Feil Family Brain & Mind Research Institute

Publications

Found 509 results
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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.
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.
Kumar A, Karuppagounder SS, Chen Y, Corona C, Kawaguchi R, Cheng Y, Balkaya M, Sagdullaev BT, Wen Z, Stuart C et al..  2023.  2-Deoxyglucose drives plasticity via an adaptive ER stress-ATF4 pathway and elicits stroke recovery and Alzheimer's resilience.. Neuron. 111(18):2831-2846.e10.
Kumar A, Karuppagounder SS, Chen Y, Corona C, Kawaguchi R, Cheng Y, Balkaya M, Sagdullaev BT, Wen Z, Stuart C et al..  2023.  2-Deoxyglucose drives plasticity via an adaptive ER stress-ATF4 pathway and elicits stroke recovery and Alzheimer's resilience.. Neuron. 111(18):2831-2846.e10.
Kumar A, Karuppagounder SS, Chen Y, Corona C, Kawaguchi R, Cheng Y, Balkaya M, Sagdullaev BT, Wen Z, Stuart C et al..  2023.  2-Deoxyglucose drives plasticity via an adaptive ER stress-ATF4 pathway and elicits stroke recovery and Alzheimer's resilience.. Neuron. 111(18):2831-2846.e10.
Kumar A, Karuppagounder SS, Chen Y, Corona C, Kawaguchi R, Cheng Y, Balkaya M, Sagdullaev BT, Wen Z, Stuart C et al..  2023.  2-Deoxyglucose drives plasticity via an adaptive ER stress-ATF4 pathway and elicits stroke recovery and Alzheimer's resilience.. Neuron. 111(18):2831-2846.e10.
A
Ranea-Robles P, Launay N, Ruiz M, Calingasan NYlagan, Dumont M, Naudí A, Portero-Otín M, Pamplona R, Ferrer I, M Beal F et al..  2018.  Aberrant regulation of the GSK-3β/NRF2 axis unveils a novel therapy for adrenoleukodystrophy.. EMBO Mol Med.
Intlekofer AM, Shih AH, Wang B, Nazir A, Rustenburg AS, Albanese SK, Patel M, Famulare C, Correa FM, Takemoto N et al..  2018.  Acquired resistance to IDH inhibition through trans or cis dimer-interface mutations.. Nature.
Intlekofer AM, Shih AH, Wang B, Nazir A, Rustenburg AS, Albanese SK, Patel M, Famulare C, Correa FM, Takemoto N et al..  2018.  Acquired resistance to IDH inhibition through trans or cis dimer-interface mutations.. Nature.
Intlekofer AM, Shih AH, Wang B, Nazir A, Rustenburg AS, Albanese SK, Patel M, Famulare C, Correa FM, Takemoto N et al..  2018.  Acquired resistance to IDH inhibition through trans or cis dimer-interface mutations.. Nature.
Intlekofer AM, Shih AH, Wang B, Nazir A, Rustenburg AS, Albanese SK, Patel M, Famulare C, Correa FM, Takemoto N et al..  2018.  Acquired resistance to IDH inhibition through trans or cis dimer-interface mutations.. Nature.
Garzón M, Wang G, Chan J, Bourie F, Mackie K, Pickel VM.  2021.  Adolescent administration of Δ9-THC decreases the expression and function of muscarinic-1 receptors in prelimbic prefrontal cortical neurons of adult male mice.. IBRO Neurosci Rep. 11:144-155.
Morris NA, Merkler AE, Parker WE, Claassen J, E Connolly S, Sheth KN, Kamel H.  2016.  Adverse Outcomes After Initial Non-surgical Management of Subdural Hematoma: A Population-Based Study.. Neurocrit Care. 24(2):226-32.
Morris NA, Merkler AE, Parker WE, Claassen J, E Connolly S, Sheth KN, Kamel H.  2016.  Adverse Outcomes After Initial Non-surgical Management of Subdural Hematoma: A Population-Based Study.. Neurocrit Care. 24(2):226-32.
Anderson CJ, Bredvik K, Burstein SR, Davis C, Meadows SM, Dash J, Case L, Milner TA, Kawamata H, Zuberi A et al..  2019.  ALS/FTD mutant CHCHD10 mice reveal a tissue-specific toxic gain-of-function and mitochondrial stress response.. Acta Neuropathol.
Deng Z, Lim J, Wang Q, Purtell K, Wu S, Palomo GM, Tan H, Manfredi G, Zhao Y, Peng J et al..  2019.  ALS-FTLD-linked mutations of SQSTM1/p62 disrupt selective autophagy and NFE2L2/NRF2 anti-oxidative stress pathway.. Autophagy. :1-15.
Doczi J, Torocsik B, Echaniz-Laguna A, de Camaret BMousson, Starkov A, Starkova N, Gál A, Molnár MJ, Kawamata H, Manfredi G et al..  2016.  Alterations in voltage-sensing of the mitochondrial permeability transition pore in ANT1-deficient cells.. Sci Rep. 6:26700.
Cortes-Canteli M, Iadecola C.  2020.  Alzheimer's Disease and Vascular Aging: JACC Focus Seminar.. J Am Coll Cardiol. 75(8):942-951.
Carling GK, Fan L, Foxe NR, Norman K, Ye P, Wong MYing, Zhu D, Yu F, Xu J, Yarahmady A et al..  2024.  Alzheimer's disease-linked risk alleles elevate microglial cGAS-associated senescence and neurodegeneration in a tauopathy model.. bioRxiv.
Carling GK, Fan L, Foxe NR, Norman K, Ye P, Wong MYing, Zhu D, Yu F, Xu J, Yarahmady A et al..  2024.  Alzheimer's disease-linked risk alleles elevate microglial cGAS-associated senescence and neurodegeneration in a tauopathy model.. bioRxiv.
Carling GK, Fan L, Foxe NR, Norman K, Ye P, Wong MYing, Zhu D, Yu F, Xu J, Yarahmady A et al..  2024.  Alzheimer's disease-linked risk alleles elevate microglial cGAS-associated senescence and neurodegeneration in a tauopathy model.. bioRxiv.
Carling GK, Fan L, Foxe NR, Norman K, Ye P, Wong MYing, Zhu D, Yu F, Xu J, Yarahmady A et al..  2024.  Alzheimer's disease-linked risk alleles elevate microglial cGAS-associated senescence and neurodegeneration in a tauopathy model.. bioRxiv.
Milner TA, Chen RX, Welington D, Rubin BR, Contoreggi NH, Johnson MA, Mazid S, Marques-Lopes J, Marongiu R, Glass MJ.  2022.  Angiotensin II differentially affects hippocampal glial inflammatory markers in young adult male and female mice.. Learn Mem. 29(9):265-273.
Milner TA, Chen RX, Welington D, Rubin BR, Contoreggi NH, Johnson MA, Mazid S, Marques-Lopes J, Marongiu R, Glass MJ.  2022.  Angiotensin II differentially affects hippocampal glial inflammatory markers in young adult male and female mice.. Learn Mem. 29(9):265-273.
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.