Hippocampal neurons require a large pool of glutathione to sustain dendrite integrity and cognitive function
Seila Fernandez-Fernandez,
Veronica Bobo-Jimenez,
Raquel Requejo-Aguilar,
Silvia Gonzalez-Fernandez,
Monica Resch,
Monica Carabias-Carrasco,
Joaquim Ros,
Angeles Almeida,
Juan P. Bolaños
Affiliations
Seila Fernandez-Fernandez
Institute of Functional Biology and Genomics (IBFG), Universidad de Salamanca, Spain
Veronica Bobo-Jimenez
Institute of Functional Biology and Genomics (IBFG), Universidad de Salamanca, Spain; Institute of Biomedical Research of Salamanca (IBSAL), Hospital Universitario de Salamanca, Spain
Raquel Requejo-Aguilar
Institute of Functional Biology and Genomics (IBFG), Universidad de Salamanca, Spain; Córdoba Maimónides Institute for Biomedical Research (IMIBIC), University of Cordoba, Spain
Silvia Gonzalez-Fernandez
Institute of Functional Biology and Genomics (IBFG), Universidad de Salamanca, Spain
Monica Resch
Institute of Functional Biology and Genomics (IBFG), Universidad de Salamanca, Spain
Monica Carabias-Carrasco
Institute of Functional Biology and Genomics (IBFG), Universidad de Salamanca, Spain
Joaquim Ros
Departamento de Ciències Mèdiques Bàsiques, IRBLleida, Universitat de Lleida, Spain
Angeles Almeida
Institute of Functional Biology and Genomics (IBFG), Universidad de Salamanca, Spain; Institute of Biomedical Research of Salamanca (IBSAL), Hospital Universitario de Salamanca, Spain
Juan P. Bolaños
Institute of Functional Biology and Genomics (IBFG), Universidad de Salamanca, Spain; Institute of Biomedical Research of Salamanca (IBSAL), Hospital Universitario de Salamanca, Spain; CIBERFES, Instituto de Salud Carlos, III, Madrid, Spain; Corresponding author at: Institute of Functional Biology and Genomics (IBFG), University of Salamanca-CSIC, C/Zacarías González, 2, 37007 Salamanca, Spain.
Loss of brain glutathione has been associated with cognitive decline and neuronal death during aging and neurodegenerative diseases. However, whether decreased glutathione precedes or follows neuronal dysfunction has not been unambiguously elucidated. Previous attempts to address this issue were approached by fully eliminating glutathione, a strategy causing abrupt lethality or premature neuronal death that led to multiple interpretations. To overcome this drawback, here we aimed to moderately decrease glutathione content by genetically knocking down the rate-limiting enzyme of glutathione biosynthesis in mouse neurons in vivo. Biochemical and morphological analyses of the brain revealed a modest glutathione decrease and redox stress throughout the hippocampus, although neuronal dendrite disruption and glial activation was confined to the hippocampal CA1 layer. Furthermore, the behavioral characterization exhibited signs consistent with cognitive impairment. These results indicate that the hippocampal neurons require a large pool of glutathione to sustain dendrite integrity and cognitive function. Keywords: Neurons, Glutamate-cysteine ligase, Glutathione, In vivo knockdown, Dendrite disruption, Memory impairment
