The International Genomics of Alzheimer's Project Global Consortium Aims to Discover and Map all the Alzheimer's Genes and understand the role inheritance plays in Alzheimer's disease.
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The largest international Alzheimer's disease genetics collaboration to date has found 11 new genetic areas of interest that contribute to late onset Alzheimer's Disease (LOAD), doubling the number of potential genetics-based therapeutic targets to interrogate.
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International Group Finds 11 New Alzheimer's Genes to Target for Drug Discovery, Adding New Clues Into Complex Disease Puzzle
Global Collaboration Including Penn Medicine Experts Yields Fresh Look at Role of Immune System in Alzheimer's
The study, published in Nature Genetics, provides a broader view of genetic factors contributing to the disease and expands the scope of disease understanding to include new areas including the immune system, where a genetic overlap with other neurodegenerative diseases such as multiple sclerosis and Parkinson's disease was identified.
"Human genetic studies are being used with increased frequency to validate new drug targets in many diseases. Here we greatly increased the list of possible drug target candidates for Alzheimer’s disease, finding as many new significant genes in this one study as have been found in the last 15 years combined," said co-senior author Gerard Schellenberg, PhD, director of the Alzheimer’s Disease Genetics Consortium (ADGC) and professor of Pathology and Laboratory Medicine in the Perelman School of Medicine at the University of Pennsylvania. "This international effort has given us new clues into the steps leading to and accelerating Alzheimer's disease. We can add these new genetic clues to what we already know and try to piece together the mechanism of this complex disease."Pooling resources through the International Genomics of Alzheimer’s Project (IGAP), the collaborative team collected 74,076 patients and controls from 15 countries.
After a two stage meta-analysis, the group found some genes which confirmed known biological pathway of Alzheimer's disease, including the role of the amyloid pathway (SORL1 , CASS4) and tau (CASS4, FERMT2).
Newly discovered genes involved in the immune response and inflammation (HLA-DRB5/DRB1, INPP5D, MEF2C) reinforced a pathway implied by previous work (on CR1, TREM2).
Additional genes related to cell migration (PTK2B), lipid transport and endocytosis (SORL1) were also confirmed. And new hypotheses emerged related to hippocampal synaptic function (MEF2C , PTK2B), the cytoskeleton and axonal transport (CELF1, NME8, CASS4) as well as myeloid and microglial cell functions (INPP5D).
One of the more significant new associations was found in the HLA-DRB5 - DRB1 region, one of the most complex parts of the genome, which plays a role in the immune system and inflammatory response. It has also been associated with multiple sclerosis and Parkinson's disease, suggesting that the diseases where abnormal proteins accumulate in the brain may have a common mechanism involved, and possibly have a common drug target, Dr. Schellenberg noted.
"We know that healthy cells are very good at clearing out debris, thanks in part to the immune response system, but in these neurodegenerative diseases where the brain has an inflammatory response to bad proteins and starts forming plaques and tangle clumps, perhaps the immune response can get out of hand and do damage," said Dr. Schellenberg. "Through this powerful international group as well as our own US collaborations, we'll expand the data set even further to look for rare variants and continue our analysis to find more opportunities to better understand the disease and find viable therapeutic targets. Large-scale sequencing will certainly play a part in the next phase of our genetics studies."Started in 2011, IGAP includes the contributions from the European Alzheimer’s Disease Initiative (EADI) in France led by Philippe Amouyel, MD, PhD, at the Institute Pasteur de Lille and Lille University; the Genetic and Environmental Risk in Alzheimer’s Disease (GERAD) from the United Kingdom led by Julie Williams, PhD, at Cardiff University; the neurology subgroup of the Cohorts for Heart and Aging in Genomic Epidemiology (CHARGE) led by Sudha Seshadri, MD, at Boston University School of Medicine;
the Alzheimer’s Disease Genetics Consortium (ADGC) from the United States led by Gerard Schellenberg, PhD, Perelman School of Medicine at the University of Pennsylvania; as well as ADGC teams from the University of Miami, Vanderbilt University, Boston University and Columbia University in the United States, among others.
The National Institute on Aging provided funding for the ADGC (U01 AG032984, R01 AG033193), and the Alzheimer's Association provided crucial support to make this international collaboration possible.
Penn Medicine is one of the world's leading academic medical centers, dedicated to the related missions of medical education, biomedical research, and excellence in patient care. Penn Medicine consists of the Raymond and Ruth Perelman School of Medicine at the University of Pennsylvania (founded in 1765 as the nation's first medical school) and the University of Pennsylvania Health System, which together form a $4.3 billion enterprise.
The Perelman School of Medicine has been ranked among the top five medical schools in the United States for the past 16 years.
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