Helen & Robert Appel Alzheimer’s Disease Research Institute

Publications

Found 238 results
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2020
Wong MYing, Lewis M, Doherty JJ, Shi Y, Cashikar AG, Amelianchik A, Tymchuk S, Sullivan PM, Qian M, Covey DF et al..  2020.  25-Hydroxycholesterol amplifies microglial IL-1β production in an apoE isoform-dependent manner.. J Neuroinflammation. 17(1):192.
Acosta-Ruiz A, Gutzeit VA, Skelly MJane, Meadows S, Lee J, Parekh P, Orr AG, Liston C, Pleil KE, Broichhagen J et al..  2020.  Branched Photoswitchable Tethered Ligands Enable Ultra-efficient Optical Control and Detection of G Protein-Coupled Receptors In Vivo.. Neuron. 105(3):446-463.e13.
Acosta-Ruiz A, Gutzeit VA, Skelly MJane, Meadows S, Lee J, Parekh P, Orr AG, Liston C, Pleil KE, Broichhagen J et al..  2020.  Branched Photoswitchable Tethered Ligands Enable Ultra-efficient Optical Control and Detection of G Protein-Coupled Receptors In Vivo.. Neuron. 105(3):446-463.e13.
Inda MCarmen, Joshi S, Wang T, Bolaender A, Gandu S, Iii JKoren, Che AYue, Taldone T, Yan P, Sun W et al..  2020.  The epichaperome is a mediator of toxic hippocampal stress and leads to protein connectivity-based dysfunction.. Nat Commun. 11(1):319.
Inda MCarmen, Joshi S, Wang T, Bolaender A, Gandu S, Iii JKoren, Che AYue, Taldone T, Yan P, Sun W et al..  2020.  The epichaperome is a mediator of toxic hippocampal stress and leads to protein connectivity-based dysfunction.. Nat Commun. 11(1):319.
Inda MCarmen, Joshi S, Wang T, Bolaender A, Gandu S, Iii JKoren, Che AYue, Taldone T, Yan P, Sun W et al..  2020.  The epichaperome is a mediator of toxic hippocampal stress and leads to protein connectivity-based dysfunction.. Nat Commun. 11(1):319.
Inda MCarmen, Joshi S, Wang T, Bolaender A, Gandu S, Iii JKoren, Che AYue, Taldone T, Yan P, Sun W et al..  2020.  The epichaperome is a mediator of toxic hippocampal stress and leads to protein connectivity-based dysfunction.. Nat Commun. 11(1):319.
Abramov D, Guiberson NGuy Lewis, Daab A, Na Y, Petsko GA, Sharma M, Burré J.  2020.  Targeted stabilization of Munc18-1 function via pharmacological chaperones.. EMBO Mol Med. :e12354.
2019
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.
Poleksic A, Xie L.  2019.  Database of adverse events associated with drugs and drug combinations.. Sci Rep. 9(1):20025.
2018
Gan L, Cookson MR, Petrucelli L, La Spada AR.  2018.  Converging pathways in neurodegeneration, from genetics to mechanisms.. Nat Neurosci. 21(10):1300-1309.
Sokhi UK, Liber MP, Frye L, Park S, Kang K, Pannellini T, Zhao B, Norinsky R, Ivashkiv LB, Gong S.  2018.  Dissection and function of autoimmunity-associated TNFAIP3 (A20) gene enhancers in humanized mouse models.. Nat Commun. 9(1):658.
Sokhi UK, Liber MP, Frye L, Park S, Kang K, Pannellini T, Zhao B, Norinsky R, Ivashkiv LB, Gong S.  2018.  Dissection and function of autoimmunity-associated TNFAIP3 (A20) gene enhancers in humanized mouse models.. Nat Commun. 9(1):658.
Guiberson NGuy Lewis, Pineda A, Abramov D, Kharel P, Carnazza KE, Wragg RT, Dittman JS, Burré J.  2018.  Mechanism-based rescue of Munc18-1 dysfunction in varied encephalopathies by chemical chaperones.. Nat Commun. 9(1):3986.
Snyder HM, Carare RO, DeKosky ST, de Leon MJ, Dykxhoorn D, Gan L, Gardner R, Hinds SR, Jaffee M, Lamb BT et al..  2018.  Military-related risk factors for dementia.. Alzheimers Dement. 14(12):1651-1662.
Snyder HM, Carare RO, DeKosky ST, de Leon MJ, Dykxhoorn D, Gan L, Gardner R, Hinds SR, Jaffee M, Lamb BT et al..  2018.  Military-related risk factors for dementia.. Alzheimers Dement. 14(12):1651-1662.
Martinez-Losa M, Tracy TE, Ma K, Verret L, Clemente-Perez A, Khan AS, Cobos I, Ho K, Gan L, Mucke L et al..  2018.  Nav1.1-Overexpressing Interneuron Transplants Restore Brain Rhythms and Cognition in a Mouse Model of Alzheimer's Disease.. Neuron. 98(1):75-89.e5.
Fernandopulle MS, Prestil R, Grunseich C, Wang C, Gan L, Ward ME.  2018.  Transcription Factor-Mediated Differentiation of Human iPSCs into Neurons.. Curr Protoc Cell Biol. 79(1):e51.
2017
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.
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.
Shi Y, Yamada K, Liddelow SAntony, Smith ST, Zhao L, Luo W, Tsai RM, Spina S, Grinberg LT, Rojas JC et al..  2017.  ApoE4 markedly exacerbates tau-mediated neurodegeneration in a mouse model of tauopathy.. Nature. 549(7673):523-527.
Boselli M, Lee B-H, Robert J, Prado MA, Min S-W, Cheng C, M Silva C, Seong C, Elsasser S, Hatle KM et al..  2017.  An inhibitor of the proteasomal deubiquitinating enzyme USP14 induces tau elimination in cultured neurons.. J Biol Chem. 292(47):19209-19225.
Pathak D, Berthet A, Bendor JT, Yu K, Sellnow RC, Orr AL, Nguyen MK, Edwards RH, Manfredsson FP, Nakamura K.  2017.  Loss of α-Synuclein Does Not Affect Mitochondrial Bioenergetics in Rodent Neurons.. eNeuro. 4(2)
Krabbe G, S Minami S, Etchegaray JI, Taneja P, Djukic B, Davalos D, Le D, Lo I, Zhan L, Reichert MC et al..  2017.  Microglial NFκB-TNFα hyperactivation induces obsessive-compulsive behavior in mouse models of progranulin-deficient frontotemporal dementia.. Proc Natl Acad Sci U S A. 114(19):5029-5034.
Krabbe G, S Minami S, Etchegaray JI, Taneja P, Djukic B, Davalos D, Le D, Lo I, Zhan L, Reichert MC et al..  2017.  Microglial NFκB-TNFα hyperactivation induces obsessive-compulsive behavior in mouse models of progranulin-deficient frontotemporal dementia.. Proc Natl Acad Sci U S A. 114(19):5029-5034.