Parallel Molecular Alteration Between Alzheimer’s Disease and Major Depressive Disorder in the Human Brain Dorsolateral Prefrontal Cortex: An İnsight From Gene Expression and Methylation Profile Analyses
Künye
RASTAD, Saber, Nadia BARJASTE, Hossein LANJANİAN, Ali MOEİNİ, Farzad KİANİ & Ali MASOUDİ-NEJAD. "Parallel Molecular Alteration Between Alzheimer’s Disease and Major Depressive Disorder in the Human Brain Dorsolateral Prefrontal Cortex: An İnsight From Gene Expression and Methylation Profile Analyses". Genes & Genetic Systems, (2023):1-14.Özet
Alzheimer’s disease (AD) and major depressive disorder (MDD) are comorbid
neuropsychiatric disorders that are among the leading causes of long-term disability worldwide. Recent research has indicated the existence of parallel molecular mechanisms between AD and MDD in the dorsolateral prefrontal cortex
(DLPFC). However, the premorbid history and molecular mechanisms have not
yet been well characterized. In this study, differentially expressed gene (DEG),
differentially co-expressed gene and protein–protein interaction (PPI) network
propagation analyses were applied to gene expression data of postmortem DLPFC
samples from human individuals diagnosed with and without AD or MDD (AD:
cases = 310, control = 157; MDD: cases = 75, control = 161) to identify the main
genes in the two disorders’ specific and shared biological pathways. Subsequently,
the results were evaluated using another four assessment datasets (n1 = 230, n2 =
65, n3 = 58, n4 = 48). Moreover, the postmortem DLPFC methylation status of
human subjects with AD or MDD was compared using 68 and 608 samples for AD
and MDD, respectively. Eight genes (XIST, RPS4Y1, DDX3Y, USP9Y, DDX3X,
TMSB4Y, ZFY and E1FAY) were common DEGs in DLPFC of subjects with AD
or MDD. These genes play important roles in the nervous system and the innate
immune system. Furthermore, we found HSPG2, DAB2IP, ARHGAP22, TXNRD1,
MYO10, SDK1 and KRT82 as common differentially methylated genes in the DLPFC
of cases with AD or MDD. Finally, as evidence of shared molecular mechanisms
behind this comorbidity, we propose some genes as candidate biomarkers for both AD
and MDD. However, more research is required to clarify the molecular mechanisms
underlying the co-existence of these two important neuropsychiatric disorders.
Kaynak
Genes & Genetic SystemsBağlantı
https://www.jstage.jst.go.jp/article/ggs/advpub/0/advpub_22-00022/_article/-char/enhttps://hdl.handle.net/11352/4559