Cortical thickness is differently associated with ALDH2 rs671 polymorphism according to level of amyloid deposition

Yong Hyuk Cho,Bumhee Park,Seong Hye Choi,Chang Hyung Hong,Jin Wook Choi,Byeong C Kim,Jae Ho Ha,Seong Yoon Kim,Hyun Woong Roh,Jaeyoun Cheong,Eun-Joo Kim,Sang Won Seo,Na-Rae Kim,Sang Joon Son,Heirim Lee

doi:10.1038/s41598-021-98834-8

Abstract

Accumulating evidence indicates that amyloid-beta (Aβ) deposition and biogenic aldehyde accumulation contribute to the pathogenesis of neurodegenerative diseases. Human aldehyde dehydrogenase 2 (ALDH2) metabolizes biogenic aldehydes produced in the brain to prevent damage. However, r671G>A, a single nucleotide polymorphism of ALDH2, causes aldehyde accumulation and decreased ALDH2 activity. We aimed to investigate whether Aβ deposition and rs671 polymorphism have an interaction effect on cortical thickness (CTh). We grouped 179 participants in the Biobank Innovations for chronic Cerebrovascular disease With ALZheimer's disease Study as follows: amyloid (–) [A(–)] and amyloid (+) [A(+)] groups based on the Aβ deposition degree; A-carrier (AC) and GG (GG) groups based on the presence/absence of the rs671 A allele; and their combinations, i.e., A(–)AC, A(–)GG, A(+)AC, and A(+)GG groups. A multiple regression analysis identified nine regions of interest. Compared with the A(–)GG group, the A(–)AC group showed thinner CTh in all regions. There were no significant differences between the A(+)AC and A(+)GG groups. We observed an interaction effect of amyloid deposition and rs671 polymorphism on CTh. The CTh in the A(–) group appeared to be strongly influenced by rs671 polymorphism, which could have contributed to cortical thinning and biogenic aldehyde accumulation in the AC group. Additionally, CTh in the A(+) group appeared to be strongly influenced by amyloid deposition.

Highlights

Accumulating evidence indicates that amyloid-beta (Aβ) deposition and biogenic aldehyde accumulation contribute to the pathogenesis of neurodegenerative diseases
We included 251 participants enrolled in the BICWALZS by 2019 with genetic data obtained using DNA chips, standardized uptake value ratio (SUVr) extracted from brain Aβ positron emission tomography (PET), and cerebral cortical thickness (CTh) data obtained through FreeSurfer after brain magnetic resonance imaging (MRI)
These findings suggest that the effect of amyloid deposition on CTh varies depending on rs[671] polymorphism

Summary

Introduction

Accumulating evidence indicates that amyloid-beta (Aβ) deposition and biogenic aldehyde accumulation contribute to the pathogenesis of neurodegenerative diseases. We aimed to investigate whether Aβ deposition and rs[671] polymorphism have an interaction effect on cortical thickness (CTh). We observed an interaction effect of amyloid deposition and rs[671] polymorphism on CTh. The CTh in the A(–) group appeared to be strongly influenced by rs[671] polymorphism, which could have contributed to cortical thinning and biogenic aldehyde accumulation in the AC group. A previous clinical study reported a relationship between amyloid deposition and biogenic aldehydes; it revealed higher hippocampal levels of 4HNE in post-mortem samples obtained from patients with Alzheimer’s. Recent studies on neurodegenerative diseases have investigated human aldehyde dehydrogenase[2] (ALDH2), which is crucially involved in the metabolism and detoxification of acetaldehyde generated by ethanol consumption and biogenic aldehydes, including 4-HNE. Based on the aforementioned findings, we aimed to investigate whether amyloid deposition and rs[671] polymorphism had interaction effects on brain structural changes. The present study aimed to analyze the interaction effects of amyloid deposition and rs[671] polymorphism on CTh based on the aforementioned hypotheses

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