Senolytic Intervention Improves Cognition, Metabolism, and Adiposity in Female APP

Authors

Yimin Fang, Southern Illinois University School of Medicine
Mackenzie R Peck, Southern Illinois University School of Medicine
Kathleen Quinn, Southern Illinois University School of Medicine
Jenelle E Chapman, Southern Illinois University School of Medicine
David Medina, Southern Illinois University School of Medicine
Samuel A McFadden, Southern Illinois University School of Medicine
Andrzej Bartke, Southern Illinois University School of Medicine
Erin R Hascup, Southern Illinois University School of Medicine
Kevin N Hascup, Southern Illinois University School of Medicine

Abstract

Senescent cells accumulate throughout the body and brain contributing to unhealthy aging and Alzheimer's disease (AD). The APP^NL-F/NL-F amyloidogenic AD mouse model exhibits increased markers of senescent cells and the senescence-associated secretory phenotype (SASP) in visceral white adipose tissue and the hippocampus before plaque accumulation and cognitive decline. We hypothesized that senolytic intervention would alleviate cellular senescence thereby improving spatial memory in APP^NL-F/NL-F mice. Thus, 4-month-old male and female APP^NL-F/NL-F mice were treated monthly with vehicle, 5 mg/kg dasatinib + 50 mg/kg quercetin, or 100 mg/kg fisetin. Blood glucose levels, energy metabolism, spatial memory, amyloid burden, and senescent cell markers were assayed. Dasatinib + quercetin treatment in female APP^NL-F/NL-F mice increased oxygen consumption and energy expenditure resulting in decreased body mass. White adipose tissue mass was decreased along with senescence markers, SASP, blood glucose, and plasma insulin and triglycerides. Hippocampal senescence markers and SASP were reduced along with soluble and insoluble amyloid-β (Aβ)₄₂ and senescence-associated-β-gal activity leading to improved spatial memory. Fisetin had negligible effects on these measures in female APP^NL-F/NL-F mice while neither senolytic intervention altered these parameters in the male mice. Considering women have a greater risk of dementia, identifying senotherapeutics appropriate for sex and disease stage is necessary for personalized medicine.

Recommended Citation

Fang, Yimin, Peck, Mackenzie R, Quinn, Kathleen, Chapman, Jenelle E, Medina, David, McFadden, Samuel A, Bartke, Andrzej, Hascup, Erin R and Hascup, Kevin N. "Senolytic Intervention Improves Cognition, Metabolism, and Adiposity in Female APP." Geroscience (Aug 2024). doi:10.1007/s11357-024-01308-8.