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Full-Text Articles in Physiology
Predominant Expression Of Alzheimer’S Disease-Associated Bin1 In Mature Oligodendrocytes And Localization To White Matter Tracts, Pierre De Rossi, Virginie Buggia-Prévot, Benjamin L. L. Clayton, Jared B. Vasquez, Carson Van Sanford, Robert J. Andrew, Ruben Lesnick, Alexandra Botté, Carole Deyts, Someya Salem, Eshaan Rao, Richard C. Rice, Angèle Parent, Satyabrata Kar, Brian Popko, Peter Pytel, Steven Estus, Gopal Thinakaran
Predominant Expression Of Alzheimer’S Disease-Associated Bin1 In Mature Oligodendrocytes And Localization To White Matter Tracts, Pierre De Rossi, Virginie Buggia-Prévot, Benjamin L. L. Clayton, Jared B. Vasquez, Carson Van Sanford, Robert J. Andrew, Ruben Lesnick, Alexandra Botté, Carole Deyts, Someya Salem, Eshaan Rao, Richard C. Rice, Angèle Parent, Satyabrata Kar, Brian Popko, Peter Pytel, Steven Estus, Gopal Thinakaran
Physiology Faculty Publications
Background: Genome-wide association studies have identified BIN1 within the second most significant susceptibility locus in late-onset Alzheimer’s disease (AD). BIN1 undergoes complex alternative splicing to generate multiple isoforms with diverse functions in multiple cellular processes including endocytosis and membrane remodeling. An increase in BIN1 expression in AD and an interaction between BIN1 and Tau have been reported. However, disparate descriptions of BIN1 expression and localization in the brain previously reported in the literature and the lack of clarity on brain BIN1 isoforms present formidable challenges to our understanding of how genetic variants in BIN1 increase the risk for AD.
Methods: …