INTRODUCTION: Different animal models for Alzheimer disease (AD) have been designed to support the hypothesis that the neurodegeneration (loss of neurons and synapses with reactive gliosis) associated with Aβ and tau deposition in these models is similar to that in the human brain. These alterations produce functional changes beginning with decreased ability to carry out daily and social life activities, memory loss, and neuropsychiatric disorders in general. Neuronal alteration plays an important role in early stages of the disease, especially in the CA1 area of hippocampus in both human and animal models. METHODS: Two groups (WT and 3xTg-AD) of 11-month-old female mice were used in a behavioural analysis (nest building) and a morphometric analysis of the CA1 region of the dorsal hippocampus. RESULTS: The 3xTg-AD mice showed a 50% reduction in nest quality associated with a significant increase in damaged neurons in the CA1 hippocampal area (26%±6%, P<.05) compared to the WT group. CONCLUSIONS: The decreased ability to carry out activities of daily living (humans) or nest building (3xTg-AD mice) is related to the neuronal alterations observed in AD. These alterations are controlled by the hippocampus. Post-mortem analyses of the human hippocampus, and the CA1 region in 3xTg-AD mice, show that these areas are associated with alterations in the deposition of Aβ and tau proteins, which start accumulating in the early stages of AD.
INTRODUCTION: Different animal models for Alzheimer disease (AD) have been designed to support the hypothesis that the neurodegeneration (loss of neurons and synapses with reactive gliosis) associated with Aβ and tau deposition in these models is similar to that in the human brain. These alterations produce functional changes beginning with decreased ability to carry out daily and social life activities, memory loss, and neuropsychiatric disorders in general. Neuronal alteration plays an important role in early stages of the disease, especially in the CA1 area of hippocampus in both human and animal models. METHODS: Two groups (WT and 3xTg-AD) of 11-month-old female mice were used in a behavioural analysis (nest building) and a morphometric analysis of the CA1 region of the dorsal hippocampus. RESULTS: The 3xTg-AD mice showed a 50% reduction in nest quality associated with a significant increase in damaged neurons in the CA1 hippocampal area (26%±6%, P<.05) compared to the WT group. CONCLUSIONS: The decreased ability to carry out activities of daily living (humans) or nest building (3xTg-AD mice) is related to the neuronal alterations observed in AD. These alterations are controlled by the hippocampus. Post-mortem analyses of the human hippocampus, and the CA1 region in 3xTg-AD mice, show that these areas are associated with alterations in the deposition of Aβ and tau proteins, which start accumulating in the early stages of AD.
Authors: Samuel Chiquita; Mário Ribeiro; João Castelhano; Francisco Oliveira; José Sereno; Marta Batista; Antero Abrunhosa; Ana C Rodrigues-Neves; Rafael Carecho; Filipa Baptista; Catarina Gomes; Paula I Moreira; António F Ambrósio; Miguel Castelo-Branco Journal: Hum Mol Genet Date: 2019-07-01 Impact factor: 6.150
Authors: Ana María Estrada-Sánchez; Courtney L Burroughs; Stephen Cavaliere; Scott J Barton; Shirley Chen; X William Yang; George V Rebec Journal: J Neurosci Date: 2015-03-11 Impact factor: 6.167
Authors: Siddhartha Mondragón-Rodríguez; Benito Ordaz; Erika Orta-Salazar; Sofia Díaz-Cintra; Fernando Peña-Ortega; George Perry Journal: Bio Protoc Date: 2020-02-20