Association of Rare Coding Mutations With Alzheimer Disease and Other Dementias Among Adults of European Ancestry

Devanshi Patel,Christopher Corcoran,Lyndsay A Staley ,Oscar L López ,Jesse Mez,Jaeyoon Chung,Badri N Vardarajan,Richard Mayeux,Margaret A Pericak‐Vance ,Jeffery Stevens,Lisa Cannon-Albright ,Jonathan L Haines,John Kauwe ,Gerard D Schellenberg ,Josue D Gonzalez Murcia,Michael J Rynkiewicz,John Farrell ,Craig C Teerlink,Kathryn L Lunetta,Xiaoling Zhang,Lindsay A Farrer

doi:10.1001/jamanetworkopen.2019.1350

Abstract

Some of the unexplained heritability of Alzheimer disease (AD) may be due to rare variants whose effects are not captured in genome-wide association studies because very large samples are needed to observe statistically significant associations. To identify genetic variants associated with AD risk using a nonstatistical approach. Genetic association study in which rare variants were identified by whole-exome sequencing in unrelated individuals of European ancestry from the Alzheimer's Disease Sequencing Project (ADSP). Data were analyzed between March 2017 and September 2018. Minor alleles genome-wide and in 95 genes previously associated with AD, AD-related traits, or other dementias were tabulated and filtered for predicted functional impact and occurrence in participants with AD but not controls. Support for several findings was sought in a whole-exome sequencing data set comprising 19 affected relative pairs from Utah high-risk pedigrees and whole-genome sequencing data sets from the ADSP and Alzheimer's Disease Neuroimaging Initiative. Among 5617 participants with AD (3202 [57.0%] women; mean [SD] age, 76.4 [9.3] years) and 4594 controls (2719 [59.0%] women; mean [SD] age, 86.5 [4.5] years), a total of 24 variants with moderate or high functional impact from 19 genes were observed in 10 or more participants with AD but not in controls. These variants included a missense mutation (rs149307620 [p.A284T], n = 10) in NOTCH3, a gene in which coding mutations are associated with cerebral autosomal-dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL), that was also identified in 1 participant with AD and 1 participant with mild cognitive impairment in the whole genome sequencing data sets. Four participants with AD carried the TREM2 rs104894002 (p.Q33X) high-impact mutation that, in homozygous form, causes Nasu-Hakola disease, a rare disorder characterized by early-onset dementia and multifocal bone cysts, suggesting an intermediate inheritance model for the mutation. Compared with controls, participants with AD had a significantly higher burden of deleterious rare coding variants in dementia-associated genes (2314 vs 3354 cumulative variants, respectively; P = .006). Different mutations in the same gene or variable dose of a mutation may be associated with result in distinct dementias. These findings suggest that minor differences in the structure or amount of protein may be associated with in different clinical outcomes. Understanding these genotype-phenotype associations may provide further insight into the pathogenic nature of the mutations, as well as offer clues for developing new therapeutic targets.

Highlights

Alzheimer disease (AD) is the most common type of dementia and affects an estimated 5.7 million individuals in the United States, with the number projected to rise to 14 million by 2050.1 Susceptibility to AD is highly heritable (h2 = 58%-79%),[2] but only about one-third of the genetic component is accounted for by common variants discovered through genome-wide association studies.[2]
Among 5617 participants with AD (3202 [57.0%] women; mean [SD] age, 76.4 [9.3] years) and 4594 controls (2719 [59.0%] women; mean [SD] age, 86.5 [4.5] years), a total of 24 variants with moderate or high functional impact from 19 genes were observed in 10 or more participants with AD but not in controls. These variants included a missense mutation in NOTCH3, a gene in which coding mutations are associated with cerebral autosomaldominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL), that was identified in 1 participant with AD and 1 participant with mild cognitive impairment in the whole genome sequencing data sets
Four participants with AD carried the TREM2 rs104894002 (p.Q33X) high-impact mutation that, in homozygous form, causes Nasu-Hakola disease, a rare disorder characterized by early-onset dementia and multifocal bone cysts, suggesting an intermediate inheritance model for the mutation

Summary

Introduction

Alzheimer disease (AD) is the most common type of dementia and affects an estimated 5.7 million individuals in the United States, with the number projected to rise to 14 million by 2050.1 Susceptibility to AD is highly heritable (h2 = 58%-79%),[2] but only about one-third of the genetic component is accounted for by common variants discovered through genome-wide association studies.[2] Some of the unexplained heritability of AD may be due to rare variants, which remain challenging to discover in genomic studies because of statistical power limitations, despite large sample sizes.[3] Genome-wide searches have identified AD associations with rare variants in relatively few genes, including TREM2, AKAP9, UNC5C, ZNF655, IGHG3, and CASP7,4-8 and methods to evaluate rare variants are still under development.[3] We applied a strategy focused on rare variants occurring only in cases to identify and characterize additional high-penetrance risk variants in AD that would be otherwise undetected in analyses that do not render results when a variant is not observed in the control group

Methods

Results

Discussion

Conclusion