BackgroundSenile dementia mainly includes Alzheimer' s disease (AD) and vascular dementia (VD). AD is a progressive and irreversible neurodegenerative disorder that is accompanied with a great deal of social burden. The aim of this study was to investigate the effect of Compound Danshen (CDS) on learning and memory of alzheimer’s disease (AD) rat model, as well as to explore the possible connection between CDS and the associated molecules of amyloid beta (Aβ).MethodsRats were injected with Aβ25–35 peptide intracerebroventricularly and CDS were subsequently administered once daily for 23 days. Rats’ behavior was monitored using Morris water maze and passive avoidance. Real time PCR and Western blotting were used in determining amyloid precursor protein (APP), β-site APP cleaved enzyme-1(BACE1), Presenilin-1 (PS1), Insulin-degrading enzyme (IDE) and neprilysin (NEP) in hippocampus.ResultsThe AD model group presented with spatial learning and memory impairments. CDS and donepezil administration significantly ameliorated the Aβ25–35 peptide-induced memory impairment in both Morris water maze (P < 0.05) and passive avoidance task (P < 0.01) compared to the AD model group. Real time PCR results suggested that CDS significantly decreased APP mRNA, PS1 mRNA and increased IDE and NEP mRNA levels. Western blotting analyses showed that CDS decreased the protein expression of APP and PS1 and increased IDE expression.ConclusionCDS improved spatial learning and memory by down-regulating APP, PS1 levels and up-regulating IDE. In future, CDS may have significant therapeutic potential in the treatment of AD patients.
Pelvic inflammatory
disease (PID) is
a common inflammation in the upper reproductive tract in women and
may cause serious and costly consequences without effective treatment.
Engeletin is a flavanonol glycoside and a naturally derived aldose
reductase (AR) inhibitor that is widely distributed in vegetables,
fruits, and plant-based foods. The present study investigated the
anti-PID activity of engeletin in a mucilage-induced rat model of
PID and LPS-stimulated RAW 264.7 macrophages. Engeletin significantly
reduced inflammation and ameliorated the typical uterine pathological
changes in PID rats. Engeletin also inhibited AR-dependent PLC/PKC/NF-κB
and MAPK inflammatory pathways, as indicated by the suppression of
the phosphorylation levels of PLC, PKC, p38, ERK, and JNK and the
nuclear translocation of NF-κB p65. In vitro studies demonstrated that engeletin significantly inhibited inflammatory
mediator expression and enhanced the phagocytic ability of LPS-induced
RAW 264.7 macrophages. RNA interference of AR prevented the engeletin-induced
inhibition of inflammatory mediators. Engeletin also inhibited AR-dependent
PLC/PKC/NF-κB and MAPK inflammatory pathways, which was consistent
with the in vivo results. These findings support
engeletin as a potential agent for prevention or treatment of PID.
Phosphodiesterase-4 (PDE4) inhibitors prevent the breakdown of the second messenger cAMP and have been demonstrated to improve learning in several animal models of cognition. In this study, we explored the antioxidative effects of rolipram in Alzheimer's disease (AD) by using bilateral Aβ25-35 injection into the hippocampus of rats, which were used as an AD model. Rats received 3 intraperitoneal (i.p.) doses of rolipram (0.1, 0.5 and 1.25 mg/kg) daily after the injection of Aβ25-35 for 25 days. Chronic administration of rolipram prevented the memory impairments induced by Aβ25-35, as assessed using the passive avoidance test and the Morris water maze test. Furthermore, rolipram significantly reduced the oxidative stress induced by Aβ25-35, as evidenced by the decrease in the levels of reactive oxygen species (ROS) and malondialdehyde (MDA), and restored the reduced GSH levels and superoxide dismutase (SOD) activity. Moreover, western blotting and real-time reverse transcription polymerase chain reaction (RT-PCR) analysis showed that rolipram remarkably upregulated thioredoxin (Trx) and inhibited the inducible nitric oxide synthase/nitric oxide (iNOS/NO) pathway in the hippocampus. These results demonstrated that rolipram improved the learning and memory abilities in an Aβ25-35-induced AD rat model. The mechanism underlying these effects may be due to the noticeable antioxidative effects of rolipram.
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