Using Human Embryonic Stem Cells to Understand and to Develop New Therapies for Alzheimer's Disease

Using Human Embryonic Stem Cells to Understand and to Develop New Therapies for Alzheimer's Disease

Funding Type: 
Comprehensive Grant
Grant Number: 
RC1-00116
Award Value: 
$1,859,414
Disease Focus: 
Aging
Alzheimer's Disease
Neurological Disorders
Genetic Disorder
Stem Cell Use: 
Embryonic Stem Cell
iPS Cell
Cell Line Generation: 
Embryonic Stem Cell
iPS Cell
Status: 
Closed
Public Abstract: 
Statement of Benefit to California: 
Progress Report: 

Year 1

We have made significant progress on developing human stem cell based systems to probe the causes and features of Alzheimer's Disease. We are focusing on using human embryonic and human pluripotent stem cell lines carrying genetic changes that cause hereditary Alzheimer's Disease (AD). In one approach, we have made progress by developing iPS cells carrying small genetic changes in the presenilin 1 gene, which cause severe early onset AD. We also made substantial progress on developing methods to measure the distribution within neurons of products linked to Alzheimer's Disease. Finally, we have completed development of a cell sorting method to purify neuronal stem cells, neurons, and glia from human embryonic stem cells and human IPS cells. Together, these methods should allow us to continue making progress on using pluripotent human stem cells to probe the molecular basis for how cellular changes found in neurons in the brain of AD patients are generated. In addition, these methods we are developing are moving us closer to having sources of normal and AD human neurons generated in the laboratory for drug-testing and development.

Year 2

We continue to make significant progress developing human stem cell based disease models to probe the causes of Alzheimer's Disease (AD) and to eventually develop drugs. In the past year we generated and analyzed several new human pluripotent stem cell lines (hIPS) carrying genetic changes that cause hereditary AD or that increase the risk of developing AD. We detected AD related characteristics in neurons with hereditary and in one case of a sporadic genetic type. While considerable confirmatory work needs to be done, our data raise the possibility that AD can be modeled in human neurons made from hIPS cells. In the coming year, we hope to continue making progress on using pluripotent human stem cells to probe the molecular basis for how cellular changes found in neurons in the brain of AD patients are generated. In addition, the methods we are developing are moving us closer to having sources of normal and AD human neurons generated in the laboratory for drug-testing and development.

Year 3

In our final year of funding, we made significant progress developing human stem cell based disease models to probe the causes of Alzheimer's Disease (AD) and to eventually develop drugs. We generated and analyzed several new human pluripotent stem cell lines (hIPS) carrying genetic changes that cause hereditary AD or that increase the risk of developing AD. We detected AD related characteristics in neurons with hereditary and in one case of a sporadic genetic type. While considerable confirmatory work needs to be done, our data raise the possibility that AD can be modeled in human neurons made from hIPS cells. The methods we developed are moving us closer to having sources of normal and AD human neurons generated in the laboratory for drug-testing and development.

© 2013 California Institute for Regenerative Medicine