Linkage, whole genome sequence, and biological data implicate variants in RAB10 in Alzheimer’s disease resilience

Authors

Perry G. Ridge, Brigham Young University
Celeste M. Karch, Washington University School of Medicine
Simon Hsu, Washington University School of Medicine
Ivan Arano, Brigham Young University
Craig C. Teerlink, University of Utah
Mark T. W. Ebbert, Brigham Young University
Josue D. Gonzalez Murcia, Brigham Young University
James M. Farnham, University of Utah
Anna R. Damato, Washington University School of Medicine
Mariet Allen, Mayo Clinic
Xue Wang, Mayo Cinic
Oscar Harari, Washington University School of Medicine
Victoria M. Fernandez, Washington University School of Medicine
Rita Guerreiro, University College London
Jose Bras, University College London
John Hardy, University College London
Ronald G. Munger, Utah State UniversityFollow
Maria Norton, Utah State UniversityFollow
Celeste Sassi, University College London
Andrew Singleton, National Institute on Aging
Steven G. Younkin, Mayo Clinic
Dennis W. Dickson, Mayo Clinic
Todd E. Golde, University of Florida
Nathan D. Price, Institute for Systems Biology
Nilüfer Ertekin-Taner, Mayo Clinic
Carlos Cruchaga, Washington University School of Medicine
Alison M. Goate, Icahn School of Medicine at Mount Sinai
Chris D. Corcoran, Utah State UniversityFollow
JoAnn T. Tschanz, Utah State UniversityFollow
Lisa A. Cannon-Albright, University of Utah
John S. Kauwe, Brigham Young University
Alzheimer’s Disease Neuroimaging Initative

Document Type

Article

Journal/Book Title/Conference

Genome Medicine

Volume

9

Issue

100

Publisher

BioMed Central

Publication Date

11-29-2017

First Page

1

Last Page

14

Abstract

Background

While age and the APOE ε4 allele are major risk factors for Alzheimer’s disease (AD), a small percentage of individuals with these risk factors exhibit AD resilience by living well beyond 75 years of age without any clinical symptoms of cognitive decline.

Methods

We used over 200 “AD resilient” individuals and an innovative, pedigree-based approach to identify genetic variants that segregate with AD resilience. First, we performed linkage analyses in pedigrees with resilient individuals and a statistical excess of AD deaths. Second, we used whole genome sequences to identify candidate SNPs in significant linkage regions. Third, we replicated SNPs from the linkage peaks that reduced risk for AD in an independent dataset and in a gene-based test. Finally, we experimentally characterized replicated SNPs.

Results

Rs142787485 in RAB10 confers significant protection against AD (p value = 0.0184, odds ratio = 0.5853). Moreover, we replicated this association in an independent series of unrelated individuals (p value = 0.028, odds ratio = 0.69) and used a gene-based test to confirm a role for RAB10 variants in modifying AD risk (p value = 0.002). Experimentally, we demonstrated that knockdown of RAB10 resulted in a significant decrease in Aβ42 (p value = 0.0003) and in the Aβ42/Aβ40 ratio (p value = 0.0001) in neuroblastoma cells. We also found that RAB10 expression is significantly elevated in human AD brains (p value = 0.04).

Conclusions

Our results suggest that RAB10 could be a promising therapeutic target for AD prevention. In addition, our gene discovery approach can be expanded and adapted to other phenotypes, thus serving as a model for future efforts to identify rare variants for AD and other complex human diseases.

Recommended Citation

Ridge, Perry G.; Karch, Celeste M.; Hsu, Simon; Arano, Ivan; Teerlink, Craig C.; Ebbert, Mark T. W.; Gonzalez Murcia, Josue D.; Farnham, James M.; Damato, Anna R.; Allen, Mariet; Wang, Xue; Harari, Oscar; Fernandez, Victoria M.; Guerreiro, Rita; Bras, Jose; Hardy, John; Munger, Ronald G.; Norton, Maria; Sassi, Celeste; Singleton, Andrew; Younkin, Steven G.; Dickson, Dennis W.; Golde, Todd E.; Price, Nathan D.; Ertekin-Taner, Nilüfer; Cruchaga, Carlos; Goate, Alison M.; Corcoran, Chris D.; Tschanz, JoAnn T.; Cannon-Albright, Lisa A.; Kauwe, John S.; and Alzheimer’s Disease Neuroimaging Initative, "Linkage, whole genome sequence, and biological data implicate variants in RAB10 in Alzheimer’s disease resilience" (2017). Nutrition, Dietetics, and Food Sciences Faculty Publications. Paper 867.
https://digitalcommons.usu.edu/nfs_facpub/867