Longitudinal characterization reveals behavioral impairments in aged APP knock in mouse models
Lisa Blackmer‐Raynolds, Lyndsey D. Lipson, Isabel Fraccaroli, Ian N Krout, Jianjun Chang, Timothy R. Sampson
Abstract
Abstract APP knock-in (KI) mice serve as an exciting new model system to understand amyloid beta (Aβ) pathology, overcoming many of the limitations of previous overexpression-based model systems. The APP SAA mouse model (containing the humanized APP with three familial Alzheimer’s disease mutations) and the APP WT control (containing wildtype humanized APP) are the first commercially available APP KI mice within the United States. While APP SAA mice have been shown to develop progressive Aβ pathology and neuroinflammation, the age at which behavioral and cognitive impairments begin to develop has yet to be described. Therefore, we performed an in-depth longitudinal study over 16 months, assessing cognition in these two strains, as well as assessments of motor function. While no cognitive deficits are observed in either genotype throughout the first year of life, 16-month-old APP SAA , but not APP WT mice show initial signs of spatial memory decline. In addition, both genotypes display impaired motor function at the same age. Together, this data identifies a timeframe where behavioral deficits appear, providing an essential foundation for future studies using these model systems.