Cell-autonomous and non-cell autonomous effects of neuronal BIN1 loss in vivo.
Adaptor Proteins, Signal Transducing
/ physiology
Alzheimer Disease
/ genetics
Animals
Behavior, Animal
Biomarkers
/ metabolism
Brain
/ metabolism
Disease Models, Animal
Female
Gene Expression Profiling
Hippocampus
/ metabolism
Male
Mice
Mice, Inbred C57BL
Mice, Knockout
Nerve Tissue Proteins
/ physiology
Neurons
/ metabolism
Rats
Tumor Suppressor Proteins
/ physiology
tau Proteins
/ metabolism
Journal
PloS one
ISSN: 1932-6203
Titre abrégé: PLoS One
Pays: United States
ID NLM: 101285081
Informations de publication
Date de publication:
2019
2019
Historique:
received:
22
03
2019
accepted:
09
07
2019
entrez:
14
8
2019
pubmed:
14
8
2019
medline:
4
3
2020
Statut:
epublish
Résumé
BIN1 is the most important risk locus for Late Onset Alzheimer's Disease (LOAD), after ApoE. BIN1 AD-associated SNPs correlate with Tau deposition as well as with brain atrophy. Furthermore, the level of neuronal-specific BIN1 isoform 1 protein is decreased in sporadic AD cases in parallel with neuronal loss, despite an overall increase in BIN1 total mRNA. To address the relationship between reduction of BIN1 and neuronal cell loss in the context of Tau pathology, we knocked-down endogenous murine Bin1 via stereotaxic injection of AAV-Bin1 shRNA in the hippocampus of mice expressing Tau P301S (PS19). We observed a statistically significant reduction in the number of neurons in the hippocampus of mice injected with AAV-Bin1 shRNA in comparison with mice injected with AAV control. To investigate whether neuronal loss is due to deletion of Bin1 selectively in neurons in presence Tau P301S, we bred Bin1flox/flox with Thy1-Cre and subsequently with PS19 mice. Mice lacking neuronal Bin1 and expressing Tau P301S showed increased mortality, without increased neuropathology, when compared to neuronal Bin1 and Tau P301S-expressing mice. The loss of Bin1 isoform 1 resulted in reduced excitability in primary neurons in vitro, reduced neuronal c-fos expression as well as in altered microglia transcriptome in vivo. Taken together, our data suggest that the contribution of genetic variation in BIN1 locus to AD risk could result from a cell-autonomous reduction of neuronal excitability due to Bin1 decrease, exacerbated by the presence of aggregated Tau, coupled with a non-cell autonomous microglia activation.
Identifiants
pubmed: 31408457
doi: 10.1371/journal.pone.0220125
pii: PONE-D-19-08277
pmc: PMC6692034
doi:
Substances chimiques
Adaptor Proteins, Signal Transducing
0
Bin1 protein, mouse
0
Biomarkers
0
Nerve Tissue Proteins
0
Tumor Suppressor Proteins
0
tau Proteins
0
Types de publication
Journal Article
Research Support, Non-U.S. Gov't
Langues
eng
Sous-ensembles de citation
IM
Pagination
e0220125Déclaration de conflit d'intérêts
All the authors of the manuscript, with the exception of R.M.R., K.M.M., C.R. and A.C., are employees of Biogen. R.M.R., K.M.M., C.R. and A.C. are former employees of Biogen. R.M.R. is an employee of Third Rock Venture Capital, C.R. is an employee of the Genomic Institute of The Novartis Research Foundation. A.C. is an employee of Astellas Pharma. This does not alter our adherence to PLOS ONE policies on sharing data and materials.
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