Telomere dysfunction is associated with exacerbated intermittent hypoxia-induced cognitive deficits and nerve damage
Ying Guo, Yuyang Miao, Jin Tan, Rui Zhao, Duo Jiang, Minghui Zou, Feng Wang, Qiang Zhang

TL;DR
Telomere dysfunction worsens cognitive and nerve damage from sleep apnea, and targeting aging-related pathways may help.
Contribution
This study reveals a novel link between telomere dysfunction and exacerbated cognitive deficits from intermittent hypoxia, identifying potential therapeutic targets.
Findings
Telomere-damaged mice showed worse cognitive deficits and hippocampal atrophy under intermittent hypoxia.
Senolytic fisetin and mTOR inhibitor rapamycin reduced IH-induced damage in mice and cells.
Transcriptomic analysis identified inflammatory genes like IL-6 and CXCL10 linked to IH in telomere-damaged cells.
Abstract
Cognitive impairment associated with obstructive sleep apnea (OSA) is more prevalent and severe in the elderly, possibly due to age-related increases in neuronal susceptibility to intermittent hypoxia (IH). As telomere dysfunction is a key driver of cellular aging, this study aimed to characterize the interaction between telomere dysfunction and IH, and to explore the associated molecular alterations. Using telomere-damaged PC12 cells and G3 Tert−/− progeria mice exposed to IH, we assessed cellular stress responses, apoptosis, cognitive function, and hippocampal structural changes. The effects of the senolytic agent fisetin (in vivo) and the mTOR inhibitor rapamycin (in vitro) were evaluated. Transcriptomic analysis was performed on cells. IH-exposed G3 Tert−/− mice displayed exacerbated cognitive deficits and hippocampal atrophy compared to wild-type controls, which were significantly…
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Taxonomy
TopicsTelomeres, Telomerase, and Senescence · Adipose Tissue and Metabolism · Obstructive Sleep Apnea Research
