Karen Hsiao Ashe, M.D., Ph.D.

Professor, Departments of Neurology and Neuroscience Director, N. Bud Grossman Center for Memory Research and Care Edmund Wallace and Anne Marie Tulloch Chairs in Neurology and Neuroscience

 

E-MAIL: [email protected]


Research Interests:

For over 20 years Dr. Karen H. Ashe has been engaged in the study of the molecular genetics, biochemistry and molecular biology of prion diseases and Alzheimer’s disease. Dr. Ashe's contributions are in three main areas: the genetics of human prion diseases; transgenic models of prion and Alzheimer’s diseases; and the molecular basis of memory loss in Alzheimer’s disease.

Dr. Ashe's lab created the Tg2576 transgenic mouse, which develops subtle memory problems and plaques composed of amyloid-beta protein. This mouse models the “pre-clinical” phase of Alzheimer’s disease. During this phase, the disease processes are underway in the brain, but people do not yet notice symptoms. This model of Alzheimer's disease is studied around the world today. The work continued with the creation of other mouse models of neurodegenerative disease, including developing the rTg4510 mouse that models another biological sign of Alzheimer's: neurofibrillary tangles made of tau protein.

Current research:
1.) Finding markers in blood and cerebral spinal fluid that will let us detect Alzheimer’s disease at its earliest stages, before people notice symptoms -- and before there is irreplacable loss of large numbers of brain cells.

2.) Creation of an improved mouse model of Alzheimer’s disease that more completely recapitulates the course of the human disease, exhibiting plaques, tangles, memory loss, and massive death of brain cells.

3.) Increasing the understanding of the basic mechanisms of Alzheimer’s disease at the molecular level so that an intervention in the process might be found to halt the progress of the disease, specifically focusing on Abeta*56 and Tau.

4.) Translation of safe and affordable compounds which have shown results in mouse models of Alzheimer’s disease into a prevention strategy to reduce the incidence of the disease in humans through a collaboration of laboratory and clinical researchers.


Selected Publications:

(For a comprehensive list of recent publications, refer to PubMed, a service provided by the National Library of Medicine.)

  • Liu P, Ashe KH. The molecular implications of a caspase-2-mediated site-specific tau cleavage in tauopathies. Neural Regen Res. 2021 Sep;16(9):1774-1775.
  • Ashe KH. The biogenesis and biology of amyloid β oligomers in the brain. Alzheimers Dement. 2020 Nov;16(11):1561-1567.
  • Teravskis PJ, Ashe KH, Liao D. The accumulation of Tau in postsynaptic structures: A common feature in multiple neurodegenerative diseases? Neuroscientist. 2020 Oct-Dec;26(5-6):503-520.
  • Gamache JE, Kemper L, Steuer E, Leinonen-Wright K, Choquette JM, Hlynialuk C, Benzow K, Vossel KA, Xia W, Koob MD, Ashe KH. Developmental pathogenicity of 4-repeat human tau is lost with the P301L mutation in genetically matched tau-transgenic mice. J Neurosci. 2020 Jan 2;40(1):220-236.
  • Liu P, Smith BR, Montonye ML, Kemper LJ, Leinonen-Wright K, Nelson KM, Higgins L, Guerrero CR, Markowski TW, Zhao X, Petersen AJ, Knopman DS, Petersen RC, Ashe KH. A soluble truncated tau species related to cognitive dysfunction is elevated in the brain of cognitively impaired human individuals. Sci Rep. 2020 Mar 2;10(1):3869.
  • Liu P, Smith BR, Huang ES, Mahesh A, Vonsattel JPG, Petersen AJ, Gomez-Pastor R, Ashe KH. A soluble truncated tau species related to cognitive dysfunction and caspase-2 is elevated in the brain of Huntington's disease patients. Acta Neuropathol Commun. 2019 Jul 30;7(1):111.
  • Smith BR, Nelson KM, Kemper LJ, Leinonen-Wright K, Petersen A, Keene CD, Ashe KH. A soluble tau fragment generated by caspase-2 is associated with dementia in Lewy body disease. Acta Neuropathol Commun. 2019 Jul 30;7(1):124.
  • Gamache JE, Benzow K, Forster C, Kemper L, Hlyniakluk C, Furrow E, Ashe KH, Koob MD. Factors other than hTau overexpression that contribute to tauopathy-like phenotype in rTg4510 mice. Nat Commun. 2019;10:2479.
  • Teravskis PJ, Oxnard BR, Miller EC, Kemper L, Ashe KH, Liao D. Phosphorylation in two discrete tau domains regulates a stepwise process leading to postsynaptic dysfunction. J Physiol. 2019 Jun 13. doi: 10.1113/JP277459.
  • Liu P, Reichl JH, Rao ER, McNellis BM, Huang ES, Hemmy LS, Forster CL, Kuskowski MA, Borchelt DR, Vassar R, Ashe KH, Zahs KR. Quantitative comparison of dense-core amyloid plaque accumulation in amyloid-β protein precursor transgenic mice. J Alzheimers Dis. 2017;56(2):743-761.
  • Zhao X, Kotilinek LA, Smith B, Hlynialuk C, Zahs K, Ramsden M, Cleary J, Ashe KH. Caspase-2 cleavage of tau reversibly impairs memory. Nat Med. 2016;22(11):1268-1276.
  • Liu P, Reed MN, Kotilinek LA, Grant MK, Forster CL, Qiang W, Shapiro SL, Reichl JH, Chiang A, Jankowsky JL, Wilmot CM, Cleary JP, Zahs KR, Ashe KH. Quaternary structure defines a large class of amyloid-β oligomers neutralized by sequestration. Cell Rep. 2015;11(11):1760-1771.
  • Weitzner DS, Engler-Chiurazzi EB, Kotilinek LA, Ashe KH, Reed MN. Morris water maze test: Optimization for mouse strain and testing environment. J Vis Exp. 2015 Jun 22;(100):e52706.
  • Liu P, Paulson JB, Forster CL, Shapiro SL, Ashe KH, Zahs KR. Characterization of a novel mouse model of Alzheimer's disease--amyloid pathology and unique β-amyloid oligomer profile. PLoS One. 2015 May 6;10(5):e0126317.
  • Zahs KR, Ashe KH. More than a FAD: The in vivo effects of disease-linked presenilin-1 mutations. Neuron. 2015 Mar 4;85(5):893-895.

Current Graduate Students:

 

Former Graduate Students:

Julia Gamache (Ph.D. 2019, Neuroscience, University of Minnesota).

Maureen Handoko (Ph.D. 2012, Neuroscience, University of Minnesota).

Carol Ma (Ph.D. 2006, Neuroscience, University of Minnesota).

Marcus Westerman (Ph.D. 2001, Neuroscience, University of Minnesota).

Picture of Karen Hsiao Ashe