Abstract
BACKGROUND: Alzheimer's disease (AD) is the most common neurodegenerative disorder, characterized by neuropathological hallmarks such as amyloid β‐protein plaques, leading to neuronal loss. Early‐Onset Alzheimer's Disease (EOAD), which manifests before the age of 65, is a rare condition often associated with specific genetic variants. Patients carrying the PSEN1 A431E mutation typically present with symptoms at an average age of 42.5 years, with rapid disease progression leading to death within an average of 7.5 years. This mutation represents the second‐largest population of EOAD cases caused by a single mutation. Given the clinical variability observed among affected families with the same mutation, we investigated the influence of additional genetic factors, such as APOE alleles, on disease phenotype. METHOD: A total of 89 patients with familial EOAD were evaluated at the CMNO‐IMSS genetics service. Autosomal dominant inheritance patterns and clinical features consistent with AD were identified. The PSEN1 A431E mutation was confirmed by Sanger sequencing, and APOEε2 and APOEε4 alleles were genotyped using real‐time PCR. Data analysis included descriptive statistics, Kruskal‐Wallis, and simple linear regression to assess clinical correlations. RESULT: A significant association was identified between the age at symptom onset and APOE alleles. APOEε4 carriers showed a delayed symptom onset of 4.15 years (p = 0.00035), whereas APOEε2 carriers showed an earlier onset of 2.34 years (p = 0.037). However, no association was observed between APOE alleles and the nature of the first clinical manifestation. CONCLUSION: This study highlights an apparently inverse effect of APOEε4 and APOEε2 in EOAD patients with the PSEN1 A431E mutation, compared to late‐onset AD. Specifically, APOEε4 delays the age of symptom onset, whereas APOEε2 accelerates it. These findings suggest that APOE alleles play a dual role as genetic modifiers in EOAD, offering potential avenues for personalized risk assessment and targeted interventions.