ABSTRACT: In recent decades, transcriptome analysis has been widely used to understand human disease pathogenesis and identify therapeutic targets and biomarkers. Accumulated reports in patients with neurodegenerative diseases, such as Alzheimer’s and Parkinson’s disease, have also provided evidence of dysregulated gene expression related to neuropathogenesis. However, obtaining samples from neurodegenerative patients is more challenging than other human diseases due to low accessibility. Also, brain tissues and cerebrospinal fluid are composed of multiple cell types, so they are unsuitable for obtaining neural cell-type-specific gene expression profiles. Thus, we here report gene expression profiles in primary neuronal cultures exposed to Aβ toxicity and glutamate excitotoxicity to understand pathological gene expression in neurons. By RNA-sequencing analysis, we compare transcriptomes and find that two groups of genes show similar expression patterns in Aβ toxicity excitotoxicity—they are either up- or down-regulated in both conditions. Genes in the two groups are related to synaptic function and cell signaling, which are well-known biological functions altered in Aβ toxicity and excitotoxicity. Interestingly, the analysis reveals a possibility that circadian clock (molecular oscillator generating daily rhythms)-related genes are dysregulated in both conditions. We confirm the reduced circadian transcription factor Bmal1 levels in Aβ toxicity and glutamate excitotoxicity. RNA-sequencing analysis in Bmal1-deleted neurons shows potential relationships between BMAL1 and synaptic functions. Thus, this transcriptome study provides evidence of the potential roles of the circadian clock in neuropathogenesis.