| Popis: |
The process of aging is multifactorial, and therefore single agent interventions would be unlikely to attenuate the myriad pathologies associated with advancing age. Plasma contains many beneficial factors which have been shown in animal models to ameliorate multiple age-related deficits across varied organ systems, including the brain. We confirmed that human plasma from young (18-22-year-old) donors reverses age-related cognitive decline and enhances hippocampal neurogenesis and cell survival in aged immunocompromised mice, while plasma from aged individuals (62-68 years old) has detrimental effects in young mice. We examined PF in a high-fat diet (HFD) mouse model, a surrogate for a western diet, which expresses many characteristics of aging within the CNS in an accelerated manner: decreased cell proliferation, synaptic connectivity and increased inflammation compared to normal diet (NC) controls. We demonstrate that PF administration in HFD mice resulted in decreased brain inflammation, increased synaptic connectivity, improved neural progenitor cell survival, as well as amelioration of behavioral endpoints without impacting the underlying metabolic changes induced by HFD. In summary, we demonstrate that PF is a multifactorial and multimodal intervention for the treatment of global changes induced by the process of aging. |
