angeles, CA 90033, USA.
Neurorestoration Center, Keck School of Medicine, University of Southern California, Los Angeles, CA 90033, USA.
Cell Stem Cell. 2025 Feb 6;32(2):293-301.e3. doi: 10.1016/j.stem.2024.11.002. Epub 2024 Dec 5.
Mesial temporal lobe epilepsy (MTLE) is a syndromic disorder presenting with seizures and cognitive comorbidities. Although seizure etiology is increasingly understood, the pathophysiological mechanisms contributing to cognitive decline and epilepsy progression remain less recognized. We have previously shown that adult hippocampal neurogenesis dramatically declines in MTLE patients with increased disease duration. Here, we investigate when multiple cognitive domains become affected during epilepsy progression and how human neurogenesis levels contribute to it. We find that intelligence, verbal learning, and memory decline at a critical period of 20 years disease duration. In contrast to rodents, the number of human immature neurons positively associates with auditory verbal, rather than visuospatial, learning and memory. Moreover, this association does not apply to mature granule neurons. Our study provides cellular evidence of how adult neurogenesis corresponds with human cognition and signifies an opportunity to advance regenerative medicine for patients with MTLE and other cognitive disorders.
内侧颞叶癫痫(MTLE)是一种伴有癫痫发作和认知共病的综合征性疾病。尽管癫痫病因越来越为人所知,但导致认知衰退和癫痫进展的病理生理机制仍未得到充分认识。我们之前已经表明,在病程增加的MTLE患者中,成年海马神经发生显著下降。在这里,我们研究在癫痫进展过程中多个认知领域何时受到影响,以及人类神经发生水平如何对此产生影响。我们发现,在病程20年的关键时期,智力、言语学习和记忆会下降。与啮齿动物不同,人类未成熟神经元的数量与听觉言语学习和记忆呈正相关,而不是与视觉空间学习和记忆呈正相关。此外,这种关联不适用于成熟的颗粒神经元。我们的研究提供了细胞证据,证明成年神经发生如何与人类认知相对应,并为推进针对MTLE和其他认知障碍患者的再生医学提供了一个契机。
