Helen & Robert Appel Alzheimer’s Disease Research Institute

Publications

Found 91 results
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Journal Article
Gan L, Cookson MR, Petrucelli L, La Spada AR.  2018.  Converging pathways in neurodegeneration, from genetics to mechanisms.. Nat Neurosci. 21(10):1300-1309.
Karch CM, Kao AW, Karydas A, Onanuga K, Martinez R, Argouarch A, Wang C, Huang C, Sohn PDongmin, Bowles KR et al..  2019.  A Comprehensive Resource for Induced Pluripotent Stem Cells from Patients with Primary Tauopathies.. Stem Cell Reports.
Wang C, Sun B, Zhou Y, Grubb A, Gan L.  2012.  Cathepsin B degrades amyloid-β in mice expressing wild-type human amyloid precursor protein.. J Biol Chem. 287(47):39834-41.
Amin S, Liu B, Gan L.  2023.  Autophagy prevents microglial senescence.. Nat Cell Biol. 25(7):923-925.
Limbad C, Oron TRonnen, Alimirah F, Davalos AR, Tracy TE, Gan L, Desprez P-Y, Campisi J.  2020.  Astrocyte senescence promotes glutamate toxicity in cortical neurons.. PLoS One. 15(1):e0227887.
Grinberg LTenenholz, Wang X, Wang C, Sohn PDongmin, Theofilas P, Sidhu M, Arevalo JBenjamin, Heinsen H, Huang EJ, Rosen H et al..  2013.  Argyrophilic grain disease differs from other tauopathies by lacking tau acetylation.. Acta Neuropathol. 125(4):581-93.
Mueller-Steiner S, Zhou Y, Arai H, Roberson ED, Sun B, Chen J, Wang X, Yu G, Esposito L, Mucke L et al..  2006.  Antiamyloidogenic and neuroprotective functions of cathepsin B: implications for Alzheimer's disease.. Neuron. 51(6):703-14.
Das M, Mao W, Voskobiynyk Y, Necula D, Lew I, Petersen C, Zahn A, Yu G-Q, Yu X, Smith N et al..  2023.  Alzheimer risk-increasing TREM2 variant causes aberrant cortical synapse density and promotes network hyperexcitability in mouse models.. Neurobiol Dis. 186:106263.
Sayed FA, Kodama L, Fan L, Carling GK, Udeochu JC, Le D, Li Q, Zhou L, Wong MYing, Horowitz R et al..  2021.  AD-linked R47H-TREM2 mutation induces disease-enhancing microglial states via AKT hyperactivation.. Sci Transl Med. 13(622):eabe3947.
Luo W, Qu W, Gan L.  2023.  The AD odyssey 2023: Tales of single cell.. Cell. 186(20):4257-4259.
Min S-W, Cho S-H, Zhou Y, Schroeder S, Haroutunian V, Seeley WW, Huang EJ, Shen Y, Masliah E, Mukherjee C et al..  2010.  Acetylation of tau inhibits its degradation and contributes to tauopathy.. Neuron. 67(6):953-66.
Tracy TE, Sohn PDongmin, S Minami S, Wang C, Min S-W, Li Y, Zhou Y, Le D, Lo I, Ponnusamy R et al..  2016.  Acetylated Tau Obstructs KIBRA-Mediated Signaling in Synaptic Plasticity and Promotes Tauopathy-Related Memory Loss.. Neuron. 90(2):245-60.
Caballero B, Bourdenx M, Luengo E, Diaz A, Sohn PDongmin, Chen X, Wang C, Juste YR, Wegmann S, Patel B et al..  2021.  Acetylated tau inhibits chaperone-mediated autophagy and promotes tau pathology propagation in mice.. Nat Commun. 12(1):2238.
Tracy TE, Gan L.  2017.  Acetylated tau in Alzheimer's disease: An instigator of synaptic dysfunction underlying memory loss: Increased levels of acetylated tau blocks the postsynaptic signaling required for plasticity and promotes memory deficits associated with tauopathy.. Bioessays. 39(4)
Sohn PDongmin, Tracy TE, Son H-I, Zhou Y, Leite REP, Miller BL, Seeley WW, Grinberg LT, Gan L.  2016.  Acetylated tau destabilizes the cytoskeleton in the axon initial segment and is mislocalized to the somatodendritic compartment.. Mol Neurodegener. 11(1):47.
Sha SJ, Miller ZA, Min S-W, Zhou Y, Brown J, Mitic LL, Karydas A, Koestler M, Tsai R, Corbetta-Rastelli C et al..  2017.  An 8-week, open-label, dose-finding study of nimodipine for the treatment of progranulin insufficiency from gene mutations.. Alzheimers Dement (N Y). 3(4):507-512.