Troxerutin, a semi-synthetic derivative of the natural bioflavanoid rutin, has been reported to possess many beneficial effects in human bodies, such as vasoprotection, immune support, anti-inflammation and anti-aging. However, the effects of troxerutin on genome-wide transcription in blood cells are still unknown. In order to find out effects of troxerutin on gene transcription, a high-throughput RNA sequencing was employed to analysis differential gene expression in blood cells consisting of leucocytes, erythrocytes and platelets isolated from the mice received subcutaneous injection of troxerutin. Transcriptome analysis demonstrated that the expression of only fifteen genes was significantly changed by the treatment with troxerutin, among which 5 genes were up-regulated and 10 genes were down-regulated. Bioinformatic analysis of the fifteen differentially expressed genes was made by utilizing the Gene Ontology (GO), and the differential expression induced by troxerutin was further evaluated by real-time quantitative PCR (Q-PCR).
Alzheimer’s disease (AD) is a progressive neurodegenerative disorder associated with synaptic dysfunction, pathological accumulation of β‐amyloid peptide 1‐42 (Aβ1‐42), and neuronal loss. The self‐association of Aβ1‐42 monomers (Aβ‐M) into soluble oligomers seems to be crucial for the development of neurotoxicity. Previous publications have shown that Aβ oligomers and dimers might play key roles in inducing AD. The role of Aβ‐M was rarely investigated and still unclear in AD. To understand the effects of Aβ‐M on neurons and other cell types in the brain could be the key to understand its function. In our study, we found that Aβ‐M expression slowly induced cell apoptosis within 48 hours after transfection, β2 adrenergic receptor (β2AR) interacted with Aβ‐M in the pull‐down and the yeast two‐hybrid assays, and Aβ‐M played a major role in inducing phosphorylation of Tau at Ser‐214, c‐Jun N‐terminal kinase (JNK) at Thr‐183/Tyr‐185, p70 ribosomal protein S6 kinase (p70S6K) at Thr‐389. We also discovered that β2AR, G protein‐coupled receptor kinase 2 (GRK2), and protein kinase A (PKA) mediated the phosphorylation of Tau and JNK. Aβ‐M induced phosphorylation of Tau at Ser‐214 through both β2AR‐cAMP/PKA‐JNK and β2AR‐GRK signaling pathways. Mitogen‐activated protein kinase kinase (MEK) mediated the phosphorylation of p70S6K induced by Aβ‐M.
Alzheimer’s disease (AD) is a lifelong progressive neurodegenerativa disease related with accumulation of amyloid β peptide (Aβ) produced by processing of amyloid precursor protein (APP) in the brain. In spite of several-decades effort on AD, there is still no medicine used to intervene with its pathological processes. Our previous studies made in transgenic animal models harboring familial AD genes of mutant presenilin 1 and amyloid precursor protein (APP) showed that β2AR gene knock-out (β2AR-KO) is beneficial in senile AD animals. Consistently, an epidemiological study lasted for two decades showed that the sole usage of β blockers as antihypertensive medicines is associated with fewer brain lesions and less brain shrinkage seen in senile AD patients. In order to understand why senile β2AR-KO AD mice had better learning and memory, genomic effects of β2AR-KO in the double transgenic AD mice were investigated. In the analysis, major genomic significance of β2AR-KO was directed to influence protein-processing and presentation involving membrane structure and MHC class I and II protein complex, and lysosome and hydrolase activity for protein degradation, which are critical for accumulation of amyloid β peptide, the hallmark of AD.
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