No association between an intronic polymorphism in the presenilin-1 gene and Alzheimer disease in a Tunisian population

Decoding the genetic relationship between Alzheimer's disease and type 2 diabetes: potential risk variants and future direction for North Africa

Introduction

Alzheimer's disease (AD) and Type 2 diabetes (T2D) are both age-associated diseases. Identification of shared genes could help develop early diagnosis and preventive strategies. Although genetic background plays a crucial role in these diseases, we noticed an underrepresentation tendency of North African populations in omics studies.

Materials and methods

First, we conducted a comprehensive review of genes and pathways shared between T2D and AD through PubMed. Then, the function of the identified genes and variants was investigated using annotation tools including PolyPhen2, RegulomeDB, and miRdSNP. Pathways enrichment analyses were performed with g:Profiler and EnrichmentMap. Next, we analyzed variant distributions in 16 worldwide populations using PLINK2, R, and STRUCTURE software. Finally, we performed an inter-ethnic comparison based on the minor allele frequency of T2D-AD common variants.

Results

A total of 59 eligible papers were included in our study. We found 231 variants and 363 genes shared between T2D and AD. Variant annotation revealed six single nucleotide polymorphisms (SNP) with a high pathogenic score, three SNPs with regulatory effects on the brain, and six SNPs with potential effects on miRNA-binding sites. The miRNAs affected were implicated in T2D, insulin signaling pathways, and AD. Moreover, replicated genes were significantly enriched in pathways related to plasma protein binding, positive regulation of amyloid fibril deposition, microglia activation, and cholesterol metabolism. Multidimensional screening performed based on the 363 shared genes showed that main North African populations are clustered together and are divergent from other worldwide populations. Interestingly, our results showed that 49 SNP associated with T2D and AD were present in North African populations. Among them, 11 variants located in DNM3, CFH, PPARG, ROHA, AGER, CLU, BDNF1, CST9, and PLCG1 genes display significant differences in risk allele frequencies between North African and other populations.

Conclusion

Our study highlighted the complexity and the unique molecular architecture of North African populations regarding T2D-AD shared genes. In conclusion, we emphasize the importance of T2D-AD shared genes and ethnicity-specific investigation studies for a better understanding of the link behind these diseases and to develop accurate diagnoses using personalized genetic biomarkers.

Influence of low frequency PSEN1 variants on familial Alzheimer's disease risk in Brazil

About 30-70% of familial Alzheimer's disease (AD) cases are related to mutations in presenilin-1 gene (PSEN1). Although the role of mutations and common variants in AD had been extensively investigated, the contribution of rare or low frequency PSEN1 variants on AD risk remains unclear. In the current study, we performed a mutational screening of PSEN1 coding exons and flanking intronic sequences among 53 index cases with familial history of AD from Rio de Janeiro (Brazil). Two missense variants (rs63750592; rs17125721), one rare and a low frequency variant, and two intronic variants (rs3025786; rs165932) were identified. In silico tools were used to predict the functional impact of the variants, revealing no changes in protein functionality by exonic variants. Otherwise, all variants were predicted to alter splicing signals. Prediction results, together with previous reports, suggest a correlation between rs17125721 and AD. So, a subsequent case-control study to evaluate the role of rs1712572 on AD risk was performed in an additional sample of 120 AD sporadic cases and in 149 elderly healthy controls by TaqMan Genotyping Assay. Our data indicates a risk association for rs17125721 in familial AD cases (OR=6.0; IC95%=1.06-33.79; p=0.042). In addition, we tested the multiplicative interaction between allele ε4 of the apolipoprotein E (APOE) and rs17125721 and no statistical association was found. Taken together, our findings provide new insight about the genetic relevance of low frequency PSEN1 variants for familial AD development.

Combined association of Presenilin-1 and Apolipoprotein E polymorphisms with maternal meiosis II error in Down syndrome births

Alzheimer's disease and Down syndrome often exhibit close association and predictively share common genetic risk-factors. Presenilin-1 (PSEN-1) and Apolipoprotein E (APOE) genes are associated with early and late onset of Alzheimer's disease, respectively. Presenilin -1 is involved in faithful chromosomal segregation. A higher frequency of the APOE ε4 allele has been reported among young mothers giving birth to Down syndrome children. In this study, 170 Down syndrome patients, grouped according to maternal meiotic stage of nondisjunction and maternal age at conception, and their parents were genotyped for PSEN-1 intron-8 and APOE polymorphisms. The control group consisted of 186 mothers of karyotypically normal children. The frequencies of the PSEN-1 T allele and TT genotype, in the presence of the APOE ε4 allele, were significantly higher among young mothers (< 35 years) with meiosis II nondisjunction than in young control mothers (96.43% vs. 65.91% P = 0.0002 and 92.86% vs. 45.45% P < 0.0001 respectively) but not among mothers with meiosis I nondisjunction. We infer that the co-occurrence of the PSEN-1 T allele and the APOE ε4 allele associatively increases the risk of meiotic segregation error II among young women.